// The index -1 (default) can be used for the last event to indicate no //
// upper limit of the event range. //
// //
+// In case of raw-data reconstruction the user can modify the default //
+// number of events per digits/clusters/tracks file. In case the option //
+// is not used the number is set 1. In case the user provides 0, than //
+// the number of events is equal to the number of events inside the //
+// raw-data file (i.e. one digits/clusters/tracks file): //
+// //
+// rec.SetNumberOfEventsPerFile(...); //
+// //
+// //
// The name of the galice file can be changed from the default //
// "galice.root" by passing it as argument to the AliReconstruction //
// constructor or by //
// //
// Uniform/nonuniform field tracking switches (default: uniform field) //
// //
-// rec.SetUniformFieldTracking(); ( rec.SetNonuniformFieldTracking(); ) //
+// rec.SetUniformFieldTracking(); ( rec.SetUniformFieldTracking(kFALSE); ) //
// //
// The filling of additional ESD information can be steered by //
// //
#include "AliRawReaderFile.h"
#include "AliRawReaderDate.h"
#include "AliRawReaderRoot.h"
+#include "AliRawEventHeaderBase.h"
#include "AliESD.h"
+#include "AliESDfriend.h"
#include "AliESDVertex.h"
+#include "AliMultiplicity.h"
#include "AliTracker.h"
#include "AliVertexer.h"
+#include "AliVertexerTracks.h"
+#include "AliV0vertexer.h"
+#include "AliCascadeVertexer.h"
#include "AliHeader.h"
#include "AliGenEventHeader.h"
#include "AliPID.h"
#include "AliESDpid.h"
+#include "AliESDtrack.h"
#include "AliRunTag.h"
-//#include "AliLHCTag.h"
#include "AliDetectorTag.h"
#include "AliEventTag.h"
#include "AliTrackPointArray.h"
+#include "AliCDBManager.h"
+#include "AliCDBEntry.h"
+#include "AliAlignObj.h"
+
+#include "AliCentralTrigger.h"
+#include "AliCTPRawStream.h"
ClassImp(AliReconstruction)
//_____________________________________________________________________________
-const char* AliReconstruction::fgkDetectorName[AliReconstruction::fgkNDetectors] = {"ITS", "TPC", "TRD", "TOF", "PHOS", "RICH", "EMCAL", "MUON", "FMD", "ZDC", "PMD", "START", "VZERO", "CRT", "HLT"};
+const char* AliReconstruction::fgkDetectorName[AliReconstruction::fgkNDetectors] = {"ITS", "TPC", "TRD", "TOF", "PHOS", "HMPID", "EMCAL", "MUON", "FMD", "ZDC", "PMD", "T0", "VZERO", "ACORDE", "HLT"};
//_____________________________________________________________________________
-AliReconstruction::AliReconstruction(const char* gAliceFilename,
+AliReconstruction::AliReconstruction(const char* gAliceFilename, const char* cdbUri,
const char* name, const char* title) :
TNamed(name, title),
- fRunLocalReconstruction("ALL"),
fUniformField(kTRUE),
fRunVertexFinder(kTRUE),
fRunHLTTracking(kFALSE),
+ fStopOnError(kFALSE),
+ fWriteAlignmentData(kFALSE),
+ fWriteESDfriend(kFALSE),
+ fFillTriggerESD(kTRUE),
+
+ fRunLocalReconstruction("ALL"),
fRunTracking("ALL"),
fFillESD("ALL"),
fGAliceFileName(gAliceFilename),
fInput(""),
+ fEquipIdMap(""),
fFirstEvent(0),
fLastEvent(-1),
- fStopOnError(kFALSE),
+ fNumberOfEventsPerFile(1),
fCheckPointLevel(0),
fOptions(),
+ fLoadAlignFromCDB(kTRUE),
+ fLoadAlignData("ALL"),
fRunLoader(NULL),
fRawReader(NULL),
fVertexer(NULL),
+ fDiamondProfile(NULL),
- fWriteAlignmentData(kFALSE)
+ fAlignObjArray(NULL),
+ fCDBUri(cdbUri),
+ fSpecCDBUri()
{
// create reconstruction object with default parameters
fTracker[iDet] = NULL;
}
AliPID pid;
- // Import TGeo geometry
- TString geom(gSystem->DirName(gAliceFilename));
- geom += "/geometry.root";
- TGeoManager::Import(geom.Data());
}
//_____________________________________________________________________________
AliReconstruction::AliReconstruction(const AliReconstruction& rec) :
TNamed(rec),
- fRunLocalReconstruction(rec.fRunLocalReconstruction),
fUniformField(rec.fUniformField),
fRunVertexFinder(rec.fRunVertexFinder),
fRunHLTTracking(rec.fRunHLTTracking),
+ fStopOnError(rec.fStopOnError),
+ fWriteAlignmentData(rec.fWriteAlignmentData),
+ fWriteESDfriend(rec.fWriteESDfriend),
+ fFillTriggerESD(rec.fFillTriggerESD),
+
+ fRunLocalReconstruction(rec.fRunLocalReconstruction),
fRunTracking(rec.fRunTracking),
fFillESD(rec.fFillESD),
fGAliceFileName(rec.fGAliceFileName),
fInput(rec.fInput),
+ fEquipIdMap(rec.fEquipIdMap),
fFirstEvent(rec.fFirstEvent),
fLastEvent(rec.fLastEvent),
- fStopOnError(rec.fStopOnError),
+ fNumberOfEventsPerFile(rec.fNumberOfEventsPerFile),
fCheckPointLevel(0),
fOptions(),
+ fLoadAlignFromCDB(rec.fLoadAlignFromCDB),
+ fLoadAlignData(rec.fLoadAlignData),
fRunLoader(NULL),
fRawReader(NULL),
fVertexer(NULL),
+ fDiamondProfile(NULL),
- fWriteAlignmentData(rec.fWriteAlignmentData)
+ fAlignObjArray(rec.fAlignObjArray),
+ fCDBUri(rec.fCDBUri),
+ fSpecCDBUri()
{
// copy constructor
- for (Int_t i = 0; i < fOptions.GetEntriesFast(); i++) {
+ for (Int_t i = 0; i < rec.fOptions.GetEntriesFast(); i++) {
if (rec.fOptions[i]) fOptions.Add(rec.fOptions[i]->Clone());
}
for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
fLoader[iDet] = NULL;
fTracker[iDet] = NULL;
}
+ for (Int_t i = 0; i < rec.fSpecCDBUri.GetEntriesFast(); i++) {
+ if (rec.fSpecCDBUri[i]) fSpecCDBUri.Add(rec.fSpecCDBUri[i]->Clone());
+ }
}
//_____________________________________________________________________________
CleanUp();
fOptions.Delete();
+ fSpecCDBUri.Delete();
+}
+
+//_____________________________________________________________________________
+void AliReconstruction::InitCDBStorage()
+{
+// activate a default CDB storage
+// First check if we have any CDB storage set, because it is used
+// to retrieve the calibration and alignment constants
+
+ AliCDBManager* man = AliCDBManager::Instance();
+ if (man->IsDefaultStorageSet())
+ {
+ AliWarning("!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
+ AliWarning("Default CDB storage has been already set !");
+ AliWarning(Form("Ignoring the default storage declared in AliReconstruction: %s",fCDBUri.Data()));
+ AliWarning("!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
+ fCDBUri = "";
+ }
+ else {
+ AliDebug(2, "!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
+ AliDebug(2, Form("Default CDB storage is set to: %s",fCDBUri.Data()));
+ AliDebug(2, "!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
+ man->SetDefaultStorage(fCDBUri);
+ }
+
+ // Now activate the detector specific CDB storage locations
+ for (Int_t i = 0; i < fSpecCDBUri.GetEntriesFast(); i++) {
+ TObject* obj = fSpecCDBUri[i];
+ if (!obj) continue;
+ AliDebug(2, "!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
+ AliDebug(2, Form("Specific CDB storage for %s is set to: %s",obj->GetName(),obj->GetTitle()));
+ AliDebug(2, "!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!");
+ man->SetSpecificStorage(obj->GetName(), obj->GetTitle());
+ }
+ man->Print();
+}
+
+//_____________________________________________________________________________
+void AliReconstruction::SetDefaultStorage(const char* uri) {
+// Store the desired default CDB storage location
+// Activate it later within the Run() method
+
+ fCDBUri = uri;
+
+}
+
+//_____________________________________________________________________________
+void AliReconstruction::SetSpecificStorage(const char* calibType, const char* uri) {
+// Store a detector-specific CDB storage location
+// Activate it later within the Run() method
+
+ AliCDBPath aPath(calibType);
+ if(!aPath.IsValid()){
+ // if calibType is not wildcard but it is a valid detector, add "/*" to make it a valid path
+ for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
+ if(!strcmp(calibType, fgkDetectorName[iDet])) {
+ aPath.SetPath(Form("%s/*", calibType));
+ AliInfo(Form("Path for specific storage set to %s", aPath.GetPath().Data()));
+ break;
+ }
+ }
+ if(!aPath.IsValid()){
+ AliError(Form("Not a valid path or detector: %s", calibType));
+ 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);
+ fSpecCDBUri.Add(new TNamed(aPath.GetPath().Data(), uri));
+
+}
+
+//_____________________________________________________________________________
+Bool_t AliReconstruction::SetRunNumber()
+{
+ // The method is called in Run() in order
+ // to set a correct run number.
+ // In case of raw data reconstruction the
+ // run number is taken from the raw data header
+
+ if(AliCDBManager::Instance()->GetRun() < 0) {
+ if (!fRunLoader) {
+ AliError("No run loader is found !");
+ return kFALSE;
+ }
+ // read run number from gAlice
+ if(fRunLoader->GetAliRun())
+ AliCDBManager::Instance()->SetRun(fRunLoader->GetAliRun()->GetRunNumber());
+ else {
+ if(fRawReader) {
+ if(fRawReader->NextEvent()) {
+ AliCDBManager::Instance()->SetRun(fRawReader->GetRunNumber());
+ fRawReader->RewindEvents();
+ }
+ else {
+ AliError("No raw-data events found !");
+ return kFALSE;
+ }
+ }
+ else {
+ AliError("Neither gAlice nor RawReader objects are found !");
+ return kFALSE;
+ }
+ }
+ AliInfo(Form("CDB Run number: %d",AliCDBManager::Instance()->GetRun()));
+ }
+ return kTRUE;
+}
+
+//_____________________________________________________________________________
+Bool_t AliReconstruction::ApplyAlignObjsToGeom(TObjArray* alObjArray)
+{
+ // Read collection of alignment objects (AliAlignObj derived) saved
+ // in the TClonesArray ClArrayName and apply them to the geometry
+ // manager singleton.
+ //
+ alObjArray->Sort();
+ Int_t nvols = alObjArray->GetEntriesFast();
+
+ Bool_t flag = kTRUE;
+
+ for(Int_t j=0; j<nvols; j++)
+ {
+ AliAlignObj* alobj = (AliAlignObj*) alObjArray->UncheckedAt(j);
+ if (alobj->ApplyToGeometry() == kFALSE) flag = kFALSE;
+ }
+
+ if (AliDebugLevelClass() >= 1) {
+ gGeoManager->GetTopNode()->CheckOverlaps(20);
+ TObjArray* ovexlist = gGeoManager->GetListOfOverlaps();
+ if(ovexlist->GetEntriesFast()){
+ AliError("The application of alignment objects to the geometry caused huge overlaps/extrusions!");
+ }
+ }
+
+ return flag;
+
+}
+
+//_____________________________________________________________________________
+Bool_t AliReconstruction::SetAlignObjArraySingleDet(const char* detName)
+{
+ // Fills array of single detector's alignable objects from CDB
+
+ AliDebug(2, Form("Loading alignment data for detector: %s",detName));
+
+ AliCDBEntry *entry;
+
+ AliCDBPath path(detName,"Align","Data");
+
+ entry=AliCDBManager::Instance()->Get(path.GetPath());
+ if(!entry){
+ AliDebug(2,Form("Couldn't load alignment data for detector %s",detName));
+ return kFALSE;
+ }
+ entry->SetOwner(1);
+ TClonesArray *alignArray = (TClonesArray*) entry->GetObject();
+ alignArray->SetOwner(0);
+ AliDebug(2,Form("Found %d alignment objects for %s",
+ alignArray->GetEntries(),detName));
+
+ AliAlignObj *alignObj=0;
+ TIter iter(alignArray);
+
+ // loop over align objects in detector
+ while( ( alignObj=(AliAlignObj *) iter.Next() ) ){
+ fAlignObjArray->Add(alignObj);
+ }
+ // delete entry --- Don't delete, it is cached!
+
+ AliDebug(2, Form("fAlignObjArray entries: %d",fAlignObjArray->GetEntries() ));
+ return kTRUE;
+
}
+//_____________________________________________________________________________
+Bool_t AliReconstruction::MisalignGeometry(const TString& detectors)
+{
+ // Read the alignment objects from CDB.
+ // Each detector is supposed to have the
+ // alignment objects in DET/Align/Data CDB path.
+ // All the detector objects are then collected,
+ // sorted by geometry level (starting from ALIC) and
+ // then applied to the TGeo geometry.
+ // Finally an overlaps check is performed.
+
+ // Load alignment data from CDB and fill fAlignObjArray
+ if(fLoadAlignFromCDB){
+ if(!fAlignObjArray) fAlignObjArray = new TObjArray();
+
+ //fAlignObjArray->RemoveAll();
+ fAlignObjArray->Clear();
+ fAlignObjArray->SetOwner(0);
+
+ TString detStr = detectors;
+ TString dataNotLoaded="";
+ TString dataLoaded="";
+
+ for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
+ if (!IsSelected(fgkDetectorName[iDet], detStr)) continue;
+ if(!SetAlignObjArraySingleDet(fgkDetectorName[iDet])){
+ dataNotLoaded += fgkDetectorName[iDet];
+ dataNotLoaded += " ";
+ } else {
+ dataLoaded += fgkDetectorName[iDet];
+ dataLoaded += " ";
+ }
+ } // end loop over detectors
+
+ if ((detStr.CompareTo("ALL") == 0)) detStr = "";
+ dataNotLoaded += detStr;
+ if(!dataLoaded.IsNull()) AliInfo(Form("Alignment data loaded for: %s",
+ dataLoaded.Data()));
+ if(!dataNotLoaded.IsNull()) AliInfo(Form("Didn't/couldn't load alignment data for: %s",
+ dataNotLoaded.Data()));
+ } // fLoadAlignFromCDB flag
+
+ // Check if the array with alignment objects was
+ // provided by the user. If yes, apply the objects
+ // to the present TGeo geometry
+ if (fAlignObjArray) {
+ if (gGeoManager && gGeoManager->IsClosed()) {
+ if (ApplyAlignObjsToGeom(fAlignObjArray) == kFALSE) {
+ AliError("The misalignment of one or more volumes failed!"
+ "Compare the list of simulated detectors and the list of detector alignment data!");
+ return kFALSE;
+ }
+ }
+ else {
+ AliError("Can't apply the misalignment! gGeoManager doesn't exist or it is still opened!");
+ return kFALSE;
+ }
+ }
+
+ delete fAlignObjArray; fAlignObjArray=0;
+ return kTRUE;
+}
//_____________________________________________________________________________
void AliReconstruction::SetGAliceFile(const char* fileName)
//_____________________________________________________________________________
-Bool_t AliReconstruction::Run(const char* input,
- Int_t firstEvent, Int_t lastEvent)
+Bool_t AliReconstruction::Run(const char* input)
{
// run the reconstruction
fRawReader = new AliRawReaderDate(fileName);
fRawReader->SelectEvents(7);
}
+ if (!fEquipIdMap.IsNull() && fRawReader)
+ fRawReader->LoadEquipmentIdsMap(fEquipIdMap);
+
// get the run loader
if (!InitRunLoader()) return kFALSE;
+ // Initialize the CDB storage
+ InitCDBStorage();
+
+ // Set run number in CDBManager (if it is not already set by the user)
+ if (!SetRunNumber()) if (fStopOnError) return kFALSE;
+
+ // Import ideal TGeo geometry and apply misalignment
+ if (!gGeoManager) {
+ TString geom(gSystem->DirName(fGAliceFileName));
+ geom += "/geometry.root";
+ TGeoManager::Import(geom.Data());
+ if (!gGeoManager) if (fStopOnError) return kFALSE;
+ }
+
+ AliCDBManager* man = AliCDBManager::Instance();
+ if (!MisalignGeometry(fLoadAlignData)) if (fStopOnError) return kFALSE;
+
// local reconstruction
if (!fRunLocalReconstruction.IsNull()) {
if (!RunLocalReconstruction(fRunLocalReconstruction)) {
hlttree->Branch("ESD", "AliESD", &hltesd);
delete esd; delete hltesd;
esd = NULL; hltesd = NULL;
- gROOT->cd();
+
+ // create the branch with ESD additions
+ AliESDfriend *esdf=0;
+ if (fWriteESDfriend) {
+ TBranch *br=tree->Branch("ESDfriend.", "AliESDfriend", &esdf);
+ br->SetFile("AliESDfriends.root");
+ }
+
+ AliVertexerTracks tVertexer;
+ if(fDiamondProfile) tVertexer.SetVtxStart(fDiamondProfile);
// loop over events
if (fRawReader) fRawReader->RewindEvents();
for (Int_t iEvent = 0; iEvent < fRunLoader->GetNumberOfEvents(); iEvent++) {
if (fRawReader) fRawReader->NextEvent();
- if ((iEvent < firstEvent) || ((lastEvent >= 0) && (iEvent > lastEvent))) {
+ if ((iEvent < fFirstEvent) || ((fLastEvent >= 0) && (iEvent > fLastEvent))) {
// copy old ESD to the new one
if (treeOld) {
treeOld->SetBranchAddress("ESD", &esd);
AliInfo(Form("processing event %d", iEvent));
fRunLoader->GetEvent(iEvent);
- char fileName[256];
- sprintf(fileName, "ESD_%d.%d_final.root",
+ char aFileName[256];
+ sprintf(aFileName, "ESD_%d.%d_final.root",
fRunLoader->GetHeader()->GetRun(),
fRunLoader->GetHeader()->GetEventNrInRun());
- if (!gSystem->AccessPathName(fileName)) continue;
+ if (!gSystem->AccessPathName(aFileName)) continue;
// local reconstruction
if (!fRunLocalReconstruction.IsNull()) {
hltesd->SetRunNumber(fRunLoader->GetHeader()->GetRun());
esd->SetEventNumber(fRunLoader->GetHeader()->GetEventNrInRun());
hltesd->SetEventNumber(fRunLoader->GetHeader()->GetEventNrInRun());
- if (gAlice) {
- esd->SetMagneticField(gAlice->Field()->SolenoidField());
- hltesd->SetMagneticField(gAlice->Field()->SolenoidField());
- } else {
- // ???
- }
+
+ // Set magnetic field from the tracker
+ esd->SetMagneticField(AliTracker::GetBz());
+ hltesd->SetMagneticField(AliTracker::GetBz());
// vertex finder
if (fRunVertexFinder) {
if (fStopOnError) {CleanUp(file, fileOld); return kFALSE;}
}
}
+ // fill Event header information from the RawEventHeader
+ if (fRawReader){FillRawEventHeaderESD(esd);}
// combined PID
AliESDpid::MakePID(esd);
if (fCheckPointLevel > 1) WriteESD(esd, "PID");
+ if (fFillTriggerESD) {
+ if (!ReadESD(esd, "trigger")) {
+ if (!FillTriggerESD(esd)) {
+ if (fStopOnError) {CleanUp(file, fileOld); return kFALSE;}
+ }
+ if (fCheckPointLevel > 1) WriteESD(esd, "trigger");
+ }
+ }
+
+ //Try to improve the reconstructed primary vertex position using the tracks
+ AliESDVertex *pvtx=tVertexer.FindPrimaryVertex(esd);
+ if (pvtx)
+ if (pvtx->GetStatus()) {
+ // Store the improved primary vertex
+ esd->SetPrimaryVertex(pvtx);
+ // Propagate the tracks to the DCA to the improved primary vertex
+ Double_t somethingbig = 777.;
+ Double_t bz = esd->GetMagneticField();
+ Int_t nt=esd->GetNumberOfTracks();
+ while (nt--) {
+ AliESDtrack *t = esd->GetTrack(nt);
+ t->RelateToVertex(pvtx, bz, somethingbig);
+ }
+ }
+
+ {
+ // V0 finding
+ AliV0vertexer vtxer;
+ vtxer.Tracks2V0vertices(esd);
+
+ // Cascade finding
+ AliCascadeVertexer cvtxer;
+ cvtxer.V0sTracks2CascadeVertices(esd);
+ }
+
// write ESD
+ if (fWriteESDfriend) {
+ esdf=new AliESDfriend();
+ esd->GetESDfriend(esdf);
+ }
tree->Fill();
+
// write HLT ESD
hlttree->Fill();
if (fCheckPointLevel > 0) WriteESD(esd, "final");
- delete esd; delete hltesd;
- esd = NULL; hltesd = NULL;
+ delete esd; delete esdf; delete hltesd;
+ esd = NULL; esdf=NULL; hltesd = NULL;
}
AliInfo(Form("Execution time for filling ESD : R:%.2fs C:%.2fs",
stopwatch.RealTime(),stopwatch.CpuTime()));
file->cd();
+ if (fWriteESDfriend)
+ tree->SetBranchStatus("ESDfriend*",0);
tree->Write();
hlttree->Write();
TStopwatch stopwatch;
stopwatch.Start();
+ 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;
AliInfo(Form("running reconstruction for %s", fgkDetectorName[iDet]));
TStopwatch stopwatchDet;
stopwatchDet.Start();
+
+ 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!
+
if (fRawReader) {
fRawReader->RewindEvents();
reconstructor->Reconstruct(fRunLoader, fRawReader);
AliInfo(Form("Execution time for %s: R:%.2fs C:%.2fs",
fgkDetectorName[iDet],
stopwatchDet.RealTime(),stopwatchDet.CpuTime()));
+
+ // unload calibration data
+ man->ClearCache();
}
+ man->SetCacheFlag(origCache);
+
if ((detStr.CompareTo("ALL") != 0) && !detStr.IsNull()) {
AliError(Form("the following detectors were not found: %s",
detStr.Data()));
if(!vertex){
AliWarning("Vertex not found");
vertex = new AliESDVertex();
+ vertex->SetName("default");
}
else {
vertex->SetTruePos(vtxPos); // store also the vertex from MC
+ vertex->SetName("reconstructed");
}
} else {
vertex = new AliESDVertex(vtxPos, vtxErr);
}
esd->SetVertex(vertex);
+ // if SPD multiplicity has been determined, it is stored in the ESD
+ AliMultiplicity *mult= fVertexer->GetMultiplicity();
+ if(mult)esd->SetMultiplicity(mult);
+
for (Int_t iDet = 0; iDet < fgkNDetectors; iDet++) {
if (fTracker[iDet]) fTracker[iDet]->SetVertex(vtxPos, vtxErr);
}
fTracker[iDet]->UnloadClusters();
fLoader[iDet]->UnloadRecPoints();
}
-
+ //
+ // Propagate track to the vertex - if not done by ITS
+ //
+ Int_t ntracks = esd->GetNumberOfTracks();
+ for (Int_t itrack=0; itrack<ntracks; itrack++){
+ const Double_t kRadius = 3; // beam pipe radius
+ const Double_t kMaxStep = 5; // max step
+ const Double_t kMaxD = 123456; // max distance to prim vertex
+ Double_t fieldZ = AliTracker::GetBz(); //
+ AliESDtrack * track = esd->GetTrack(itrack);
+ if (!track) continue;
+ if (track->IsOn(AliESDtrack::kITSrefit)) continue;
+ track->PropagateTo(kRadius, fieldZ, track->GetMass(),kMaxStep,kTRUE);
+ track->RelateToVertex(esd->GetVertex(),fieldZ, kMaxD);
+ }
+
AliInfo(Form("Execution time: R:%.2fs C:%.2fs",
stopwatch.RealTime(),stopwatch.CpuTime()));
return kTRUE;
}
+//_____________________________________________________________________________
+Bool_t AliReconstruction::FillTriggerESD(AliESD*& esd)
+{
+ // Reads the trigger decision which is
+ // stored in Trigger.root file and fills
+ // the corresponding esd entries
+
+ AliInfo("Filling trigger information into the ESD");
+
+ if (fRawReader) {
+ AliCTPRawStream input(fRawReader);
+ if (!input.Next()) {
+ AliError("No valid CTP (trigger) DDL raw data is found ! The trigger information is not stored in the ESD !");
+ return kFALSE;
+ }
+ esd->SetTriggerMask(input.GetClassMask());
+ esd->SetTriggerCluster(input.GetClusterMask());
+ }
+ else {
+ AliRunLoader *runloader = AliRunLoader::GetRunLoader();
+ if (runloader) {
+ if (!runloader->LoadTrigger()) {
+ AliCentralTrigger *aCTP = runloader->GetTrigger();
+ esd->SetTriggerMask(aCTP->GetClassMask());
+ esd->SetTriggerCluster(aCTP->GetClusterMask());
+ }
+ else {
+ AliWarning("No trigger can be loaded! The trigger information is not stored in the ESD !");
+ return kFALSE;
+ }
+ }
+ else {
+ AliError("No run loader is available! The trigger information is not stored in the ESD !");
+ return kFALSE;
+ }
+ }
+
+ return kTRUE;
+}
+
+
+
+
+
+//_____________________________________________________________________________
+Bool_t AliReconstruction::FillRawEventHeaderESD(AliESD*& esd)
+{
+ //
+ // Filling information from RawReader Header
+ //
+
+ AliInfo("Filling information from RawReader Header");
+ esd->SetTimeStamp(0);
+ esd->SetEventType(0);
+ const AliRawEventHeaderBase * eventHeader = fRawReader->GetEventHeader();
+ if (eventHeader){
+ esd->SetTimeStamp((eventHeader->Get("Timestamp")));
+ esd->SetEventType((eventHeader->Get("Type")));
+ }
+
+ return kTRUE;
+}
+
//_____________________________________________________________________________
Bool_t AliReconstruction::IsSelected(TString detName, TString& detectors) const
iEvent++;
}
fRawReader->RewindEvents();
+ if (fNumberOfEventsPerFile > 0)
+ fRunLoader->SetNumberOfEventsPerFile(fNumberOfEventsPerFile);
+ else
+ fRunLoader->SetNumberOfEventsPerFile(iEvent);
fRunLoader->WriteHeader("OVERWRITE");
fRunLoader->CdGAFile();
fRunLoader->Write(0, TObject::kOverwrite);
if (detName == "HLT") {
if (!gROOT->GetClass("AliLevel3")) {
- gSystem->Load("libAliL3Src.so");
- gSystem->Load("libAliL3Misc.so");
- gSystem->Load("libAliL3Hough.so");
- gSystem->Load("libAliL3Comp.so");
+ gSystem->Load("libAliHLTSrc.so");
+ gSystem->Load("libAliHLTMisc.so");
+ gSystem->Load("libAliHLTHough.so");
+ gSystem->Load("libAliHLTComp.so");
}
}
->CreateDetectorFolders(fRunLoader->GetEventFolder(),
detName, detName);
// first check if a plugin is defined for the loader
- TPluginHandler* pluginHandler =
+ pluginHandler =
pluginManager->FindHandler("AliLoader", detName);
// if not, add a plugin for it
if (!pluginHandler) {
}
delete fVertexer;
fVertexer = NULL;
+ delete fDiamondProfile;
+ fDiamondProfile = NULL;
delete fRunLoader;
fRunLoader = NULL;
Int_t nMu1GeV, nMu3GeV, nMu10GeV;
Int_t nEl1GeV, nEl3GeV, nEl10GeV;
Float_t maxPt = .0, meanPt = .0, totalP = .0;
+ Int_t fVertexflag;
+ Int_t iRunNumber = 0;
+ TString fVertexName("default");
AliRunTag *tag = new AliRunTag();
AliEventTag *evTag = new AliEventTag();
delete file;
return ;
}
- Int_t firstEvent = 0,lastEvent = 0;
+ Int_t lastEvent = 0;
TTree *t = (TTree*) file->Get("esdTree");
TBranch * b = t->GetBranch("ESD");
AliESD *esd = 0;
b->SetAddress(&esd);
+
+ b->GetEntry(fFirstEvent);
+ Int_t iInitRunNumber = esd->GetRunNumber();
- tag->SetRunId(esd->GetRunNumber());
-
- Int_t iNumberOfEvents = b->GetEntries();
- for (Int_t iEventNumber = 0; iEventNumber < iNumberOfEvents; iEventNumber++) {
+ Int_t iNumberOfEvents = (Int_t)b->GetEntries();
+ if(fLastEvent != -1) iNumberOfEvents = fLastEvent + 1;
+ for (Int_t iEventNumber = fFirstEvent; iEventNumber < iNumberOfEvents; iEventNumber++) {
ntrack = 0;
nPos = 0;
nNeg = 0;
maxPt = .0;
meanPt = .0;
totalP = .0;
-
+ fVertexflag = 0;
+
b->GetEntry(iEventNumber);
+ iRunNumber = esd->GetRunNumber();
+ if(iRunNumber != iInitRunNumber) AliFatal("Inconsistency of run numbers in the AliESD!!!");
const AliESDVertex * vertexIn = esd->GetVertex();
-
+ if (!vertexIn) AliError("ESD has not defined vertex.");
+ if (vertexIn) fVertexName = vertexIn->GetName();
+ if(fVertexName != "default") fVertexflag = 1;
for (Int_t iTrackNumber = 0; iTrackNumber < esd->GetNumberOfTracks(); iTrackNumber++) {
AliESDtrack * esdTrack = esd->GetTrack(iTrackNumber);
UInt_t status = esdTrack->GetStatus();
meanPt = meanPt/ntrack;
evTag->SetEventId(iEventNumber+1);
- evTag->SetVertexX(vertexIn->GetXv());
- evTag->SetVertexY(vertexIn->GetYv());
- evTag->SetVertexZ(vertexIn->GetZv());
-
+ if (vertexIn) {
+ evTag->SetVertexX(vertexIn->GetXv());
+ evTag->SetVertexY(vertexIn->GetYv());
+ evTag->SetVertexZ(vertexIn->GetZv());
+ evTag->SetVertexZError(vertexIn->GetZRes());
+ }
+ evTag->SetVertexFlag(fVertexflag);
+
evTag->SetT0VertexZ(esd->GetT0zVertex());
- evTag->SetTrigger(esd->GetTrigger());
+ evTag->SetTriggerMask(esd->GetTriggerMask());
+ evTag->SetTriggerCluster(esd->GetTriggerCluster());
- evTag->SetZDCNeutronEnergy(esd->GetZDCNEnergy());
- evTag->SetZDCProtonEnergy(esd->GetZDCPEnergy());
+ evTag->SetZDCNeutron1Energy(esd->GetZDCN1Energy());
+ evTag->SetZDCProton1Energy(esd->GetZDCP1Energy());
+ evTag->SetZDCNeutron2Energy(esd->GetZDCN2Energy());
+ evTag->SetZDCProton2Energy(esd->GetZDCP2Energy());
evTag->SetZDCEMEnergy(esd->GetZDCEMEnergy());
evTag->SetNumOfParticipants(esd->GetZDCParticipants());
evTag->SetNumOfElectronsAbove3GeV(nEl3GeV);
evTag->SetNumOfElectronsAbove10GeV(nEl10GeV);
- evTag->SetNumOfPHOSTracks(esd->GetNumberOfPHOSParticles());
- evTag->SetNumOfEMCALTracks(esd->GetNumberOfEMCALParticles());
+ evTag->SetNumOfPHOSClusters(esd->GetNumberOfPHOSClusters());
+ evTag->SetNumOfEMCALClusters(esd->GetNumberOfEMCALClusters());
evTag->SetTotalMomentum(totalP);
evTag->SetMeanPt(meanPt);
evTag->SetMaxPt(maxPt);
+ tag->SetRunId(iInitRunNumber);
tag->AddEventTag(*evTag);
}
- lastEvent = iNumberOfEvents;
+ if(fLastEvent == -1) lastEvent = (Int_t)b->GetEntries();
+ else lastEvent = fLastEvent;
ttag.Fill();
tag->Clear();
char fileName[256];
sprintf(fileName, "Run%d.Event%d_%d.ESD.tag.root",
- tag->GetRunId(),firstEvent,lastEvent );
+ tag->GetRunId(),fFirstEvent,lastEvent );
AliInfo(Form("writing tags to file %s", fileName));
AliDebug(1, Form("writing tags to file %s", fileName));
{
AliESDtrack *track = esd->GetTrack(itrack);
Int_t nsp = 0;
- UInt_t idx[200];
+ Int_t idx[200];
for (Int_t iDet = 3; iDet >= 0; iDet--)
nsp += track->GetNcls(iDet);
if (nsp) {
Int_t isp2 = 0;
while (isp < nspdet) {
Bool_t isvalid = tracker->GetTrackPoint(idx[isp2],p); isp2++;
+ const Int_t kNTPCmax = 159;
+ if (iDet==1 && isp2>kNTPCmax) break; // to be fixed
if (!isvalid) continue;
sp->AddPoint(isptrack,&p); isptrack++; isp++;
}