#include <TArrayF.h>
#include <TFile.h>
+#include <TList.h>
#include <TSystem.h>
#include <TROOT.h>
#include <TPluginManager.h>
#include <TGeoManager.h>
#include <TLorentzVector.h>
+#include <TArrayS.h>
+#include <TArrayD.h>
#include "AliReconstruction.h"
#include "AliCodeTimer.h"
#include "AliPID.h"
#include "AliESDpid.h"
#include "AliESDtrack.h"
+#include "AliESDPmdTrack.h"
#include "AliESDTagCreator.h"
+#include "AliAODTagCreator.h"
#include "AliGeomManager.h"
#include "AliTrackPointArray.h"
#include "AliAODHeader.h"
#include "AliAODTrack.h"
#include "AliAODVertex.h"
-#include "AliAODCluster.h"
+#include "AliAODv0.h"
+#include "AliAODJet.h"
+#include "AliAODCaloCells.h"
+#include "AliAODCaloCluster.h"
+#include "AliAODPmdCluster.h"
+#include "AliAODFmdCluster.h"
+#include "AliAODTracklets.h"
+
+//#include "AliQADataMaker.h"
+#include "AliQA.h"
+#include "AliQADataMakerSteer.h"
+
+#include "AliSysInfo.h" // memory snapshots
ClassImp(AliReconstruction)
fRunVertexFinder(kTRUE),
fRunHLTTracking(kFALSE),
fRunMuonTracking(kFALSE),
+ fRunV0Finder(kTRUE),
+ fRunCascadeFinder(kTRUE),
fStopOnError(kFALSE),
fWriteAlignmentData(kFALSE),
- fCleanESD(kTRUE),
fWriteESDfriend(kFALSE),
fWriteAOD(kFALSE),
fFillTriggerESD(kTRUE),
+ fCleanESD(kTRUE),
+ fV0DCAmax(3.),
+ fV0CsPmin(0.),
+ fDmax(50.),
+ fZmax(50.),
+
fRunLocalReconstruction("ALL"),
fRunTracking("ALL"),
fFillESD("ALL"),
+ fUseTrackingErrorsForAlignment(""),
fGAliceFileName(gAliceFilename),
fInput(""),
fEquipIdMap(""),
fVertexer(NULL),
fDiamondProfile(NULL),
+ fGRPList(NULL),
+
fAlignObjArray(NULL),
fCDBUri(cdbUri),
- fSpecCDBUri()
+ fRemoteCDBUri(""),
+ fSpecCDBUri(),
+ fRunQA(kTRUE)
+
{
// create reconstruction object with default parameters
fReconstructor[iDet] = NULL;
fLoader[iDet] = NULL;
fTracker[iDet] = NULL;
+// fQADataMaker[iDet] = NULL;
+// fQACycles[iDet] = 999999;
}
AliPID pid;
}
fRunVertexFinder(rec.fRunVertexFinder),
fRunHLTTracking(rec.fRunHLTTracking),
fRunMuonTracking(rec.fRunMuonTracking),
+ fRunV0Finder(rec.fRunV0Finder),
+ fRunCascadeFinder(rec.fRunCascadeFinder),
fStopOnError(rec.fStopOnError),
fWriteAlignmentData(rec.fWriteAlignmentData),
- fCleanESD(rec.fCleanESD),
fWriteESDfriend(rec.fWriteESDfriend),
fWriteAOD(rec.fWriteAOD),
fFillTriggerESD(rec.fFillTriggerESD),
+ fCleanESD(rec.fCleanESD),
+ fV0DCAmax(rec.fV0DCAmax),
+ fV0CsPmin(fV0CsPmin),
+ fDmax(rec.fDmax),
+ fZmax(rec.fZmax),
+
fRunLocalReconstruction(rec.fRunLocalReconstruction),
fRunTracking(rec.fRunTracking),
fFillESD(rec.fFillESD),
+ fUseTrackingErrorsForAlignment(rec.fUseTrackingErrorsForAlignment),
fGAliceFileName(rec.fGAliceFileName),
fInput(rec.fInput),
fEquipIdMap(rec.fEquipIdMap),
fVertexer(NULL),
fDiamondProfile(NULL),
+ fGRPList(NULL),
+
fAlignObjArray(rec.fAlignObjArray),
fCDBUri(rec.fCDBUri),
- fSpecCDBUri()
+ fRemoteCDBUri(rec.fRemoteCDBUri),
+ fSpecCDBUri(),
+ fRunQA(kTRUE)
{
// copy constructor
fReconstructor[iDet] = NULL;
fLoader[iDet] = NULL;
fTracker[iDet] = NULL;
+// fQADataMaker[iDet] = NULL;
+// fQACycles[iDet] = rec.fQACycles[iDet];
}
for (Int_t i = 0; i < rec.fSpecCDBUri.GetEntriesFast(); i++) {
if (rec.fSpecCDBUri[i]) fSpecCDBUri.Add(rec.fSpecCDBUri[i]->Clone());
man->SetDefaultStorage(fCDBUri);
}
+ // Remote storage (the Grid storage) is used if it is activated
+ // and if the object is not found in the default storage
+ // OBSOLETE: Removed
+ // if (man->IsRemoteStorageSet())
+ // {
+ // AliWarning("!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
+ // AliWarning("Remote CDB storage has been already set !");
+ // AliWarning(Form("Ignoring the remote storage declared in AliReconstruction: %s",fRemoteCDBUri.Data()));
+ // AliWarning("!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
+ // fRemoteCDBUri = "";
+ // }
+ // else {
+ // AliDebug(2,"!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
+ // AliDebug(2, Form("Remote CDB storage is set to: %s",fRemoteCDBUri.Data()));
+ // AliDebug(2, "!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
+ // man->SetRemoteStorage(fRemoteCDBUri);
+ // }
+
// Now activate the detector specific CDB storage locations
for (Int_t i = 0; i < fSpecCDBUri.GetEntriesFast(); i++) {
TObject* obj = fSpecCDBUri[i];
}
+//_____________________________________________________________________________
+void AliReconstruction::SetRemoteStorage(const char* uri) {
+// Store the desired remote CDB storage location
+// Activate it later within the Run() method
+// Remote storage (the Grid storage) is used if it is activated
+// and if the object is not found in the default storage
+
+ fRemoteCDBUri = uri;
+
+}
+
//_____________________________________________________________________________
void AliReconstruction::SetSpecificStorage(const char* calibType, const char* uri) {
// Store a detector-specific CDB storage location
}
}
- // check that calibType refers to a "valid" detector name
- Bool_t isDetector = kFALSE;
- for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
- TString detName = fgkDetectorName[iDet];
- if(aPath.GetLevel0() == detName) {
- isDetector = kTRUE;
- break;
- }
- }
-
- if(!isDetector) {
- AliError(Form("Not a valid detector: %s", aPath.GetLevel0().Data()));
- return;
- }
+// // check that calibType refers to a "valid" detector name
+// Bool_t isDetector = kFALSE;
+// for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
+// TString detName = fgkDetectorName[iDet];
+// if(aPath.GetLevel0() == detName) {
+// isDetector = kTRUE;
+// break;
+// }
+// }
+//
+// if(!isDetector) {
+// AliError(Form("Not a valid detector: %s", aPath.GetLevel0().Data()));
+// return;
+// }
TObject* obj = fSpecCDBUri.FindObject(aPath.GetPath().Data());
if (obj) fSpecCDBUri.Remove(obj);
}
// read run number from gAlice
if(fRunLoader->GetAliRun())
- AliCDBManager::Instance()->SetRun(fRunLoader->GetAliRun()->GetRunNumber());
+ AliCDBManager::Instance()->SetRun(fRunLoader->GetHeader()->GetRun());
else {
if(fRawReader) {
if(fRawReader->NextEvent()) {
loadAlObjsListOfDets += fgkDetectorName[iDet];
loadAlObjsListOfDets += " ";
} // end loop over detectors
+ loadAlObjsListOfDets.Prepend("GRP "); //add alignment objects for non-sensitive modules
AliGeomManager::ApplyAlignObjsFromCDB(loadAlObjsListOfDets.Data());
}else{
// Check if the array with alignment objects was
// set the input
if (!input) input = fInput.Data();
+
TString fileName(input);
if (fileName.EndsWith("/")) {
fRawReader = new AliRawReaderFile(fileName);
if (!fEquipIdMap.IsNull() && fRawReader)
fRawReader->LoadEquipmentIdsMap(fEquipIdMap);
-
+ AliSysInfo::AddStamp("Start");
// get the run loader
if (!InitRunLoader()) return kFALSE;
+ AliSysInfo::AddStamp("LoadLoader");
// Initialize the CDB storage
InitCDBStorage();
+ AliSysInfo::AddStamp("LoadCDB");
// Set run number in CDBManager (if it is not already set by the user)
if (!SetRunNumber()) if (fStopOnError) return kFALSE;
if (!gGeoManager) if (fStopOnError) return kFALSE;
}
- AliCDBManager* man = AliCDBManager::Instance();
if (!MisalignGeometry(fLoadAlignData)) if (fStopOnError) return kFALSE;
+ AliSysInfo::AddStamp("LoadGeom");
+ //QA
+ AliQADataMakerSteer qas ;
+ if ( fRunQA && fRawReader)
+ qas.Run(fRawReader) ;
+
+ // checking the QA of previous steps
+ CheckQA() ;
+
// local reconstruction
if (!fRunLocalReconstruction.IsNull()) {
if (!RunLocalReconstruction(fRunLocalReconstruction)) {
return kFALSE;
}
}
+ AliSysInfo::AddStamp("Vertexer");
// get trackers
if (!fRunTracking.IsNull() && !CreateTrackers(fRunTracking)) {
return kFALSE;
}
}
+ AliSysInfo::AddStamp("LoadTrackers");
// get the possibly already existing ESD file and tree
AliESDEvent* esd = new AliESDEvent(); AliESDEvent* hltesd = new AliESDEvent();
}
+ // Get the GRP CDB entry
+ AliCDBEntry* entryGRP = AliCDBManager::Instance()->Get("GRP/GRP/Data");
+
+ if(entryGRP) {
+ fGRPList = dynamic_cast<TList*> (entryGRP->GetObject());
+ } else {
+ AliError("No GRP entry found in OCDB!");
+ }
+
// Get the diamond profile from OCDB
AliCDBEntry* entry = AliCDBManager::Instance()
->Get("GRP/Calib/MeanVertex");
if(fDiamondProfile) tVertexer.SetVtxStart(fDiamondProfile);
// loop over events
+
if (fRawReader) fRawReader->RewindEvents();
+ TString detStr(fFillESD) ;
+
+ ProcInfo_t ProcInfo;
+ gSystem->GetProcInfo(&ProcInfo);
+ AliInfo(Form("Current memory usage %d %d", ProcInfo.fMemResident, ProcInfo.fMemVirtual));
for (Int_t iEvent = 0; iEvent < fRunLoader->GetNumberOfEvents(); iEvent++) {
if (fRawReader) fRawReader->NextEvent();
if (fStopOnError) {CleanUp(file, fileOld); return kFALSE;}
}
}
+
+// if (!fFillESD.IsNull())
+// RunQA(fFillESD.Data(), esd);
+
// fill Event header information from the RawEventHeader
if (fRawReader){FillRawEventHeaderESD(esd);}
}
}
+ file->cd();
+
//Try to improve the reconstructed primary vertex position using the tracks
AliESDVertex *pvtx=0;
Bool_t dovertex=kTRUE;
}
}
- {
- // V0 finding
- AliV0vertexer vtxer;
- vtxer.Tracks2V0vertices(esd);
+ if (fRunV0Finder) {
+ // V0 finding
+ AliV0vertexer vtxer;
+ vtxer.Tracks2V0vertices(esd);
- // Cascade finding
- AliCascadeVertexer cvtxer;
- cvtxer.V0sTracks2CascadeVertices(esd);
+ if (fRunCascadeFinder) {
+ // Cascade finding
+ AliCascadeVertexer cvtxer;
+ cvtxer.V0sTracks2CascadeVertices(esd);
+ }
}
// write ESD
if (fCleanESD) CleanESD(esd);
if (fWriteESDfriend) {
+ esdf->~AliESDfriend();
new (esdf) AliESDfriend(); // Reset...
esd->GetESDfriend(esdf);
}
esd->Reset();
hltesd->Reset();
if (fWriteESDfriend) {
+ esdf->~AliESDfriend();
new (esdf) AliESDfriend(); // Reset...
}
// esdf->Reset();
// delete esdf; esdf = 0;
- }
-
-
-
+ // ESD QA
+
+ gSystem->GetProcInfo(&ProcInfo);
+ AliInfo(Form("Event %d -> Current memory usage %d %d",iEvent, ProcInfo.fMemResident, ProcInfo.fMemVirtual));
+ }
+
+ detStr = fFillESD ;
+// // write quality assurance ESDs data (one entry for all events)
+// for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
+// if (!IsSelected(fgkDetectorName[iDet], detStr))
+// continue;
+// AliQADataMaker * qadm = GetQADataMaker(iDet);
+// if (!qadm) continue;
+// qadm->EndOfCycle(AliQA::kRECPOINTS);
+// qadm->EndOfCycle(AliQA::kESDS);
+// qadm->Finish();
+// }
tree->GetUserInfo()->Add(esd);
hlttree->GetUserInfo()->Add(hltesd);
-
+
+ const TMap *cdbMap = AliCDBManager::Instance()->GetStorageMap();
+ const TList *cdbList = AliCDBManager::Instance()->GetRetrievedIds();
+
+ TMap *cdbMapCopy = new TMap(cdbMap->GetEntries());
+ cdbMapCopy->SetOwner(1);
+ cdbMapCopy->SetName("cdbMap");
+ TIter iter(cdbMap->GetTable());
+
+ TPair* pair = 0;
+ while((pair = dynamic_cast<TPair*> (iter.Next()))){
+ TObjString* keyStr = dynamic_cast<TObjString*> (pair->Key());
+ TObjString* valStr = dynamic_cast<TObjString*> (pair->Value());
+ cdbMapCopy->Add(new TObjString(keyStr->GetName()), new TObjString(valStr->GetName()));
+ }
+
+ TList *cdbListCopy = new TList();
+ cdbListCopy->SetOwner(1);
+ cdbListCopy->SetName("cdbList");
+
+ TIter iter2(cdbList);
+
+ AliCDBId* id=0;
+ while((id = dynamic_cast<AliCDBId*> (iter2.Next()))){
+ cdbListCopy->Add(id->Clone());
+ }
+
+ tree->GetUserInfo()->Add(cdbMapCopy);
+ tree->GetUserInfo()->Add(cdbListCopy);
if(fESDPar.Contains("ESD.par")){
file->cd();
if (fWriteESDfriend)
tree->SetBranchStatus("ESDfriend*",0);
- tree->Write();
+ // we want to have only one tree version number
+ tree->Write(tree->GetName(),TObject::kOverwrite);
hlttree->Write();
if (fWriteAOD) {
// Create tags for the events in the ESD tree (the ESD tree is always present)
// In case of empty events the tags will contain dummy values
AliESDTagCreator *esdtagCreator = new AliESDTagCreator();
- esdtagCreator->CreateESDTags(fFirstEvent,fLastEvent);
- //if (fWriteAOD) tagCreator->CreateAODTags(fFirstEvent,fLastEvent);
+ esdtagCreator->CreateESDTags(fFirstEvent,fLastEvent,fGRPList);
+ if (fWriteAOD) {
+ AliAODTagCreator *aodtagCreator = new AliAODTagCreator();
+ aodtagCreator->CreateAODTags(fFirstEvent,fLastEvent,fGRPList);
+ }
+ //QA
+ if ( fRunQA ) {
+ qas.Run(AliQA::kRECPOINTS) ;
+ qas.Reset() ;
+ qas.Run(AliQA::kESDS) ;
+ }
return kTRUE;
}
Bool_t AliReconstruction::RunLocalReconstruction(const TString& detectors)
{
// run the local reconstruction
-
+ static Int_t eventNr=0;
AliCodeTimerAuto("")
- AliCDBManager* man = AliCDBManager::Instance();
- Bool_t origCache = man->GetCacheFlag();
+ // AliCDBManager* man = AliCDBManager::Instance();
+// Bool_t origCache = man->GetCacheFlag();
- TString detStr = detectors;
- for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
- if (!IsSelected(fgkDetectorName[iDet], detStr)) continue;
- AliReconstructor* reconstructor = GetReconstructor(iDet);
- if (!reconstructor) continue;
- if (reconstructor->HasLocalReconstruction()) continue;
+// TString detStr = detectors;
+// for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
+// if (!IsSelected(fgkDetectorName[iDet], detStr)) continue;
+// AliReconstructor* reconstructor = GetReconstructor(iDet);
+// if (!reconstructor) continue;
+// if (reconstructor->HasLocalReconstruction()) continue;
- AliCodeTimerStart(Form("running reconstruction for %s", fgkDetectorName[iDet]));
- AliInfo(Form("running reconstruction for %s", fgkDetectorName[iDet]));
+// AliCodeTimerStart(Form("running reconstruction for %s", fgkDetectorName[iDet]));
+// AliInfo(Form("running reconstruction for %s", fgkDetectorName[iDet]));
- AliCodeTimerStart(Form("Loading calibration data from OCDB for %s", fgkDetectorName[iDet]));
- AliInfo(Form("Loading calibration data from OCDB for %s", fgkDetectorName[iDet]));
+// AliCodeTimerStart(Form("Loading calibration data from OCDB for %s", fgkDetectorName[iDet]));
+// AliInfo(Form("Loading calibration data from OCDB for %s", fgkDetectorName[iDet]));
- man->SetCacheFlag(kTRUE);
- TString calibPath = Form("%s/Calib/*", fgkDetectorName[iDet]);
- man->GetAll(calibPath); // entries are cached!
+// man->SetCacheFlag(kTRUE);
+// TString calibPath = Form("%s/Calib/*", fgkDetectorName[iDet]);
+// man->GetAll(calibPath); // entries are cached!
- AliCodeTimerStop(Form("Loading calibration data from OCDB for %s", fgkDetectorName[iDet]));
+// AliCodeTimerStop(Form("Loading calibration data from OCDB for %s", fgkDetectorName[iDet]));
- if (fRawReader) {
- fRawReader->RewindEvents();
- reconstructor->Reconstruct(fRunLoader, fRawReader);
- } else {
- reconstructor->Reconstruct(fRunLoader);
- }
+// if (fRawReader) {
+// fRawReader->RewindEvents();
+// reconstructor->Reconstruct(fRunLoader, fRawReader);
+// } else {
+// reconstructor->Reconstruct(fRunLoader);
+// }
- AliCodeTimerStop(Form("running reconstruction for %s", fgkDetectorName[iDet]));
+// AliCodeTimerStop(Form("running reconstruction for %s", fgkDetectorName[iDet]));
+ // AliSysInfo::AddStamp(Form("LRec%s_%d",fgkDetectorName[iDet],eventNr));
- // unload calibration data
- man->UnloadFromCache(calibPath);
- //man->ClearCache();
- }
+// // unload calibration data
+// man->UnloadFromCache(calibPath);
+// //man->ClearCache();
+// }
- man->SetCacheFlag(origCache);
+// man->SetCacheFlag(origCache);
- if ((detStr.CompareTo("ALL") != 0) && !detStr.IsNull()) {
- AliError(Form("the following detectors were not found: %s",
- detStr.Data()));
- if (fStopOnError) return kFALSE;
- }
+// if ((detStr.CompareTo("ALL") != 0) && !detStr.IsNull()) {
+// AliError(Form("the following detectors were not found: %s",
+// detStr.Data()));
+// if (fStopOnError) return kFALSE;
+// }
+ eventNr++;
return kTRUE;
}
Bool_t AliReconstruction::RunLocalEventReconstruction(const TString& detectors)
{
// run the local reconstruction
-
+ static Int_t eventNr=0;
AliCodeTimerAuto("")
TString detStr = detectors;
AliReconstructor* reconstructor = GetReconstructor(iDet);
if (!reconstructor) continue;
AliLoader* loader = fLoader[iDet];
+ if (!loader) {
+ AliWarning(Form("No loader is defined for %s!",fgkDetectorName[iDet]));
+ continue;
+ }
// conversion of digits
if (fRawReader && reconstructor->HasDigitConversion()) {
}
// local reconstruction
- if (!reconstructor->HasLocalReconstruction()) continue;
AliInfo(Form("running reconstruction for %s", fgkDetectorName[iDet]));
AliCodeTimerAuto(Form("running reconstruction for %s", fgkDetectorName[iDet]));
loader->LoadRecPoints("update");
}
loader->UnloadDigits();
}
+
+// AliQADataMaker * qadm = GetQADataMaker(iDet);
+// if (qadm) {
+// AliCodeTimerStart(Form("running quality assurance data maker for %s", fgkDetectorName[iDet]));
+// AliInfo(Form("running quality assurance data maker for %s", fgkDetectorName[iDet]));
+//
+// if (qadm->IsCycleDone() ) {
+// qadm->EndOfCycle(AliQA::kRECPOINTS) ;
+// qadm->EndOfCycle(AliQA::kESDS) ;
+// qadm->StartOfCycle(AliQA::kRECPOINTS) ;
+// qadm->StartOfCycle(AliQA::kESDS, "same") ;
+// }
+// qadm->Exec(AliQA::kRECPOINTS, clustersTree) ;
+// AliCodeTimerStop(Form("running quality assurance data maker for %s", fgkDetectorName[iDet]));
+// }
+
loader->WriteRecPoints("OVERWRITE");
loader->UnloadRecPoints();
+ AliSysInfo::AddStamp(Form("LRec%s_%d",fgkDetectorName[iDet],eventNr), iDet,1,eventNr);
}
if ((detStr.CompareTo("ALL") != 0) && !detStr.IsNull()) {
detStr.Data()));
if (fStopOnError) return kFALSE;
}
-
+ eventNr++;
return kTRUE;
}
TString detName = fgkDetectorName[iDet];
AliDebug(1, Form("%s HLT tracking", detName.Data()));
reconstructor->SetOption(detName.Data());
- AliTracker *tracker = reconstructor->CreateTracker(fRunLoader);
+ AliTracker *tracker = reconstructor->CreateTracker();
if (!tracker) {
AliWarning(Form("couldn't create a HLT tracker for %s", detName.Data()));
if (fStopOnError) return kFALSE;
TString detName = fgkDetectorName[iDet];
AliDebug(1, Form("%s tracking", detName.Data()));
- AliTracker *tracker = reconstructor->CreateTracker(fRunLoader);
+ AliTracker *tracker = reconstructor->CreateTracker();
if (!tracker) {
AliWarning(Form("couldn't create a tracker for %s", detName.Data()));
return kFALSE;
Bool_t AliReconstruction::RunTracking(AliESDEvent*& esd)
{
// run the barrel tracking
-
+ static Int_t eventNr=0;
AliCodeTimerAuto("")
AliInfo("running tracking");
//Fill the ESD with the T0 info (will be used by the TOF)
- if (fReconstructor[11])
- GetReconstructor(11)->FillESD(fRunLoader, esd);
+ if (fReconstructor[11] && fLoader[11]) {
+ fLoader[11]->LoadRecPoints("READ");
+ TTree *treeR = fLoader[11]->TreeR();
+ GetReconstructor(11)->FillESD((TTree *)NULL,treeR,esd);
+ }
// pass 1: TPC + ITS inwards
for (Int_t iDet = 1; iDet >= 0; iDet--) {
// load clusters
fLoader[iDet]->LoadRecPoints("read");
+ AliSysInfo::AddStamp(Form("RLoadCluster%s_%d",fgkDetectorName[iDet],eventNr),iDet,1, eventNr);
TTree* tree = fLoader[iDet]->TreeR();
if (!tree) {
AliError(Form("Can't get the %s cluster tree", fgkDetectorName[iDet]));
return kFALSE;
}
fTracker[iDet]->LoadClusters(tree);
-
+ AliSysInfo::AddStamp(Form("TLoadCluster%s_%d",fgkDetectorName[iDet],eventNr), iDet,2, eventNr);
// run tracking
if (fTracker[iDet]->Clusters2Tracks(esd) != 0) {
AliError(Form("%s Clusters2Tracks failed", fgkDetectorName[iDet]));
}
// preliminary PID in TPC needed by the ITS tracker
if (iDet == 1) {
- GetReconstructor(1)->FillESD(fRunLoader, esd);
GetReconstructor(1)->FillESD((TTree*)NULL, (TTree*)NULL, esd);
AliESDpid::MakePID(esd);
- }
+ }
+ AliSysInfo::AddStamp(Form("Tracking0%s_%d",fgkDetectorName[iDet],eventNr), iDet,3,eventNr);
}
// pass 2: ALL backwards
if (iDet > 1) { // all except ITS, TPC
TTree* tree = NULL;
fLoader[iDet]->LoadRecPoints("read");
+ AliSysInfo::AddStamp(Form("RLoadCluster0%s_%d",fgkDetectorName[iDet],eventNr), iDet,1, eventNr);
tree = fLoader[iDet]->TreeR();
if (!tree) {
AliError(Form("Can't get the %s cluster tree", fgkDetectorName[iDet]));
return kFALSE;
}
- fTracker[iDet]->LoadClusters(tree);
+ fTracker[iDet]->LoadClusters(tree);
+ AliSysInfo::AddStamp(Form("TLoadCluster0%s_%d",fgkDetectorName[iDet],eventNr), iDet,2, eventNr);
}
// run tracking
}
// updated PID in TPC needed by the ITS tracker -MI
if (iDet == 1) {
- GetReconstructor(1)->FillESD(fRunLoader, esd);
GetReconstructor(1)->FillESD((TTree*)NULL, (TTree*)NULL, esd);
AliESDpid::MakePID(esd);
}
+ AliSysInfo::AddStamp(Form("Tracking1%s_%d",fgkDetectorName[iDet],eventNr), iDet,3, eventNr);
}
// write space-points to the ESD in case alignment data output
if (fCheckPointLevel > 1) {
WriteESD(esd, Form("%s.refit", fgkDetectorName[iDet]));
}
-
+ AliSysInfo::AddStamp(Form("Tracking2%s_%d",fgkDetectorName[iDet],eventNr), iDet,3, eventNr);
// unload clusters
fTracker[iDet]->UnloadClusters();
+ AliSysInfo::AddStamp(Form("TUnloadCluster%s_%d",fgkDetectorName[iDet],eventNr), iDet,4, eventNr);
fLoader[iDet]->UnloadRecPoints();
+ AliSysInfo::AddStamp(Form("RUnloadCluster%s_%d",fgkDetectorName[iDet],eventNr), iDet,5, eventNr);
}
//
// Propagate track to the vertex - if not done by ITS
AliTracker::PropagateTrackTo(track,kRadius,track->GetMass(),kMaxStep,kTRUE);
track->RelateToVertex(esd->GetVertex(),fieldZ, kMaxD);
}
-
+ eventNr++;
return kTRUE;
}
//
AliInfo("Cleaning the ESD...");
-
- const AliESDVertex *vertex=esd->GetVertex();
- Double_t vz=vertex->GetZv();
-
Int_t nTracks=esd->GetNumberOfTracks();
- for (Int_t i=0; i<nTracks; i++) {
- AliESDtrack *track=esd->GetTrack(i);
+ AliInfo(Form("Number of ESD tracks before cleaning %d",nTracks));
- Float_t xy,z; track->GetImpactParameters(xy,z);
- if (TMath::Abs(xy) < 50.) continue;
- if (vertex->GetStatus())
- if (TMath::Abs(vz-z) < 5.) continue;
+ Float_t cleanPars[]={fDmax,fZmax};
+ Bool_t rc=esd->Clean(cleanPars);
- esd->RemoveTrack(i);
- }
+ nTracks=esd->GetNumberOfTracks();
+ AliInfo(Form("Number of ESD tracks after cleaning %d",nTracks));
- return kTRUE;
+ return rc;
}
//_____________________________________________________________________________
// fill the event summary data
AliCodeTimerAuto("")
-
+ static Int_t eventNr=0;
TString detStr = detectors;
+
for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
- if (!IsSelected(fgkDetectorName[iDet], detStr)) continue;
+ if (!IsSelected(fgkDetectorName[iDet], detStr)) continue;
AliReconstructor* reconstructor = GetReconstructor(iDet);
if (!reconstructor) continue;
-
if (!ReadESD(esd, fgkDetectorName[iDet])) {
AliDebug(1, Form("filling ESD for %s", fgkDetectorName[iDet]));
TTree* clustersTree = NULL;
- if (reconstructor->HasLocalReconstruction() && fLoader[iDet]) {
+ if (fLoader[iDet]) {
fLoader[iDet]->LoadRecPoints("read");
clustersTree = fLoader[iDet]->TreeR();
if (!clustersTree) {
reconstructor->FillESD(digitsTree, clustersTree, esd);
if (fLoader[iDet]) fLoader[iDet]->UnloadDigits();
}
- if (reconstructor->HasLocalReconstruction() && fLoader[iDet]) {
+ if (fLoader[iDet]) {
fLoader[iDet]->UnloadRecPoints();
}
- if (fRawReader) {
- reconstructor->FillESD(fRunLoader, fRawReader, esd);
- } else {
- reconstructor->FillESD(fRunLoader, esd);
- }
if (fCheckPointLevel > 2) WriteESD(esd, fgkDetectorName[iDet]);
}
}
detStr.Data()));
if (fStopOnError) return kFALSE;
}
-
+ AliSysInfo::AddStamp(Form("FillESD%d",eventNr), 0,1, eventNr);
+ eventNr++;
return kTRUE;
}
//PH This is a temporary fix to give access to the kinematics
//PH that is needed for the labels of ITS clusters
+ fRunLoader->LoadHeader();
fRunLoader->LoadKinematics();
} else { // galice.root does not exist
TString recName = "Ali" + detName + "Reconstructor";
if (gAlice && !gAlice->GetDetector(detName) && (detName != "HLT")) return NULL;
- if (detName == "HLT") {
- if (!gROOT->GetClass("AliLevel3")) {
- gSystem->Load("libAliHLTSrc.so");
- gSystem->Load("libAliHLTMisc.so");
- gSystem->Load("libAliHLTHough.so");
- gSystem->Load("libAliHLTComp.so");
- }
- }
-
AliReconstructor* reconstructor = NULL;
// first check if a plugin is defined for the reconstructor
TPluginHandler* pluginHandler =
if (reconstructor) {
TObject* obj = fOptions.FindObject(detName.Data());
if (obj) reconstructor->SetOption(obj->GetTitle());
- reconstructor->Init(fRunLoader);
+ reconstructor->Init();
fReconstructor[iDet] = reconstructor;
}
fVertexer = NULL;
AliReconstructor* itsReconstructor = GetReconstructor(0);
if (itsReconstructor) {
- fVertexer = itsReconstructor->CreateVertexer(fRunLoader);
+ fVertexer = itsReconstructor->CreateVertexer();
}
if (!fVertexer) {
AliWarning("couldn't create a vertexer for ITS");
}
- fTracker[iDet] = reconstructor->CreateTracker(fRunLoader);
+ fTracker[iDet] = reconstructor->CreateTracker();
if (!fTracker[iDet] && (iDet < 7)) {
AliWarning(Form("couldn't create a tracker for %s", detName.Data()));
if (fStopOnError) return kFALSE;
}
+ AliSysInfo::AddStamp(Form("LTracker%s",fgkDetectorName[iDet]), iDet,0);
}
return kTRUE;
fLoader[iDet] = NULL;
delete fTracker[iDet];
fTracker[iDet] = NULL;
+// delete fQADataMaker[iDet];
+// fQADataMaker[iDet] = NULL;
}
delete fVertexer;
fVertexer = NULL;
delete fDiamondProfile;
fDiamondProfile = NULL;
+ delete fGRPList;
+ fGRPList = NULL;
+
delete fRunLoader;
fRunLoader = NULL;
delete fRawReader;
}
}
-
//_____________________________________________________________________________
Bool_t AliReconstruction::ReadESD(AliESDEvent*& esd, const char* recStep) const
void AliReconstruction::ESDFile2AODFile(TFile* esdFile, TFile* aodFile)
{
// write all files from the given esd file to an aod file
-
+
// create an AliAOD object
AliAODEvent *aod = new AliAODEvent();
aod->CreateStdContent();
aodFile->cd();
// create the tree
- TTree *aodTree = new TTree("AOD", "AliAOD tree");
+ TTree *aodTree = new TTree("aodTree", "AliAOD tree");
aodTree->Branch(aod->GetList());
// connect to ESD
Float_t posF[3];
Double_t pos[3];
Double_t p[3];
+ Double_t p_pos[3];
+ Double_t p_neg[3];
Double_t covVtx[6];
Double_t covTr[21];
Double_t pid[10];
// loop over events and fill them
for (Int_t iEvent = 0; iEvent < nEvents; ++iEvent) {
+ //cout << "event: " << iEvent << endl;
t->GetEntry(iEvent);
// Multiplicity information needed by the header (to be revised!)
Int_t nTracks = esd->GetNumberOfTracks();
Int_t nPosTracks = 0;
for (Int_t iTrack=0; iTrack<nTracks; ++iTrack)
- if (esd->GetTrack(iTrack)->GetSign()> 0) nPosTracks++;
+ if (esd->GetTrack(iTrack)->Charge()> 0) nPosTracks++;
- // Update the header
- AliAODHeader* header = aod->GetHeader();
-
+ // Access the header
+ AliAODHeader *header = aod->GetHeader();
+
+ // fill the header
header->SetRunNumber (esd->GetRunNumber() );
header->SetBunchCrossNumber(esd->GetBunchCrossNumber());
header->SetOrbitNumber (esd->GetOrbitNumber() );
header->SetRefMultiplicityNeg(nTracks - nPosTracks);
header->SetMuonMagFieldScale(-999.); // FIXME
header->SetCentrality(-999.); // FIXME
-//
-//
Int_t nV0s = esd->GetNumberOfV0s();
Int_t nCascades = esd->GetNumberOfCascades();
Int_t nKinks = esd->GetNumberOfKinks();
- Int_t nVertices = nV0s + nCascades + nKinks;
-
- aod->ResetStd(nTracks, nVertices);
- AliAODTrack *aodTrack;
+ Int_t nVertices = nV0s + 2*nCascades /*could lead to two vertices, one V0 and the Xi */+ nKinks + 1 /* = prim. vtx*/;
+ Int_t nJets = 0;
+ Int_t nCaloClus = esd->GetNumberOfCaloClusters();
+ Int_t nFmdClus = 0;
+ Int_t nPmdClus = esd->GetNumberOfPmdTracks();
+
+ aod->ResetStd(nTracks, nVertices, nV0s+nCascades, nJets, nCaloClus, nFmdClus, nPmdClus);
-
// Array to take into account the tracks already added to the AOD
Bool_t * usedTrack = NULL;
if (nTracks>0) {
usedKink = new Bool_t[nKinks];
for (Int_t iKink=0; iKink<nKinks; ++iKink) usedKink[iKink]=kFALSE;
}
-
+
// Access to the AOD container of vertices
TClonesArray &vertices = *(aod->GetVertices());
Int_t jVertices=0;
// Access to the AOD container of tracks
TClonesArray &tracks = *(aod->GetTracks());
Int_t jTracks=0;
-
+
+ // Access to the AOD container of V0s
+ TClonesArray &V0s = *(aod->GetV0s());
+ Int_t jV0s=0;
+
// Add primary vertex. The primary tracks will be defined
// after the loops on the composite objects (V0, cascades, kinks)
const AliESDVertex *vtx = esd->GetPrimaryVertex();
vtx->GetCovMatrix(covVtx); //covariance matrix
AliAODVertex * primary = new(vertices[jVertices++])
- AliAODVertex(pos, covVtx, vtx->GetChi2toNDF(), NULL, AliAODVertex::kPrimary);
+ AliAODVertex(pos, covVtx, vtx->GetChi2toNDF(), NULL, -1, AliAODVertex::kPrimary);
+
+ AliAODTrack *aodTrack = 0x0;
+
// Create vertices starting from the most complex objects
-
+
// Cascades
for (Int_t nCascade = 0; nCascade < nCascades; ++nCascade) {
AliESDcascade *cascade = esd->GetCascade(nCascade);
covVtx,
cascade->GetChi2Xi(), // = chi2/NDF since NDF = 2*2-3
primary,
+ nCascade,
AliAODVertex::kCascade);
- primary->AddDaughter(vcascade);
+ primary->AddDaughter(vcascade); // the cascade 'particle' (represented by a vertex) is added as a daughter to the primary vertex
// Add the V0 from the cascade. The ESD class have to be optimized...
- // Now we have to search for the corresponding Vo in the list of V0s
+ // Now we have to search for the corresponding V0 in the list of V0s
// using the indeces of the positive and negative tracks
Int_t posFromV0 = cascade->GetPindex();
AliAODVertex * vV0FromCascade = 0x0;
- if (indV0>-1 && !usedV0[indV0] ) {
+ if (indV0>-1 && !usedV0[indV0]) {
// the V0 exists in the array of V0s and is not used
covVtx,
v0->GetChi2V0(), // = chi2/NDF since NDF = 2*2-3
vcascade,
+ indV0,
AliAODVertex::kV0);
} else {
covVtx,
v0->GetChi2V0(), // = chi2/NDF since NDF = 2*2-3
vcascade,
+ indV0,
AliAODVertex::kV0);
vcascade->AddDaughter(vV0FromCascade);
+
}
// Add the positive tracks from the V0
usedTrack[posFromV0] = kTRUE;
AliESDtrack *esdTrack = esd->GetTrack(posFromV0);
- esdTrack->GetPxPyPz(p);
+ esdTrack->GetPxPyPz(p_pos);
esdTrack->GetXYZ(pos);
esdTrack->GetCovarianceXYZPxPyPz(covTr);
esdTrack->GetESDpid(pid);
vV0FromCascade->AddDaughter(aodTrack =
new(tracks[jTracks++]) AliAODTrack(esdTrack->GetID(),
esdTrack->GetLabel(),
- p,
+ p_pos,
kTRUE,
pos,
kFALSE,
covTr,
- (Short_t)esdTrack->GetSign(),
+ (Short_t)esdTrack->Charge(),
esdTrack->GetITSClusterMap(),
pid,
vV0FromCascade,
usedTrack[negFromV0] = kTRUE;
AliESDtrack *esdTrack = esd->GetTrack(negFromV0);
- esdTrack->GetPxPyPz(p);
+ esdTrack->GetPxPyPz(p_neg);
esdTrack->GetXYZ(pos);
esdTrack->GetCovarianceXYZPxPyPz(covTr);
esdTrack->GetESDpid(pid);
vV0FromCascade->AddDaughter(aodTrack =
new(tracks[jTracks++]) AliAODTrack(esdTrack->GetID(),
esdTrack->GetLabel(),
- p,
+ p_neg,
kTRUE,
pos,
kFALSE,
covTr,
- (Short_t)esdTrack->GetSign(),
+ (Short_t)esdTrack->Charge(),
esdTrack->GetITSClusterMap(),
pid,
vV0FromCascade,
<< " track " << negFromV0 << " has already been used!" << endl;
}
+ // add it to the V0 array as well
+ Double_t d0[2] = { -999., -99.};
+ // counting is probably wrong
+ new(V0s[jV0s++]) AliAODv0(vV0FromCascade, -999., -99., p_pos, p_neg, d0); // to be refined
+
// Add the bachelor track from the cascade
Int_t bachelor = cascade->GetBindex();
pos,
kFALSE,
covTr,
- (Short_t)esdTrack->GetSign(),
+ (Short_t)esdTrack->Charge(),
esdTrack->GetITSClusterMap(),
pid,
vcascade,
cerr << "Error: event " << iEvent << " cascade " << nCascade
<< " track " << bachelor << " has already been used!" << endl;
}
-
+
// Add the primary track of the cascade (if any)
-
+
} // end of the loop on cascades
-
+
// V0s
for (Int_t nV0 = 0; nV0 < nV0s; ++nV0) {
if (usedV0[nV0]) continue; // skip if aready added to the AOD
- AliESDv0 *v0 = esd->GetV0(nV0);
-
+ AliESDv0 *v0 = esd->GetV0(nV0);
+
v0->GetXYZ(pos[0], pos[1], pos[2]);
v0->GetPosCov(covVtx);
covVtx,
v0->GetChi2V0(), // = chi2/NDF since NDF = 2*2-3
primary,
+ nV0,
AliAODVertex::kV0);
primary->AddDaughter(vV0);
usedTrack[posFromV0] = kTRUE;
AliESDtrack *esdTrack = esd->GetTrack(posFromV0);
- esdTrack->GetPxPyPz(p);
+ esdTrack->GetPxPyPz(p_pos);
esdTrack->GetXYZ(pos);
esdTrack->GetCovarianceXYZPxPyPz(covTr);
esdTrack->GetESDpid(pid);
vV0->AddDaughter(aodTrack =
new(tracks[jTracks++]) AliAODTrack(esdTrack->GetID(),
esdTrack->GetLabel(),
- p,
+ p_pos,
kTRUE,
pos,
kFALSE,
covTr,
- (Short_t)esdTrack->GetSign(),
+ (Short_t)esdTrack->Charge(),
esdTrack->GetITSClusterMap(),
pid,
vV0,
usedTrack[negFromV0] = kTRUE;
AliESDtrack *esdTrack = esd->GetTrack(negFromV0);
- esdTrack->GetPxPyPz(p);
+ esdTrack->GetPxPyPz(p_neg);
esdTrack->GetXYZ(pos);
esdTrack->GetCovarianceXYZPxPyPz(covTr);
esdTrack->GetESDpid(pid);
vV0->AddDaughter(aodTrack =
new(tracks[jTracks++]) AliAODTrack(esdTrack->GetID(),
esdTrack->GetLabel(),
- p,
+ p_neg,
kTRUE,
pos,
kFALSE,
covTr,
- (Short_t)esdTrack->GetSign(),
+ (Short_t)esdTrack->Charge(),
esdTrack->GetITSClusterMap(),
pid,
vV0,
<< " track " << negFromV0 << " has already been used!" << endl;
}
- } // end of the loop on V0s
+ // add it to the V0 array as well
+ Double_t d0[2] = { 999., 99.};
+ new(V0s[jV0s++]) AliAODv0(vV0, 999., 99., p_pos, p_neg, d0); // to be refined
+ }
+ V0s.Expand(jV0s);
+ // end of the loop on V0s
// Kinks: it is a big mess the access to the information in the kinks
// The loop is on the tracks in order to find the mother and daugther of each kink
for (Int_t iTrack=0; iTrack<nTracks; ++iTrack) {
-
AliESDtrack * esdTrack = esd->GetTrack(iTrack);
Int_t ikink = esdTrack->GetKinkIndex(0);
pos,
kFALSE,
covTr,
- (Short_t)esdTrack->GetSign(),
+ (Short_t)esdTrack->Charge(),
esdTrack->GetITSClusterMap(),
pid,
primary,
NULL,
0.,
mother,
+ esdTrack->GetID(), // This is the track ID of the mother's track!
AliAODVertex::kKink);
// Add the daughter track
pos,
kFALSE,
covTr,
- (Short_t)esdTrack->GetSign(),
+ (Short_t)esdTrack->Charge(),
esdTrack->GetITSClusterMap(),
pid,
vkink,
cerr << "Error: event " << iEvent << " kink " << TMath::Abs(ikink)-1
<< " track " << idaughter << " has already been used!" << endl;
}
-
-
}
}
-
- }
-
+ }
}
+ vertices.Expand(jVertices);
-
// Tracks (primary and orphan)
-
for (Int_t nTrack = 0; nTrack < nTracks; ++nTrack) {
-
if (usedTrack[nTrack]) continue;
esdTrack->GetImpactParameters(impactXY,impactZ);
- if (impactXY<3) {
+ if (impactXY<3.) {
// track inside the beam pipe
primary->AddDaughter(aodTrack =
pos,
kFALSE,
covTr,
- (Short_t)esdTrack->GetSign(),
+ (Short_t)esdTrack->Charge(),
esdTrack->GetITSClusterMap(),
pid,
primary,
}
else {
// outside the beam pipe: orphan track
- aodTrack =
- new(tracks[jTracks++]) AliAODTrack(esdTrack->GetID(),
- esdTrack->GetLabel(),
- p,
- kTRUE,
- pos,
- kFALSE,
- covTr,
- (Short_t)esdTrack->GetSign(),
- esdTrack->GetITSClusterMap(),
- pid,
- NULL,
- kFALSE, // check if this is right
- kFALSE, // check if this is right
- AliAODTrack::kOrphan);
- aodTrack->ConvertAliPIDtoAODPID();
+ // Don't write them anymore!
+ continue;
}
} // end of loop on tracks
-
+
// muon tracks
Int_t nMuTracks = esd->GetNumberOfMuonTracks();
for (Int_t nMuTrack = 0; nMuTrack < nMuTracks; ++nMuTrack) {
// has to be changed once the muon pid is provided by the ESD
for (Int_t i = 0; i < 10; pid[i++] = 0.); pid[AliAODTrack::kMuon]=1.;
- primary->AddDaughter(
+ primary->AddDaughter(aodTrack =
new(tracks[jTracks++]) AliAODTrack(0, // no ID provided
0, // no label provided
p,
pos,
kFALSE,
NULL, // no covariance matrix provided
- (Short_t)-99, // no charge provided
- 0, // no ITSClusterMap
+ esdMuTrack->Charge(),
+ 0, // ITSClusterMap is set below
pid,
primary,
- kFALSE, // muon tracks are not used to fit the primary vtx
- kFALSE, // not used for vertex fit
+ kFALSE, // muon tracks are not used to fit the primary vtx
+ kFALSE, // not used for vertex fit
AliAODTrack::kPrimary)
);
+
+ aodTrack->SetHitsPatternInTrigCh(esdMuTrack->GetHitsPatternInTrigCh());
+ Int_t track2Trigger = esdMuTrack->GetMatchTrigger();
+ aodTrack->SetMatchTrigger(track2Trigger);
+ if (track2Trigger)
+ aodTrack->SetChi2MatchTrigger(esdMuTrack->GetChi2MatchTrigger());
+ else
+ aodTrack->SetChi2MatchTrigger(0.);
}
-
+ tracks.Expand(jTracks); // remove 'empty slots' due to unwritten tracks
+
+ // Access to the AOD container of PMD clusters
+ TClonesArray &pmdClusters = *(aod->GetPmdClusters());
+ Int_t jPmdClusters=0;
+
+ for (Int_t iPmd = 0; iPmd < nPmdClus; ++iPmd) {
+ // file pmd clusters, to be revised!
+ AliESDPmdTrack *pmdTrack = esd->GetPmdTrack(iPmd);
+ Int_t nLabel = 0;
+ Int_t *label = 0x0;
+ Double_t pos[3] = { pmdTrack->GetClusterX(), pmdTrack->GetClusterY(), pmdTrack->GetClusterZ() };
+ Double_t pid[9] = { 0., 0., 0., 0., 0., 0., 0., 0., 0. }; // to be revised!
+ // type not set!
+ // assoc cluster not set
+ new(pmdClusters[jPmdClusters++]) AliAODPmdCluster(iPmd, nLabel, label, pmdTrack->GetClusterADC(), pos, pid);
+ }
+
// Access to the AOD container of clusters
- TClonesArray &clusters = *(aod->GetClusters());
+ TClonesArray &caloClusters = *(aod->GetCaloClusters());
Int_t jClusters=0;
// Calo Clusters
- Int_t nClusters = esd->GetNumberOfCaloClusters();
-
- for (Int_t iClust=0; iClust<nClusters; ++iClust) {
+ TArrayS EMCCellNumber(15000);
+ TArrayD EMCCellAmplitude(15000);
+ Int_t nEMCCells = 0;
+ const Float_t fEMCAmpScale = 1./500;
+
+ for (Int_t iClust=0; iClust<nCaloClus; ++iClust) {
AliESDCaloCluster * cluster = esd->GetCaloCluster(iClust);
Int_t id = cluster->GetID();
- Int_t label = -1;
+ Int_t nLabel = 0;
+ Int_t *label = 0x0;
Float_t energy = cluster->E();
cluster->GetPosition(posF);
- AliAODVertex *prodVertex = primary;
- AliAODTrack *primTrack = NULL;
Char_t ttype=AliAODCluster::kUndef;
-
- if (cluster->IsPHOS()) ttype=AliAODCluster::kPHOSNeutral;
- else if (cluster->IsEMCAL()) {
-
- if (cluster->GetClusterType() == AliESDCaloCluster::kPseudoCluster)
- ttype = AliAODCluster::kEMCALPseudoCluster;
- else
- ttype = AliAODCluster::kEMCALClusterv1;
-
+
+ if (cluster->GetClusterType() == AliESDCaloCluster::kPHOSCluster) {
+ ttype=AliAODCluster::kPHOSNeutral;
+ }
+ else if (cluster->GetClusterType() == AliESDCaloCluster::kEMCALClusterv1) {
+ ttype = AliAODCluster::kEMCALClusterv1;
+ }
+ else if (cluster->GetClusterType() == AliESDCaloCluster::kEMCALPseudoCluster) {
+ // Collect raw tower info
+ for (Int_t iDig = 0; iDig < cluster->GetNumberOfDigits(); iDig++) {
+ EMCCellNumber[nEMCCells] = cluster->GetDigitIndex()->At(iDig);
+ EMCCellAmplitude[nEMCCells] = fEMCAmpScale*cluster->GetDigitAmplitude()->At(iDig);
+ nEMCCells++;
+ }
+ // don't write cluster data (it's just a pseudo cluster, holding the tower information)
+ continue;
}
- new(clusters[jClusters++]) AliAODCluster(id,
- label,
- energy,
- pos,
- NULL, // no covariance matrix provided
- NULL, // no pid for clusters provided
- prodVertex,
- primTrack,
- ttype);
+ AliAODCaloCluster *caloCluster = new(caloClusters[jClusters++]) AliAODCaloCluster(id,
+ nLabel,
+ label,
+ energy,
+ pos,
+ NULL,
+ ttype);
- } // end of loop on calo clusters
-
+ caloCluster->SetCaloCluster(); // to be refined!
+
+ }
+ caloClusters.Expand(jClusters); // resize TObjArray to 'remove' slots for pseudo clusters
+ // end of loop on calo clusters
+
+ // fill EMC cell info
+ AliAODCaloCells &EMCCells = *(aod->GetCaloCells());
+ EMCCells.CreateContainer(nEMCCells);
+ EMCCells.SetType(AliAODCaloCells::kEMCAL);
+ for (Int_t iCell = 0; iCell < nEMCCells; iCell++) {
+ EMCCells.SetCell(iCell,EMCCellNumber[iCell],EMCCellAmplitude[iCell]);
+ }
+ EMCCells.Sort();
+
+ // tracklets
+ AliAODTracklets &SPDTracklets = *(aod->GetTracklets());
+ const AliMultiplicity *mult = esd->GetMultiplicity();
+ if (mult) {
+ if (mult->GetNumberOfTracklets()>0) {
+ SPDTracklets.CreateContainer(mult->GetNumberOfTracklets());
+
+ for (Int_t n=0; n<mult->GetNumberOfTracklets(); n++) {
+ SPDTracklets.SetTracklet(n, mult->GetTheta(n), mult->GetPhi(n), mult->GetDeltaPhi(n), mult->GetLabel(n));
+ }
+ }
+ } else {
+ Printf("ERROR: AliMultiplicity could not be retrieved from ESD");
+ }
+
delete [] usedTrack;
delete [] usedV0;
delete [] usedKink;
-
+
// fill the tree for this event
aodTree->Fill();
} // end of event loop
-
+
aodTree->GetUserInfo()->Add(aod);
-
- // close ESD file
- esdFile->Close();
-
+
// write the tree to the specified file
aodFile = aodTree->GetCurrentFile();
aodFile->cd();
aodTree->Write();
-
+
return;
}
Int_t isp = 0;
Int_t isp2 = 0;
while (isp < nspdet) {
- Bool_t isvalid = tracker->GetTrackPoint(idx[isp2],p); isp2++;
+ Bool_t isvalid;
+ if(IsSelected(fgkDetectorName[iDet],fUseTrackingErrorsForAlignment)) {
+ isvalid = tracker->GetTrackPointTrackingError(idx[isp2],p,track);
+ } else {
+ isvalid = tracker->GetTrackPoint(idx[isp2],p);
+ }
+ isp2++;
const Int_t kNTPCmax = 159;
if (iDet==1 && isp2>kNTPCmax) break; // to be fixed
if (!isvalid) continue;
out.close();
}
+
+
+//_____________________________________________________________________________
+//AliQADataMaker * AliReconstruction::GetQADataMaker(Int_t iDet)
+//{
+// get the quality assurance data maker object and the loader for a detector
+//
+// if (fQADataMaker[iDet])
+// return fQADataMaker[iDet];
+//
+// // load the QA data maker object
+// TPluginManager* pluginManager = gROOT->GetPluginManager();
+// TString detName = fgkDetectorName[iDet];
+// TString qadmName = "Ali" + detName + "QADataMaker";
+// if (gAlice && !gAlice->GetDetector(detName) && (detName != "HLT"))
+// return NULL;
+//
+// AliQADataMaker * qadm = NULL;
+// // first check if a plugin is defined for the quality assurance data maker
+// TPluginHandler* pluginHandler = pluginManager->FindHandler("AliQADataMaker", detName);
+// // if not, add a plugin for it
+// if (!pluginHandler) {
+// AliDebug(1, Form("defining plugin for %s", qadmName.Data()));
+// TString libs = gSystem->GetLibraries();
+// if (libs.Contains("lib" + detName + "base.so") ||
+// (gSystem->Load("lib" + detName + "base.so") >= 0)) {
+// pluginManager->AddHandler("AliQADataMaker", detName,
+// qadmName, detName + "qadm", qadmName + "()");
+// } else {
+// pluginManager->AddHandler("AliQADataMaker", detName,
+// qadmName, detName, qadmName + "()");
+// }
+// pluginHandler = pluginManager->FindHandler("AliQADataMaker", detName);
+// }
+// if (pluginHandler && (pluginHandler->LoadPlugin() == 0)) {
+// qadm = (AliQADataMaker *) pluginHandler->ExecPlugin(0);
+// }
+// if (qadm) {
+// AliInfo(Form("Initializing quality assurance data maker for %s", fgkDetectorName[iDet]));
+// qadm->Init(AliQA::kRECPOINTS, AliCDBManager::Instance()->GetRun(), GetQACycles(fgkDetectorName[iDet]));
+// qadm->StartOfCycle(AliQA::kRECPOINTS);
+// qadm->Init(AliQA::kESDS, AliCDBManager::Instance()->GetRun());
+// qadm->StartOfCycle(AliQA::kESDS, "same") ;
+// fQADataMaker[iDet] = qadm;
+// }
+//
+// return qadm;
+//}
+//
+//_____________________________________________________________________________
+//Bool_t AliReconstruction::RunQA(const char* detectors, AliESDEvent *& esd)
+//{
+// // run the Quality Assurance data producer
+//
+// AliCodeTimerAuto("")
+// TString detStr = detectors;
+// for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
+// if (!IsSelected(fgkDetectorName[iDet], detStr))
+// continue;
+// AliQADataMaker * qadm = GetQADataMaker(iDet);
+// if (!qadm)
+// continue;
+// AliCodeTimerStart(Form("running quality assurance data maker for %s", fgkDetectorName[iDet]));
+// AliInfo(Form("running quality assurance data maker for %s", fgkDetectorName[iDet]));
+//
+// qadm->Exec(AliQA::kESDS, esd) ;
+// qadm->Increment() ;
+//
+// AliCodeTimerStop(Form("running quality assurance data maker for %s", fgkDetectorName[iDet]));
+// }
+// if ((detStr.CompareTo("ALL") != 0) && !detStr.IsNull()) {
+// AliError(Form("the following detectors were not found: %s",
+// detStr.Data()));
+// if (fStopOnError)
+// return kFALSE;
+// }
+//
+// return kTRUE;
+//
+//}
+//
+
+//_____________________________________________________________________________
+void AliReconstruction::CheckQA()
+{
+// check the QA of SIM for this run and remove the detectors
+// with status Fatal
+
+ TString newRunLocalReconstruction ;
+ TString newRunTracking ;
+ TString newFillESD ;
+
+ for (Int_t iDet = 0; iDet < AliQA::kNDET; iDet++) {
+ TString detName(AliQA::GetDetName(iDet)) ;
+ AliQA * qa = AliQA::Instance(AliQA::DETECTORINDEX(iDet)) ;
+ if ( qa->IsSet(AliQA::DETECTORINDEX(iDet), AliQA::kSIM, AliQA::kFATAL)) {
+ AliInfo(Form("QA status for %s in Hits and/or SDIGITS and/or Digits was Fatal; No reconstruction performed", detName.Data())) ;
+ } else {
+ if ( fRunLocalReconstruction.Contains(AliQA::GetDetName(iDet)) ||
+ fRunLocalReconstruction.Contains("ALL") ) {
+ newRunLocalReconstruction += detName ;
+ newRunLocalReconstruction += " " ;
+ }
+ if ( fRunTracking.Contains(AliQA::GetDetName(iDet)) ||
+ fRunTracking.Contains("ALL") ) {
+ newRunTracking += detName ;
+ newRunTracking += " " ;
+ }
+ if ( fFillESD.Contains(AliQA::GetDetName(iDet)) ||
+ fFillESD.Contains("ALL") ) {
+ newFillESD += detName ;
+ newFillESD += " " ;
+ }
+ }
+ }
+ fRunLocalReconstruction = newRunLocalReconstruction ;
+ fRunTracking = newRunTracking ;
+ fFillESD = newFillESD ;
+}
+
+//_____________________________________________________________________________
+Int_t AliReconstruction::GetDetIndex(const char* detector)
+{
+ // return the detector index corresponding to detector
+ Int_t index = -1 ;
+ for (index = 0; index < fgkNDetectors ; index++) {
+ if ( strcmp(detector, fgkDetectorName[index]) == 0 )
+ break ;
+ }
+ return index ;
+}