/**************************************************************************
- * This file is property of and copyright by the ALICE HLT Project *
+ * This file is property of and copyright by the ALICE HLT Project *
* All rights reserved. *
* *
* Primary Authors: *
* 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 *
+ * about the suitability of this software for any purpose. It is *
* provided "as is" without express or implied warranty. *
**************************************************************************/
-/* $Id$ */
+// $Id$
///
/// @file AliHLTMUONRootifierComponent.cxx
/// @date 29 Sep 2007
/// @brief Implementation of the AliHLTMUONRootifierComponent component.
///
+/// Implements a component to convert dHLT raw data into TObjects.
+#include "AliHLTMessage.h"
+#include "TString.h"
+#include "AliESDEvent.h"
#include "AliHLTMUONRootifierComponent.h"
#include "AliHLTMUONEvent.h"
#include "AliHLTMUONConstants.h"
#include "AliHLTMUONRecHit.h"
#include "AliHLTMUONTriggerRecord.h"
#include "AliHLTMUONMansoTrack.h"
+#include "AliHLTMUONTrack.h"
#include "AliHLTMUONDecision.h"
+#include "AliMUONTriggerDDLDecoderEventHandler.h"
#include "TClonesArray.h"
#include <cassert>
+#include <map>
ClassImp(AliHLTMUONRootifierComponent);
{
/// Inherited from AliHLTComponent. Returns the output data types.
- tgtList.push_back(kAliHLTAnyDataType);
+ tgtList.push_back(AliHLTMUONConstants::RootifiedEventDataType());
return tgtList.size();
}
/// Inherited from AliHLTProcessor. Processes the new event data.
///
+ if (not IsDataEvent()) return 0;
+
AliHLTMUONEvent event(evtData.fEventID);
const AliHLTComponentBlockData* block = NULL;
AliHLTUInt32_t specification = 0; // Contains the output data block spec bits.
+ std::map<AliHLTInt32_t, AliHLTMUONTriggerRecord*> triggerMap;
// First process the blocks of reconstructed hits and trigger records.
for (int i = 0; i < GetNumberOfInputBlocks(); i++)
i, DataType2Text(block->fDataType).c_str(), block->fPtr, block->fSize
);
- if (block->fDataType == AliHLTMUONConstants::RecHitsBlockDataType())
+ if (block->fDataType == AliHLTMUONConstants::ESDDataType())
+ {
+ AliHLTMessage *fMessage = new AliHLTMessage( block->fPtr, block->fSize );
+ // -- Check if TMessage payload is TObject
+ if ( fMessage->What() == kMESS_OBJECT )
+ {
+ TString fClassName = fMessage->GetClass()->GetName();
+ AliESDEvent* esd = reinterpret_cast<AliESDEvent*>(fMessage->ReadObject( fMessage->GetClass() ));
+ esd->GetStdContent();
+ event.Add(esd);
+ }
+ fMessage->Reset();
+ }
+ else if (block->fDataType == AliHLTMUONConstants::RecHitsBlockDataType())
{
specification |= block->fSpecification;
AliHLTMUONRecHitsBlockReader inblock(block->fPtr, block->fSize);
for (AliHLTUInt32_t n = 0; n < inblock.Nentries(); n++)
{
const AliHLTMUONRecHitStruct& h = inblock[n];
- event.Add(new AliHLTMUONRecHit(h.fX, h.fY, h.fZ, sourceDDL));
+ AliHLTUInt8_t chamber;
+ AliHLTUInt16_t detElemId;
+ AliHLTMUONUtils::UnpackRecHitFlags(h.fFlags, chamber, detElemId);
+ event.Add(new AliHLTMUONRecHit(h.fX, h.fY, h.fZ, sourceDDL, detElemId));
}
}
else if (block->fDataType == AliHLTMUONConstants::TriggerRecordsBlockDataType())
t.fId, sign, t.fPx, t.fPy, t.fPz, sourceDDL
);
for (int k = 0; k < 4; k++)
- tr->SetHit(k+11, t.fHit[k].fX, t.fHit[k].fY, t.fHit[k].fZ);
+ {
+ if (not hitset[k]) continue;
+ Int_t detElemId = AliHLTMUONUtils::GetDetElemIdFromFlags(t.fHit[k].fFlags);
+ tr->SetHit(k+11, t.fHit[k].fX, t.fHit[k].fY, t.fHit[k].fZ, detElemId);
+ }
event.Add(tr);
+ triggerMap[t.fId] = tr;
}
}
else
{
- if (block->fDataType != AliHLTMUONConstants::MansoTracksBlockDataType() and
+ if (block->fDataType != AliHLTMUONConstants::TrigRecsDebugBlockDataType() and
+ block->fDataType != AliHLTMUONConstants::ClusterBlockDataType() and
+ block->fDataType != AliHLTMUONConstants::ChannelBlockDataType() and
+ block->fDataType != AliHLTMUONConstants::MansoTracksBlockDataType() and
+ block->fDataType != AliHLTMUONConstants::MansoCandidatesBlockDataType() and
block->fDataType != AliHLTMUONConstants::SinglesDecisionBlockDataType() and
block->fDataType != AliHLTMUONConstants::PairsDecisionBlockDataType()
)
HLTWarning("Received a data block of a type we cannot handle: '%s', spec: 0x%X",
DataType2Text(block->fDataType).c_str(), block->fSpecification
);
+#ifdef __DEBUG
else
HLTDebug("Received a data block of a type we cannot handle: '%s', spec: 0x%X",
DataType2Text(block->fDataType).c_str(), block->fSpecification
);
+#endif
}
}
}
- // Now we can look for tracks to add. We needed the ROOT trigger records
- // and reco hits created before we can create track objects.
- for (block = GetFirstInputBlock(AliHLTMUONConstants::MansoTracksBlockDataType());
+ // We need to check if there are any trigger record debug data blocks
+ // and add their information to the AliHLTMUONTriggerRecord objects.
+ for (block = GetFirstInputBlock(AliHLTMUONConstants::TrigRecsDebugBlockDataType());
block != NULL;
block = GetNextInputBlock()
)
{
specification |= block->fSpecification;
- AliHLTMUONMansoTracksBlockReader inblock(block->fPtr, block->fSize);
+ AliHLTMUONTrigRecsDebugBlockReader inblock(block->fPtr, block->fSize);
if (not BlockStructureOk(inblock))
{
if (DumpDataOnError()) DumpEvent(evtData, trigData);
for (AliHLTUInt32_t n = 0; n < inblock.Nentries(); n++)
{
- const AliHLTMUONMansoTrackStruct& t = inblock[n];
+ const AliHLTMUONTrigRecInfoStruct& triginfo = inblock[n];
- AliHLTMUONParticleSign sign;
- bool hitset[4];
- AliHLTMUONUtils::UnpackMansoTrackFlags(
- t.fFlags, sign, hitset
- );
-
- // Try find the trigger record in 'event'.
- const AliHLTMUONTriggerRecord* trigrec = NULL;
- for (Int_t k = 0; k < event.Array().GetEntriesFast(); k++)
+ AliHLTMUONTriggerRecord* trigrec = triggerMap[triginfo.fTrigRecId];
+ if (trigrec == NULL)
{
- if (event.Array()[k]->IsA() != AliHLTMUONTriggerRecord::Class())
- continue;
- const AliHLTMUONTriggerRecord* tk =
- static_cast<const AliHLTMUONTriggerRecord*>(event.Array()[k]);
- if (tk->Id() == t.fTrigRec)
+ // Decode the source DDL from the specification bits.
+ Int_t sourceDDL = -1;
+ bool ddl[22];
+ AliHLTMUONUtils::UnpackSpecBits(block->fSpecification, ddl);
+ for (int k = 0; k < 22; k++)
{
- trigrec = tk;
- break;
+ if (ddl[k])
+ {
+ if (sourceDDL == -1)
+ {
+ sourceDDL = k+1;
+ }
+ else
+ {
+ HLTWarning("An trigger debug information data block"
+ " contains data from multiple DDL sources."
+ );
+ }
+ }
}
+ if (sourceDDL != -1 and (sourceDDL < 21 or sourceDDL > 22))
+ {
+ HLTWarning("The source DDL for a trigger debug information data"
+ " block is %d. The expected range for the DDL is [21..22].",
+ sourceDDL
+ );
+ }
+
+ // Add an new empty trigger record since none was found.
+ trigrec = new AliHLTMUONTriggerRecord(
+ 0, 0, 0, 0, 0, sourceDDL
+ );
+ triggerMap[triginfo.fTrigRecId] = trigrec;
+ event.Add(trigrec);
}
+ else
+ {
+ for (Int_t j = 0; j < 4; ++j)
+ {
+ if (trigrec->DetElemId(j+11) != -1 and triginfo.fDetElemId[j] != trigrec->DetElemId(j+11))
+ {
+ HLTWarning("Found a trigger record with a hit on chamber %d with a different"
+ " detector element ID %d than the debug information %d.",
+ j, trigrec->DetElemId(j+11), triginfo.fDetElemId[j]
+ );
+ }
+ }
+ }
+
+ typedef AliMUONTriggerDDLDecoderEventHandler Handler;
+
+ trigrec->SetDebugInfo(triginfo.fZmiddle, triginfo.fBl);
+
+ UShort_t patternX[4][3] = {
+ {
+ Handler::GetLocalX1(&triginfo.fL0StructPrev),
+ Handler::GetLocalX1(&triginfo.fL0Struct),
+ Handler::GetLocalX1(&triginfo.fL0StructNext)
+ },{
+ Handler::GetLocalX2(&triginfo.fL0StructPrev),
+ Handler::GetLocalX2(&triginfo.fL0Struct),
+ Handler::GetLocalX2(&triginfo.fL0StructNext)
+ },{
+ Handler::GetLocalX3(&triginfo.fL0StructPrev),
+ Handler::GetLocalX3(&triginfo.fL0Struct),
+ Handler::GetLocalX3(&triginfo.fL0StructNext)
+ },{
+ Handler::GetLocalX4(&triginfo.fL0StructPrev),
+ Handler::GetLocalX4(&triginfo.fL0Struct),
+ Handler::GetLocalX4(&triginfo.fL0StructNext)
+ }
+ };
+ UShort_t patternY[4][3] = {
+ {
+ Handler::GetLocalY1(&triginfo.fL0StructPrev),
+ Handler::GetLocalY1(&triginfo.fL0Struct),
+ Handler::GetLocalY1(&triginfo.fL0StructNext)
+ },{
+ Handler::GetLocalY2(&triginfo.fL0StructPrev),
+ Handler::GetLocalY2(&triginfo.fL0Struct),
+ Handler::GetLocalY2(&triginfo.fL0StructNext)
+ },{
+ Handler::GetLocalY3(&triginfo.fL0StructPrev),
+ Handler::GetLocalY3(&triginfo.fL0Struct),
+ Handler::GetLocalY3(&triginfo.fL0StructNext)
+ },{
+ Handler::GetLocalY4(&triginfo.fL0StructPrev),
+ Handler::GetLocalY4(&triginfo.fL0Struct),
+ Handler::GetLocalY4(&triginfo.fL0StructNext)
+ }
+ };
- // Now try find the hits in 'event'.
- // If they cannot be found then create new ones.
- const AliHLTMUONRecHit* hit7 = NULL;
- const AliHLTMUONRecHit* hit8 = NULL;
- const AliHLTMUONRecHit* hit9 = NULL;
- const AliHLTMUONRecHit* hit10 = NULL;
+ for (Int_t j = 0; j < 4; ++j)
+ {
+ trigrec->SetHitDebugInfo(j+11, patternX[j], patternY[j]);
+ }
+ }
+ }
+
+ std::map<AliHLTInt32_t, AliHLTMUONRecHit*> clusterMap;
+
+ // We need to check if there are any cluster data blocks and add their
+ // information to the AliHLTMUONRecHit objects.
+ for (block = GetFirstInputBlock(AliHLTMUONConstants::ClusterBlockDataType());
+ block != NULL;
+ block = GetNextInputBlock()
+ )
+ {
+ specification |= block->fSpecification;
+ AliHLTMUONClustersBlockReader inblock(block->fPtr, block->fSize);
+ if (not BlockStructureOk(inblock))
+ {
+ if (DumpDataOnError()) DumpEvent(evtData, trigData);
+ continue;
+ }
+
+ for (AliHLTUInt32_t n = 0; n < inblock.Nentries(); n++)
+ {
+ const AliHLTMUONClusterStruct& clust = inblock[n];
+
+ AliHLTUInt8_t chamber;
+ AliHLTUInt16_t detElemId;
+ AliHLTMUONUtils::UnpackRecHitFlags(clust.fHit.fFlags, chamber, detElemId);
+ if (clust.fDetElemId != detElemId)
+ {
+ HLTWarning("Found a cluster with a different detector element ID (%d)"
+ " from its corresponding hit (x,y,z = %f,%f,%f and detElemId = %d).",
+ clust.fDetElemId,
+ clust.fHit.fX, clust.fHit.fY, clust.fHit.fZ,
+ detElemId
+ );
+ }
+
+ // Try find the corresponding reconstructed hit in 'event'.
+ AliHLTMUONRecHit* hit = NULL;
for (Int_t k = 0; k < event.Array().GetEntriesFast(); k++)
{
if (event.Array()[k]->IsA() != AliHLTMUONRecHit::Class())
continue;
- const AliHLTMUONRecHit* h =
- static_cast<const AliHLTMUONRecHit*>(event.Array()[k]);
-
- if (hitset[0] and h->X() == t.fHit[0].fX and h->Y() == t.fHit[0].fY
- and h->Z() == t.fHit[0].fZ)
+ AliHLTMUONRecHit* h = static_cast<AliHLTMUONRecHit*>(event.Array()[k]);
+ if (h->DetElemId() == detElemId and h->X() == clust.fHit.fX
+ and h->Y() == clust.fHit.fY and h->Z() == clust.fHit.fZ)
{
- hit7 = h;
- }
- if (hitset[1] and h->X() == t.fHit[1].fX and h->Y() == t.fHit[1].fY
- and h->Z() == t.fHit[1].fZ)
- {
- hit8 = h;
+ hit = h;
+ break;
}
- if (hitset[2] and h->X() == t.fHit[2].fX and h->Y() == t.fHit[2].fY
- and h->Z() == t.fHit[2].fZ)
+ }
+
+ // If we could not find the corresponding hit then we need to create
+ // a new hit object, otherwise we can just append the information.
+ if (hit == NULL)
+ {
+ // Decode the source DDL from the specification bits.
+ Int_t sourceDDL = -1;
+ bool ddl[22];
+ AliHLTMUONUtils::UnpackSpecBits(block->fSpecification, ddl);
+ for (int k = 0; k < 22; k++)
{
- hit9 = h;
+ if (ddl[k])
+ {
+ if (sourceDDL == -1)
+ {
+ sourceDDL = k+1;
+ }
+ else
+ {
+ HLTWarning("An input block of cluster data contains"
+ " data from multiple DDL sources."
+ );
+ }
+ }
}
- if (hitset[3] and h->X() == t.fHit[3].fX and h->Y() == t.fHit[3].fY
- and h->Z() == t.fHit[3].fZ)
+ if (sourceDDL > 20)
{
- hit10 = h;
+ HLTWarning("The source DDL of a cluster data input block is %d."
+ " The expected range for the DDL is [1..20].",
+ sourceDDL
+ );
}
+ hit = new AliHLTMUONRecHit(
+ clust.fHit.fX, clust.fHit.fY, clust.fHit.fZ,
+ sourceDDL, detElemId
+ );
+ event.Add(hit);
}
- AliHLTMUONRecHit* newhit;
- if (hitset[0] and hit7 == NULL)
+ else
{
- newhit = new AliHLTMUONRecHit(t.fHit[0].fX, t.fHit[0].fY, t.fHit[0].fZ);
- event.Add(newhit);
- hit7 = newhit;
+ hit->SetDebugInfo(
+ detElemId, clust.fId,
+ clust.fNchannelsB, clust.fNchannelsNB,
+ clust.fChargeB, clust.fChargeNB,
+ hit->SourceDDL()
+ );
}
- if (hitset[1] and hit8 == NULL)
+
+ clusterMap[clust.fId] = hit;
+ }
+ }
+
+ // We need to check if there are any channel data blocks and add their
+ // information to the AliHLTMUONRecHit objects.
+ for (block = GetFirstInputBlock(AliHLTMUONConstants::ChannelBlockDataType());
+ block != NULL;
+ block = GetNextInputBlock()
+ )
+ {
+ specification |= block->fSpecification;
+ AliHLTMUONChannelsBlockReader inblock(block->fPtr, block->fSize);
+ if (not BlockStructureOk(inblock))
+ {
+ if (DumpDataOnError()) DumpEvent(evtData, trigData);
+ continue;
+ }
+
+ for (AliHLTUInt32_t n = 0; n < inblock.Nentries(); n++)
+ {
+ const AliHLTMUONChannelStruct& channel = inblock[n];
+
+ AliHLTMUONRecHit* hit = clusterMap[channel.fClusterId];
+ if (hit == NULL)
{
- newhit = new AliHLTMUONRecHit(t.fHit[1].fX, t.fHit[1].fY, t.fHit[1].fZ);
- event.Add(newhit);
- hit8 = newhit;
+ // Decode the source DDL from the specification bits.
+ Int_t sourceDDL = -1;
+ bool ddl[22];
+ AliHLTMUONUtils::UnpackSpecBits(block->fSpecification, ddl);
+ for (int k = 0; k < 22; k++)
+ {
+ if (ddl[k])
+ {
+ if (sourceDDL == -1)
+ {
+ sourceDDL = k+1;
+ }
+ else
+ {
+ HLTWarning("An input block of cluster data contains"
+ " data from multiple DDL sources."
+ );
+ }
+ }
+ }
+ if (sourceDDL > 20)
+ {
+ HLTWarning("The source DDL of a cluster data input block is %d."
+ " The expected range for the DDL is [1..20].",
+ sourceDDL
+ );
+ }
+ hit = new AliHLTMUONRecHit(0, 0, 0, sourceDDL, -1);
+ event.Add(hit);
}
- if (hitset[2] and hit9 == NULL)
+
+ hit->AddChannel(
+ channel.fBusPatch, channel.fManu,
+ channel.fChannelAddress, channel.fSignal,
+ channel.fRawDataWord
+ );
+ }
+ }
+
+ // Now we can look for tracks to add. We needed the ROOT trigger records
+ // and reco hits created before we can create track objects.
+
+ std::map<AliHLTInt32_t, AliHLTMUONTrack*> trackMap;
+
+ for (block = GetFirstInputBlock(AliHLTMUONConstants::TracksBlockDataType());
+ block != NULL;
+ block = GetNextInputBlock()
+ )
+ {
+ specification |= block->fSpecification;
+ AliHLTMUONTracksBlockReader inblock(block->fPtr, block->fSize);
+ if (not BlockStructureOk(inblock))
+ {
+ if (DumpDataOnError()) DumpEvent(evtData, trigData);
+ continue;
+ }
+
+ for (AliHLTUInt32_t n = 0; n < inblock.Nentries(); n++)
+ {
+ const AliHLTMUONTrackStruct& t = inblock[n];
+ trackMap[t.fId] = AddTrack(event, t);
+ }
+ }
+
+ std::map<AliHLTInt32_t, AliHLTMUONMansoTrack*> mansoTrackMap;
+
+ for (block = GetFirstInputBlock(AliHLTMUONConstants::MansoTracksBlockDataType());
+ block != NULL;
+ block = GetNextInputBlock()
+ )
+ {
+ specification |= block->fSpecification;
+ AliHLTMUONMansoTracksBlockReader inblock(block->fPtr, block->fSize);
+ if (not BlockStructureOk(inblock))
+ {
+ if (DumpDataOnError()) DumpEvent(evtData, trigData);
+ continue;
+ }
+
+ for (AliHLTUInt32_t n = 0; n < inblock.Nentries(); n++)
+ {
+ const AliHLTMUONMansoTrackStruct& t = inblock[n];
+ mansoTrackMap[t.fId] = AddTrack(event, t);
+ }
+ }
+
+ // Look for Manso track candidates to add the debug info to the tracks.
+ for (block = GetFirstInputBlock(AliHLTMUONConstants::MansoCandidatesBlockDataType());
+ block != NULL;
+ block = GetNextInputBlock()
+ )
+ {
+ specification |= block->fSpecification;
+ AliHLTMUONMansoCandidatesBlockReader inblock(block->fPtr, block->fSize);
+ if (not BlockStructureOk(inblock))
+ {
+ if (DumpDataOnError()) DumpEvent(evtData, trigData);
+ continue;
+ }
+
+ for (AliHLTUInt32_t n = 0; n < inblock.Nentries(); n++)
+ {
+ const AliHLTMUONMansoCandidateStruct& tc = inblock[n];
+ AliHLTMUONMansoTrack* mtrack = mansoTrackMap[tc.fTrack.fId];
+ if (mtrack == NULL)
{
- newhit = new AliHLTMUONRecHit(t.fHit[2].fX, t.fHit[2].fY, t.fHit[2].fZ);
- event.Add(newhit);
- hit9 = newhit;
+ // If we got here then we could not find the corresponding Manso
+ // track. So we need to create and add a new track object.
+ mtrack = AddTrack(event, tc.fTrack);
}
- if (hitset[3] and hit10 == NULL)
+ mtrack->SetDebugData(tc.fZmiddle, tc.fBl);
+ for (AliHLTUInt32_t i = 0; i < 4; ++i)
{
- newhit = new AliHLTMUONRecHit(t.fHit[3].fX, t.fHit[3].fY, t.fHit[3].fZ);
- event.Add(newhit);
- hit10 = newhit;
+ if (tc.fRoI[i] == AliHLTMUONConstants::NilMansoRoIStruct()) continue;
+ mtrack->SetRoI(i+7, tc.fRoI[i].fX, tc.fRoI[i].fY, tc.fRoI[i].fZ, tc.fRoI[i].fRadius);
}
-
- AliHLTMUONMansoTrack* tr = new AliHLTMUONMansoTrack(
- t.fId, sign, t.fPx, t.fPy, t.fPz, t.fChi2,
- trigrec, hit7, hit8, hit9, hit10
- );
- event.Add(tr);
}
}
bool highPt, lowPt;
AliHLTMUONUtils::UnpackTrackDecisionBits(t.fTriggerBits, highPt, lowPt);
- // Try find the corresponding track in the 'event'.
- const AliHLTMUONMansoTrack* track = NULL;
- for (Int_t k = 0; k < event.Array().GetEntriesFast(); k++)
- {
- if (event.Array()[k]->IsA() != AliHLTMUONMansoTrack::Class())
- continue;
- const AliHLTMUONMansoTrack* tk =
- static_cast<const AliHLTMUONMansoTrack*>(event.Array()[k]);
- if (tk->Id() == t.fTrackId)
- {
- track = tk;
- break;
- }
- }
+ // Try find the corresponding track.
+ const TObject* track = trackMap[t.fTrackId];
+ if (track == NULL) track = mansoTrackMap[t.fTrackId];
// If the track was not found then create a dummy one.
if (track == NULL)
AliHLTMUONMansoTrack* tr = new AliHLTMUONMansoTrack(t.fTrackId);
event.Add(tr);
track = tr;
+ mansoTrackMap[t.fTrackId] = tr;
}
new (singlesDecisions[singlesDecisions.GetEntriesFast()])
highPtCount, lowPtCount
);
- // Try find the corresponding tracks in the 'event'.
- const AliHLTMUONMansoTrack* trackA = NULL;
- const AliHLTMUONMansoTrack* trackB = NULL;
- for (Int_t k = 0; k < event.Array().GetEntriesFast(); k++)
- {
- if (event.Array()[k]->IsA() != AliHLTMUONMansoTrack::Class())
- continue;
- const AliHLTMUONMansoTrack* tk =
- static_cast<const AliHLTMUONMansoTrack*>(event.Array()[k]);
- if (tk->Id() == t.fTrackAId) trackA = tk;
- if (tk->Id() == t.fTrackBId) trackB = tk;
- if (trackA != NULL and trackB != NULL) break;
- }
+ // Try find the corresponding tracks.
+ const TObject* trackA = trackMap[t.fTrackAId];
+ if (trackA == NULL) trackA = mansoTrackMap[t.fTrackAId];
+ const TObject* trackB = trackMap[t.fTrackBId];
+ if (trackB == NULL) trackB = mansoTrackMap[t.fTrackBId];
// If either of the tracks was not found then create a dummy one.
if (trackA == NULL)
AliHLTMUONMansoTrack* tr = new AliHLTMUONMansoTrack(t.fTrackAId);
event.Add(tr);
trackA = tr;
+ mansoTrackMap[t.fTrackAId] = tr;
}
if (trackB == NULL)
{
AliHLTMUONMansoTrack* tr = new AliHLTMUONMansoTrack(t.fTrackBId);
event.Add(tr);
trackB = tr;
+ mansoTrackMap[t.fTrackBId] = tr;
}
new (pairsDecisions[pairsDecisions.GetEntriesFast()])
}
}
-
// Do not add the decision if no decision blocks were found.
if (decisionBlockFound)
{
return 0;
}
+
+AliHLTMUONMansoTrack* AliHLTMUONRootifierComponent::AddTrack(
+ AliHLTMUONEvent& event, const AliHLTMUONMansoTrackStruct& track
+ )
+{
+ // Converts the track structure and adds it to the event object.
+
+ AliHLTMUONParticleSign sign;
+ bool hitset[4];
+ AliHLTMUONUtils::UnpackMansoTrackFlags(
+ track.fFlags, sign, hitset
+ );
+
+ // Try find the trigger record in 'event'.
+ const AliHLTMUONTriggerRecord* trigrec = NULL;
+ for (Int_t k = 0; k < event.Array().GetEntriesFast(); k++)
+ {
+ if (event.Array()[k]->IsA() != AliHLTMUONTriggerRecord::Class())
+ continue;
+ const AliHLTMUONTriggerRecord* tk =
+ static_cast<const AliHLTMUONTriggerRecord*>(event.Array()[k]);
+ if (tk->Id() == track.fTrigRec)
+ {
+ trigrec = tk;
+ break;
+ }
+ }
+
+ // Now try find the hits in 'event'.
+ // If they cannot be found then create new ones.
+ const AliHLTMUONRecHit* hit7 = NULL;
+ const AliHLTMUONRecHit* hit8 = NULL;
+ const AliHLTMUONRecHit* hit9 = NULL;
+ const AliHLTMUONRecHit* hit10 = NULL;
+ for (Int_t k = 0; k < event.Array().GetEntriesFast(); k++)
+ {
+ if (event.Array()[k]->IsA() != AliHLTMUONRecHit::Class())
+ continue;
+ const AliHLTMUONRecHit* h =
+ static_cast<const AliHLTMUONRecHit*>(event.Array()[k]);
+
+ if (hitset[0] and h->X() == track.fHit[0].fX and h->Y() == track.fHit[0].fY
+ and h->Z() == track.fHit[0].fZ)
+ {
+ hit7 = h;
+ }
+ if (hitset[1] and h->X() == track.fHit[1].fX and h->Y() == track.fHit[1].fY
+ and h->Z() == track.fHit[1].fZ)
+ {
+ hit8 = h;
+ }
+ if (hitset[2] and h->X() == track.fHit[2].fX and h->Y() == track.fHit[2].fY
+ and h->Z() == track.fHit[2].fZ)
+ {
+ hit9 = h;
+ }
+ if (hitset[3] and h->X() == track.fHit[3].fX and h->Y() == track.fHit[3].fY
+ and h->Z() == track.fHit[3].fZ)
+ {
+ hit10 = h;
+ }
+ }
+ AliHLTMUONRecHit* newhit;
+ if (hitset[0] and hit7 == NULL)
+ {
+ newhit = new AliHLTMUONRecHit(track.fHit[0].fX, track.fHit[0].fY, track.fHit[0].fZ);
+ event.Add(newhit);
+ hit7 = newhit;
+ }
+ if (hitset[1] and hit8 == NULL)
+ {
+ newhit = new AliHLTMUONRecHit(track.fHit[1].fX, track.fHit[1].fY, track.fHit[1].fZ);
+ event.Add(newhit);
+ hit8 = newhit;
+ }
+ if (hitset[2] and hit9 == NULL)
+ {
+ newhit = new AliHLTMUONRecHit(track.fHit[2].fX, track.fHit[2].fY, track.fHit[2].fZ);
+ event.Add(newhit);
+ hit9 = newhit;
+ }
+ if (hitset[3] and hit10 == NULL)
+ {
+ newhit = new AliHLTMUONRecHit(track.fHit[3].fX, track.fHit[3].fY, track.fHit[3].fZ);
+ event.Add(newhit);
+ hit10 = newhit;
+ }
+
+ AliHLTMUONMansoTrack* tr = new AliHLTMUONMansoTrack(
+ track.fId, sign, track.fPx, track.fPy, track.fPz, track.fChi2,
+ trigrec, hit7, hit8, hit9, hit10
+ );
+ event.Add(tr);
+ return tr;
+}
+
+
+AliHLTMUONTrack* AliHLTMUONRootifierComponent::AddTrack(
+ AliHLTMUONEvent& event, const AliHLTMUONTrackStruct& track
+ )
+{
+ // Converts the track structure and adds it to the event object.
+
+ AliHLTMUONParticleSign sign;
+ bool hitset[16];
+ AliHLTMUONUtils::UnpackTrackFlags(
+ track.fFlags, sign, hitset
+ );
+
+ // Try find the trigger record in 'event'.
+ const AliHLTMUONTriggerRecord* trigrec = NULL;
+ for (Int_t k = 0; k < event.Array().GetEntriesFast(); k++)
+ {
+ if (event.Array()[k]->IsA() != AliHLTMUONTriggerRecord::Class())
+ continue;
+ const AliHLTMUONTriggerRecord* tk =
+ static_cast<const AliHLTMUONTriggerRecord*>(event.Array()[k]);
+ if (tk->Id() == track.fTrigRec)
+ {
+ trigrec = tk;
+ break;
+ }
+ }
+
+ // Now try find the hits in 'event'.
+ // If they cannot be found then create new ones.
+ const AliHLTMUONRecHit* hits[16];
+ for (int i = 0; i < 16; ++i) hits[i] = NULL;
+ for (Int_t k = 0; k < event.Array().GetEntriesFast(); k++)
+ {
+ if (event.Array()[k]->IsA() != AliHLTMUONRecHit::Class())
+ continue;
+ const AliHLTMUONRecHit* h =
+ static_cast<const AliHLTMUONRecHit*>(event.Array()[k]);
+ for (int i = 0; i < 16; ++i)
+ {
+ if (hitset[i] and h->X() == track.fHit[i].fX and h->Y() == track.fHit[i].fY
+ and h->Z() == track.fHit[i].fZ)
+ {
+ hits[i] = h;
+ }
+ }
+ }
+ AliHLTMUONRecHit* newhit;
+ for (int i = 0; i < 16; ++i)
+ {
+ if (hitset[i] and hits[i] == NULL)
+ {
+ newhit = new AliHLTMUONRecHit(track.fHit[i].fX, track.fHit[i].fY, track.fHit[i].fZ);
+ event.Add(newhit);
+ hits[i] = newhit;
+ }
+ }
+
+ AliHLTMUONTrack* tr = new AliHLTMUONTrack(
+ track.fId, sign, track.fPx, track.fPy, track.fPz,
+ track.fInverseBendingMomentum, track.fThetaX, track.fThetaY,
+ track.fX, track.fY, track.fZ, track.fChi2,
+ trigrec, hits
+ );
+ event.Add(tr);
+ return tr;
+}