// $Id$
//**************************************************************************
-//* This file is property of and copyright by the ALICE HLT Project *
+//* This file is property of and copyright by the ALICE Project *
//* ALICE Experiment at CERN, All rights reserved. *
//* *
//* Primary Authors: Matthias Richter <Matthias.Richter@ift.uib.no> *
, fVerbosity(0)
, fClusters(NULL)
, fCurrentSector(-1)
+ , fpDecoder(NULL)
{
// see header file for class documentation
// or
delete fClusters;
fClusters=NULL;
}
+ if (fpDecoder) {
+ fpDecoder->Clear();
+ delete fpDecoder;
+ fpDecoder=NULL;
+ }
}
void AliHLTTPCClusterAccessHLTOUT::Execute(const char *method, const char *params, Int_t *error)
AliError(Form("can not get cluster array for sector %d", sector));
return -ENOBUFS;
}
+ if (fVerbosity>0) AliInfo(Form("converted %d cluster(s) for sector %d", pArray->GetEntriesFast() ,sector));
return pArray->GetEntriesFast();
}
return -EACCES;
}
+ if (!fpDecoder) {
+ fpDecoder=new AliHLTTPCDataCompressionDecoder;
+ }
+
+ if (!fpDecoder) {
+ AliError("failed to create decoder instance");
+ return -ENODEV;
+ }
+
+ AliHLTTPCDataCompressionDecoder& decoder=*fpDecoder;
+ decoder.Clear();
+ decoder.SetVerbosity(fVerbosity);
+ decoder.EnableClusterMerger();
+
bool bNextBlock=false;
- bool bHaveLabels=false;
- bool bHaveIds=false;
// add cluster id and mc information data blocks
for (bNextBlock=(pHLTOUT->SelectFirstDataBlock()>=0);
bNextBlock; bNextBlock=(pHLTOUT->SelectNextDataBlock()>=0)) {
}
if (desc.fDataType==AliHLTTPCDefinitions::AliHLTDataTypeClusterMCInfo()) {
// add mc information
- if ((iResult=fClusters->AddClusterMCData(&desc))<0) {
+ if ((iResult=decoder.AddClusterMCData(&desc))<0) {
return iResult;
}
- bHaveLabels=true;
}
if (desc.fDataType==AliHLTTPCDefinitions::RemainingClusterIdsDataType() ||
desc.fDataType==AliHLTTPCDefinitions::ClusterIdTracksDataType()) {
// add cluster ids
- if ((iResult=fClusters->AddClusterIds(&desc))<0) {
+ if ((iResult=decoder.AddClusterIds(&desc))<0) {
return iResult;
}
- bHaveIds=true;
}
}
+ bool bHavePartitionRawData=false;
+ bool bHavePartitionCompressedData=false;
+ vector<bool> bHavePartitionData(216, false);
+
// read data
iResult=-ENODATA;
- AliHLTTPCDataCompressionDecoder decoder;
+ int nExtractedClusters=0;
for (bNextBlock=(pHLTOUT->SelectFirstDataBlock()>=0);
bNextBlock; bNextBlock=(pHLTOUT->SelectNextDataBlock()>=0)) {
+ decoder.SetPadShift(0.0);
AliHLTComponentBlockData desc;
// FIXME: extend HLTOUT to get the full descriptor with one call
const AliHLTUInt8_t* buffer=NULL;
continue;
}
if (!TestBit(kSkipPartitionClusters) &&
- (desc.fDataType==AliHLTTPCDefinitions::RemainingClustersCompressedDataType() ||
- desc.fDataType==AliHLTTPCDefinitions::RawClustersDataType())) {
+ (desc.fDataType==AliHLTTPCDefinitions::RawClustersDataType())) {
+ // This is a special handling of data blocks produced with v5-01-Release
+ // The pad shift by 0.5 was not included in the data but was applied in the
+ // unpacking in this class. Changed in r51306, the next tag containing this
+ // change in the online system is v5-01-Rev-07. There are only very few runs
+ // of Sep 2011 with recorded clusters not containing the 0.5 shift
+ // There was also a chenge in the data type of the compressed partition
+ // cluster blocks which helps to identify the blocks which need the pad shift
+ // here
+ if (desc.fSize<sizeof(AliHLTTPCRawClusterData)) continue;
+ const AliHLTTPCRawClusterData* clusterData = reinterpret_cast<const AliHLTTPCRawClusterData*>(buffer);
+ if (!clusterData) continue;
+ if (clusterData->fVersion==1) {
+ // compressed clusters without the pad shift
+ // no raw clusters (version==0) have ever been recorded
+ decoder.SetPadShift(0.5);
+ }
+ AliHLTUInt8_t slice = AliHLTTPCDefinitions::GetMinSliceNr(desc.fSpecification);
+ AliHLTUInt8_t partition = AliHLTTPCDefinitions::GetMinPatchNr(desc.fSpecification);
+ if (slice!=AliHLTTPCDefinitions::GetMaxSliceNr(desc.fSpecification) ||
+ partition!=AliHLTTPCDefinitions::GetMaxPatchNr(desc.fSpecification)) {
+ AliFatal(Form("inconsistent cluster data: can not handle blocks containing multiple partitions, "
+ "block specification 0x%08x", desc.fSpecification));
+ }
+ iResult=decoder.ReadClustersPartition(fClusters->BeginRemainingClusterBlock(0, desc.fSpecification),
+ reinterpret_cast<AliHLTUInt8_t*>(desc.fPtr),
+ desc.fSize,
+ desc.fSpecification);
+ if (iResult>=0) nExtractedClusters+=iResult;
+ else {
+ AliFatal(Form("processing of cluster block 0x%08x failed with error code %d", desc.fSpecification, iResult));
+ }
+ unsigned index=slice*AliHLTTPCTransform::GetNumberOfPatches()+partition;
+ if (index>=bHavePartitionData.size()) bHavePartitionData.resize(index, false);
+ if (bHavePartitionData[index]) {
+ AliFatal(Form("inconsistent cluster data: multiple data blocks of identical specification indicate a failure "
+ "in the production of the data. Probably an HLT emulation chain is executed in the reconstruction "
+ "and produces data in addition to HLTOUT. Option 'ignore-hltout' is required in that case; "
+ "block specification 0x%08x", desc.fSpecification));
+ }
+ bHavePartitionData[index]=true;
+ if (bHavePartitionCompressedData) {
+ AliFatal(Form("inconsistent cluster data: both compressed and raw cluster blocks present in HLTOUT, indicates a failure "
+ "in the production of the data. Probably an HLT emulation chain is executed in the reconstruction "
+ "and produces data in addition to HLTOUT. Option 'ignore-hltout' is required in that case; "
+ "block specification 0x%08x", desc.fSpecification));
+ }
+ bHavePartitionRawData=true;
+ continue;
+ } else if (!TestBit(kSkipPartitionClusters) &&
+ (desc.fDataType==AliHLTTPCDefinitions::RemainingClustersCompressedDataType())) {
+ AliHLTUInt8_t slice = AliHLTTPCDefinitions::GetMinSliceNr(desc.fSpecification);
+ AliHLTUInt8_t partition = AliHLTTPCDefinitions::GetMinPatchNr(desc.fSpecification);
+ if (slice!=AliHLTTPCDefinitions::GetMaxSliceNr(desc.fSpecification) ||
+ partition!=AliHLTTPCDefinitions::GetMaxPatchNr(desc.fSpecification)) {
+ AliFatal(Form("inconsistent cluster data: can not handle blocks containing multiple partitions, "
+ "block specification 0x%08x", desc.fSpecification));
+ }
iResult=decoder.ReadClustersPartition(fClusters->BeginRemainingClusterBlock(0, desc.fSpecification),
reinterpret_cast<AliHLTUInt8_t*>(desc.fPtr),
desc.fSize,
desc.fSpecification);
+ if (iResult>0) nExtractedClusters+=iResult;
+ unsigned index=slice*AliHLTTPCTransform::GetNumberOfPatches()+partition;
+ if (index>=bHavePartitionData.size()) bHavePartitionData.resize(index, false);
+ if (bHavePartitionData[index]) {
+ AliFatal(Form("inconsistent cluster data: multiple data blocks of identical specification indicate a failure "
+ "in the production of the data. Probably an HLT emulation chain is executed in the reconstruction "
+ "and produces data in addition to HLTOUT. Option 'ignore-hltout' is required in that case; "
+ "block specification 0x%08x", desc.fSpecification));
+ }
+ bHavePartitionData[index]=true;
+ bHavePartitionData[index]=true;
+ if (bHavePartitionRawData) {
+ AliFatal(Form("inconsistent cluster data: both compressed and raw cluster blocks present in HLTOUT, indicates a failure "
+ "in the production of the data. Probably an HLT emulation chain is executed in the reconstruction "
+ "and produces data in addition to HLTOUT. Option 'ignore-hltout' is required in that case; "
+ "block specification 0x%08x", desc.fSpecification));
+ }
+ bHavePartitionCompressedData=true;
continue;
} else if (!TestBit(kSkipTrackClusters) &&
desc.fDataType==AliHLTTPCDefinitions::ClusterTracksCompressedDataType()) {
pSystem->ReleaseHLTOUT(pHLTOUT);
if (iResult<0) return iResult;
+ if (fVerbosity>0) {
+ int nConvertedClusters=0;
+ for (int s=0; s<72; s++) {
+ TObjArray* pArray=fClusters->GetSectorArray(s);
+ if (!pArray) continue;
+ nConvertedClusters+=pArray->GetEntriesFast();
+ }
+ AliInfo(Form("extracted HLT clusters: %d, converted HLT clusters: %d", nExtractedClusters, nConvertedClusters));
+ }
+
fCurrentSector=sector;
TObjArray* pArray=fClusters->GetSectorArray(fCurrentSector);
if (!pArray) {
AliError(Form("can not get cluster array for sector %d", sector));
return -ENOBUFS;
}
+ if (fVerbosity>0) AliInfo(Form("converted %d cluster(s) for sector %d", pArray->GetEntriesFast() ,sector));
return pArray->GetEntriesFast();
}
-int AliHLTTPCClusterAccessHLTOUT::ReadAliHLTTPCClusterMCData(AliHLTOUT* pHLTOUT, AliHLTTPCClusterMCDataList &tpcClusterLabels) const
-{
- // read cluster data from AliHLTTPCClusterData
- int iResult=0;
- if (!pHLTOUT) return -EINVAL;
- do {
- const AliHLTUInt8_t* pBuffer=NULL;
- AliHLTUInt32_t size=0;
- if ((iResult=pHLTOUT->GetDataBuffer(pBuffer, size))<0) {
- continue;
- }
- if (pBuffer==NULL || size<4) {
- AliError("invalid cluster mc data block");
- continue;
- }
- const AliHLTTPCClusterMCData* clusterMCData = reinterpret_cast<const AliHLTTPCClusterMCData*>(pBuffer);
- Int_t nLabels = (Int_t) clusterMCData->fCount;
- if (nLabels*sizeof(AliHLTTPCClusterMCLabel) + sizeof(AliHLTTPCClusterMCData) != size) {
- AliError("inconsistent cluster mc data block size, skipping block");
- continue;
- }
- // id of the cluster is
- AliHLTComponentDataType dt=kAliHLTVoidDataType;
- AliHLTUInt32_t specification=kAliHLTVoidDataSpec;
- if (pHLTOUT->GetDataBlockDescription(dt, specification)<0) {
- AliError("failed to retrieve data block description, skipping mc cluster data block ...");
- continue;
- }
- AliHLTUInt8_t slice = AliHLTTPCDefinitions::GetMinSliceNr(specification);
- AliHLTUInt8_t partition = AliHLTTPCDefinitions::GetMinPatchNr(specification);
- if (slice!=AliHLTTPCDefinitions::GetMaxSliceNr(specification) ||
- partition!=AliHLTTPCDefinitions::GetMaxPatchNr(specification)) {
- AliError(Form("can not read cluster mc data block with data of multiple partitions, skipping block %s %08x",
- AliHLTComponent::DataType2Text(dt).c_str(), specification));
- continue;
- }
- const AliHLTTPCClusterMCLabel *labels = clusterMCData->fLabels;
- for (int i=0; i<nLabels; i++) {
- AliHLTUInt32_t id=AliHLTTPCSpacePointData::GetID(slice, partition, i);
- if (tpcClusterLabels.find(id)==tpcClusterLabels.end()) {
- // new cluster
- tpcClusterLabels[id]=labels[i];
- } else {
- AliError(Form("cluster with ID 0x%08x already existing, skipping cluster %d of data block 0x%08x",
- id, i, specification));
- }
- }
- } while (pHLTOUT->SelectNextDataBlock()>=0);
- return iResult;
-}
-
-int AliHLTTPCClusterAccessHLTOUT::ReadAliHLTTPCClusterData(AliHLTOUT* pHLTOUT, TClonesArray* pClusters, const AliHLTTPCClusterMCDataList *tpcClusterLabels) const
-{
- // read cluster data from AliHLTTPCClusterData
- int iResult=0;
- if (!pHLTOUT || !pClusters) return -EINVAL;
- do {
- const AliHLTUInt8_t* pBuffer=NULL;
- AliHLTUInt32_t size=0;
- if ((iResult=pHLTOUT->GetDataBuffer(pBuffer, size))<0) {
- continue;
- }
- if (pBuffer==NULL || size<4) {
- AliError("invalid cluster data block");
- continue;
- }
- AliHLTComponentDataType dt=kAliHLTVoidDataType;
- AliHLTUInt32_t specification=kAliHLTVoidDataSpec;
- if (pHLTOUT->GetDataBlockDescription(dt, specification)<0) {
- AliError("failed to retrieve data block description, skipping mc cluster data block ...");
- continue;
- }
- const AliHLTTPCClusterData* clusterData = reinterpret_cast<const AliHLTTPCClusterData*>(pBuffer);
- Int_t nSpacepoints = (Int_t) clusterData->fSpacePointCnt;
- if (nSpacepoints*sizeof(AliHLTTPCSpacePointData) + sizeof(AliHLTTPCClusterData) != size) {
- AliError("inconsistent cluster data block size, skipping block");
- continue;
- }
- const AliHLTTPCSpacePointData *clusters = clusterData->fSpacePoints;
- int offset=pClusters->GetEntries();
- pClusters->ExpandCreate(offset+nSpacepoints);
- AliHLTUInt8_t slice = AliHLTTPCDefinitions::GetMinSliceNr(specification);
- AliHLTUInt8_t partition = AliHLTTPCDefinitions::GetMinPatchNr(specification);
- // FIXME: get first row number of outer sectors from a common definition instead using number
- unsigned rowOffset=partition<2?0:63;
- for (int i=0; i<nSpacepoints; i++) {
- if (!pClusters->At(offset+i)) continue;
- AliTPCclusterMI* pCluster=dynamic_cast<AliTPCclusterMI*>(pClusters->At(offset+i));
- if (!pCluster) {
- AliError("invalid object type, expecting AliTPCclusterMI");
- break; // this is a problem of all objects
- }
- if (clusters[i].fPadRow<rowOffset) {
- AliError(Form("invalid row number %d, expecting minimum row number %d for slice %d partition %d", clusters[i].fPadRow, rowOffset, slice, partition));
- } else {
- pCluster->SetRow(clusters[i].fPadRow-rowOffset);
- }
- pCluster->SetPad(clusters[i].fY);
- pCluster->SetTimeBin(clusters[i].fZ);
- pCluster->SetSigmaY2(clusters[i].fSigmaY2);
- pCluster->SetSigmaZ2(clusters[i].fSigmaZ2);
- pCluster->SetQ(clusters[i].fCharge);
- pCluster->SetMax(clusters[i].fQMax);
- if (tpcClusterLabels) {
- if (tpcClusterLabels->find(clusters[i].fID)!=tpcClusterLabels->end()) {
- const AliHLTTPCClusterMCWeight* mcWeights=tpcClusterLabels->find(clusters[i].fID)->second.fClusterID;
- for (int k=0; k<3; k++) {
- // TODO: sort the labels according to the weight in order to assign the most likely mc label
- // to the first component
- pCluster->SetLabel(mcWeights[k].fMCID, k);
- }
- } else {
- AliError(Form("can not find mc label of cluster with id %0x08x", clusters[i].fID));
- }
- }
- }
- if (fVerbosity>0) AliInfo(Form("converted %d cluster(s) from block %s 0x%08x", nSpacepoints, AliHLTComponent::DataType2Text(dt).c_str(), specification));
- } while (pHLTOUT->SelectNextDataBlock()>=0);
- return iResult;
-}
-
-int AliHLTTPCClusterAccessHLTOUT::ReadAliHLTTPCRawClusterData(AliHLTOUT* pHLTOUT, TClonesArray* pClusters, const AliHLTTPCClusterMCDataList *tpcClusterLabels)
-{
- // read cluster data from AliHLTTPCClusterData
-
- // FIXME: this is in large parts like ReadAliHLTTPCClusterData,
- // make a common method
- int iResult=0;
- if (!pHLTOUT || !pClusters) return -EINVAL;
- do {
- const AliHLTUInt8_t* pBuffer=NULL;
- AliHLTUInt32_t size=0;
- if ((iResult=pHLTOUT->GetDataBuffer(pBuffer, size))<0) {
- continue;
- }
- if (pBuffer==NULL || size<4) {
- AliError("invalid cluster data block");
- continue;
- }
- AliHLTComponentDataType dt=kAliHLTVoidDataType;
- AliHLTUInt32_t specification=kAliHLTVoidDataSpec;
- if (pHLTOUT->GetDataBlockDescription(dt, specification)<0) {
- AliError("failed to retrieve data block description, skipping mc cluster data block ...");
- continue;
- }
- const AliHLTTPCRawClusterData* clusterData = reinterpret_cast<const AliHLTTPCRawClusterData*>(pBuffer);
- Int_t nCount = (Int_t) clusterData->fCount;
- if (clusterData->fVersion!=0) {
- // this is encoded data of different formats
- switch (clusterData->fVersion) {
- case 1:
- iResult=ReadAliHLTTPCRawClusterDataDeflateSimple(reinterpret_cast<const AliHLTUInt8_t*>(clusterData->fClusters),
- size-sizeof(AliHLTTPCRawClusterData), nCount, specification,
- pClusters, tpcClusterLabels);
- break;
- default:
- iResult=-EPROTO;
- }
- return iResult;
- }
-
- if (nCount*sizeof(AliHLTTPCRawCluster) + sizeof(AliHLTTPCRawClusterData) != size) {
- AliError("inconsistent cluster data block size, skipping block");
- continue;
- }
- const AliHLTTPCRawCluster *clusters = clusterData->fClusters;
- int offset=pClusters->GetEntries();
- pClusters->ExpandCreate(offset+nCount);
- AliHLTUInt8_t slice = AliHLTTPCDefinitions::GetMinSliceNr(specification);
- AliHLTUInt8_t partition = AliHLTTPCDefinitions::GetMinPatchNr(specification);
- // FIXME: get first row number of outer sectors from a common definition instead using number
- int rowOffset=partition<2?0:63;
- for (int i=0; i<nCount; i++) {
- if (!pClusters->At(offset+i)) continue;
- AliTPCclusterMI* pCluster=dynamic_cast<AliTPCclusterMI*>(pClusters->At(offset+i));
- if (!pCluster) {
- AliError("invalid object type, expecting AliTPCclusterMI");
- break; // this is a problem of all objects
- }
- if (fVerbosity>1) AliInfo(Form("cluster padrow %d (slice %d partition %d)", clusters[i].GetPadRow(), slice, partition));
- if (clusters[i].GetPadRow()<rowOffset) {
- AliError(Form("invalid row number %d, expecting minimum row number %d for slice %d partition %d", clusters[i].GetPadRow(), rowOffset, slice, partition));
- } else {
- pCluster->SetRow(clusters[i].GetPadRow()-rowOffset);
- }
- pCluster->SetPad(clusters[i].GetPad());
- pCluster->SetTimeBin(clusters[i].GetTime());
- pCluster->SetSigmaY2(clusters[i].GetSigmaY2());
- pCluster->SetSigmaZ2(clusters[i].GetSigmaZ2());
- pCluster->SetQ(clusters[i].GetCharge());
- pCluster->SetMax(clusters[i].GetQMax());
- if (tpcClusterLabels) {
- UInt_t clusterID=AliHLTTPCSpacePointData::GetID(slice, partition, i);
- if (tpcClusterLabels->find(clusterID)!=tpcClusterLabels->end()) {
- const AliHLTTPCClusterMCWeight* mcWeights=tpcClusterLabels->find(clusterID)->second.fClusterID;
- for (int k=0; k<3; k++) {
- // TODO: sort the labels according to the weight in order to assign the most likely mc label
- // to the first component
- pCluster->SetLabel(mcWeights[k].fMCID, k);
- }
- } else {
- AliError(Form("can not find mc label of cluster with id %0x08x", clusterID));
- }
- }
- }
- if (fVerbosity>0) AliInfo(Form("converted %d cluster(s) from block %s 0x%08x", nCount, AliHLTComponent::DataType2Text(dt).c_str(), specification));
- } while (pHLTOUT->SelectNextDataBlock()>=0);
- return iResult;
-}
-
-int AliHLTTPCClusterAccessHLTOUT::ReadRemainingClustersCompressed(AliHLTOUT* pHLTOUT, TClonesArray* pClusters, const AliHLTTPCClusterMCDataList *tpcClusterLabels)
-{
- // read cluster data from AliHLTTPCClusterData
- int iResult=0;
- if (!pHLTOUT || !pClusters) return -EINVAL;
- do {
- const AliHLTUInt8_t* pBuffer=NULL;
- AliHLTUInt32_t size=0;
- if ((iResult=pHLTOUT->GetDataBuffer(pBuffer, size))<0) {
- continue;
- }
- if (pBuffer==NULL || size<4) {
- AliError("invalid cluster data block");
- continue;
- }
- AliHLTComponentDataType dt=kAliHLTVoidDataType;
- AliHLTUInt32_t specification=kAliHLTVoidDataSpec;
- if (pHLTOUT->GetDataBlockDescription(dt, specification)<0) {
- AliError("failed to retrieve data block description, skipping mc cluster data block ...");
- continue;
- }
- const AliHLTTPCRawClusterData* clusterData = reinterpret_cast<const AliHLTTPCRawClusterData*>(pBuffer);
- Int_t nCount = (Int_t) clusterData->fCount;
-
- // this is encoded data of different formats
- switch (clusterData->fVersion) {
- case 1:
- iResult=ReadAliHLTTPCRawClusterDataDeflateSimple(reinterpret_cast<const AliHLTUInt8_t*>(clusterData->fClusters),
- size-sizeof(AliHLTTPCRawClusterData), nCount, specification,
- pClusters, tpcClusterLabels);
- break;
- default:
- AliError(Form("invalid cluster format version %d", clusterData->fVersion));
- iResult=-EPROTO;
- }
-
- if (fVerbosity>0) AliInfo(Form("converted %d cluster(s) from block %s 0x%08x", nCount, AliHLTComponent::DataType2Text(dt).c_str(), specification));
- } while (pHLTOUT->SelectNextDataBlock()>=0 && iResult>=0);
-
- return iResult;
-}
-
-int AliHLTTPCClusterAccessHLTOUT::ReadAliHLTTPCRawClusterDataDeflateSimple(const AliHLTUInt8_t* pData, int dataSize,
- int nofClusters, AliHLTUInt32_t specification,
- TClonesArray* pClusters,
- const AliHLTTPCClusterMCDataList *tpcClusterLabels)
-{
- // read cluster data from AliHLTTPCClusterData
-
- // FIXME: quick implementation to read the compressed cluster data from HLTOUT
- // the data definition below is the same as in AliHLTTPCDataCompressionComponent
- // but needs to be moved to a common class (AliHLTTPCDefinitions?)
- // Think about a decoder class supporting iterator objects for various types
- // of cluster data
- int iResult=0;
- if (!pData || !pClusters) return -EINVAL;
- AliHLTDataInflater inflater;
- if ((iResult=inflater.InitBitDataInput(pData, dataSize))<0) {
- return iResult;
- }
-
- int offset=pClusters->GetEntries();
- pClusters->ExpandCreate(offset+nofClusters);
- AliHLTUInt8_t slice = AliHLTTPCDefinitions::GetMinSliceNr(specification);
- AliHLTUInt8_t partition = AliHLTTPCDefinitions::GetMinPatchNr(specification);
- // the compressed format stores the difference of the local row number in
- // the partition to the row of the last cluster
- // add the first row in the partition to get global row number
- // offline uses row number in physical sector, inner sector consists of
- // partitions 0 and 1, outer sector of partition 2-5
- int rowOffset=AliHLTTPCTransform::GetFirstRow(partition)-(partition<2?0:AliHLTTPCTransform::GetFirstRow(2));
-
- int parameterId=0;
- int outClusterCnt=0;
- AliHLTUInt8_t switchBit=0;
- AliHLTUInt64_t value=0;
- AliTPCclusterMI* pCluster=NULL;
- AliHLTUInt32_t lastPadRow=0;
- while (outClusterCnt<nofClusters && inflater.InputBit(switchBit)) {
- const AliHLTTPCDefinitions::AliClusterParameter& parameter
- =AliHLTTPCDefinitions::fgkClusterParameterDefinitions[parameterId];
- // in mode DeflaterSimple, the optional parameter of the cluster parameter definition
- // corresponds to the number bits of the reduced format
- if (!inflater.InputBits(value, switchBit?parameter.fBitLength:parameter.fOptional)) {
- break;
- }
-
- if (!pCluster) {
- if (!pClusters->At(offset+outClusterCnt)) {
- // here we should not get anymore because of the condition outClusterCnt<nofClusters
- return -ENOSPC;
- }
- pCluster=dynamic_cast<AliTPCclusterMI*>(pClusters->At(offset+outClusterCnt));
- if (!pCluster) {
- AliError("invalid object type, expecting AliTPCclusterMI");
- iResult=-EBADF; // this is a problem of all objects
- break;
- }
- }
- switch (parameterId) {
- case AliHLTTPCDefinitions::kPadRow:
- {pCluster->SetRow(value+lastPadRow+rowOffset); lastPadRow+=value;break;}
- case AliHLTTPCDefinitions::kPad:
- {float pad=value; pad/=parameter.fScale; pCluster->SetPad(pad); break;}
- case AliHLTTPCDefinitions::kTime:
- {float time=value; time/=parameter.fScale; pCluster->SetTimeBin(time); break;}
- case AliHLTTPCDefinitions::kSigmaY2:
- {float sigmaY2=value; sigmaY2/=parameter.fScale; pCluster->SetSigmaY2(sigmaY2); break;}
- case AliHLTTPCDefinitions::kSigmaZ2:
- {float sigmaZ2=value; sigmaZ2/=parameter.fScale; pCluster->SetSigmaZ2(sigmaZ2); break;}
- case AliHLTTPCDefinitions::kCharge:
- {pCluster->SetQ(value); break;}
- case AliHLTTPCDefinitions::kQMax:
- {pCluster->SetMax(value); break;}
- }
- if (parameterId>=AliHLTTPCDefinitions::kLast) {
- // switch to next cluster
- if (tpcClusterLabels) {
- UInt_t clusterID=AliHLTTPCSpacePointData::GetID(slice, partition, outClusterCnt);
- if (tpcClusterLabels->find(clusterID)!=tpcClusterLabels->end()) {
- const AliHLTTPCClusterMCWeight* mcWeights=tpcClusterLabels->find(clusterID)->second.fClusterID;
- for (int k=0; k<3; k++) {
- // TODO: sort the labels according to the weight in order to assign the most likely mc label
- // to the first component
- pCluster->SetLabel(mcWeights[k].fMCID, k);
- }
- } else {
- AliError(Form("can not find mc label of cluster with id 0x%08x", clusterID));
- }
- }
- outClusterCnt++;
- pCluster=NULL;
- parameterId=-1;
- }
- parameterId++;
- }
- inflater.Pad8Bits();
- if (inflater.InputBit(switchBit)) {
- AliWarning("format error of compressed clusters, there is more data than expected");
- }
- inflater.CloseBitDataInput();
- if (iResult>=0 && nofClusters!=outClusterCnt) {
- // is this a Fatal?
- AliError(Form("error reading compressed cluster format: expected %d, read only %d cluster(s)", nofClusters, outClusterCnt));
- return -EPROTO;
- }
- return iResult;
-}
-
AliHLTTPCClusterAccessHLTOUT::AliTPCclusterMIContainer::AliTPCclusterMIContainer()
: fClusterArrays()
, fRemainingClusterIds()
return fIterator;
}
-int AliHLTTPCClusterAccessHLTOUT::AliTPCclusterMIContainer::AddClusterMCData(const AliHLTComponentBlockData* pDesc)
-{
- /// add cluster mc data block
- if (!pDesc) return -EINVAL;
- if (pDesc->fDataType==AliHLTTPCDefinitions::AliHLTDataTypeClusterMCInfo()) {
- AliHLTUInt8_t slice=AliHLTTPCDefinitions::GetMinSliceNr(pDesc->fSpecification);
- AliHLTUInt8_t partition=AliHLTTPCDefinitions::GetMinPatchNr(pDesc->fSpecification);
- unsigned index=slice*AliHLTTPCTransform::GetNumberOfPatches()+partition;
- if (fClusterMCData.size()<=index) {
- if ((int)fClusterMCData.size()<AliHLTTPCTransform::GetNSlice()*AliHLTTPCTransform::GetNumberOfPatches()) {
- fClusterMCData.resize(AliHLTTPCTransform::GetNSlice()*AliHLTTPCTransform::GetNumberOfPatches(), NULL);
- } else {
- fClusterMCData.resize(index+1, NULL);
- }
- }
- if (pDesc->fSize<sizeof(AliHLTTPCClusterMCData)) return -EINVAL;
- const AliHLTTPCClusterMCData* pData=reinterpret_cast<const AliHLTTPCClusterMCData*>(pDesc->fPtr);
- unsigned nLabels = pData->fCount;
- if (nLabels*sizeof(AliHLTTPCClusterMCLabel) + sizeof(AliHLTTPCClusterMCData) != pDesc->fSize) {
- return -EINVAL;
- }
- fClusterMCData[index]=pData;
- return 0;
- }
- return -ENODATA;
-}
-
-int AliHLTTPCClusterAccessHLTOUT::AliTPCclusterMIContainer::AddClusterIds(const AliHLTComponentBlockData* pDesc)
-{
- /// add cluster id block for remaining or track model clusters
- if (!pDesc) return -EINVAL;
- if (pDesc->fDataType==AliHLTTPCDefinitions::ClusterIdTracksDataType()) {
- fTrackModelClusterIds.fIds=reinterpret_cast<AliHLTUInt32_t*>(pDesc->fPtr);
- fTrackModelClusterIds.fSize=pDesc->fSize/sizeof(AliHLTUInt32_t);
- return 0;
- }
- if (pDesc->fDataType==AliHLTTPCDefinitions::RemainingClusterIdsDataType()) {
- AliHLTUInt8_t slice=AliHLTTPCDefinitions::GetMinSliceNr(pDesc->fSpecification);
- AliHLTUInt8_t partition=AliHLTTPCDefinitions::GetMinPatchNr(pDesc->fSpecification);
- unsigned index=slice*AliHLTTPCTransform::GetNumberOfPatches()+partition;
- if (fRemainingClusterIds.size()<=index) {
- if ((int)fRemainingClusterIds.size()<AliHLTTPCTransform::GetNSlice()*AliHLTTPCTransform::GetNumberOfPatches()) {
- fRemainingClusterIds.resize(AliHLTTPCTransform::GetNSlice()*AliHLTTPCTransform::GetNumberOfPatches());
- } else {
- fRemainingClusterIds.resize(index+1);
- }
- }
- fRemainingClusterIds[index].fIds=reinterpret_cast<AliHLTUInt32_t*>(pDesc->fPtr);
- fRemainingClusterIds[index].fSize=pDesc->fSize/sizeof(AliHLTUInt32_t);
- return 0;
- }
- return -ENODATA;
-}
-
-AliHLTUInt32_t AliHLTTPCClusterAccessHLTOUT::AliTPCclusterMIContainer::GetClusterId(int clusterNo) const
-{
- /// get the cluster id from the current cluster id block (optional)
- if (!fCurrentClusterIds ||
- (int)fCurrentClusterIds->fSize<=clusterNo ||
- clusterNo<0)
- return kAliHLTVoidDataSpec;
- return fCurrentClusterIds->fIds[clusterNo];
-}
-
AliTPCclusterMI* AliHLTTPCClusterAccessHLTOUT::AliTPCclusterMIContainer::NextCluster(int slice, int partition)
{
/// load next cluster from array of the sepcific sector
return new (array[count]) AliTPCclusterMI;
}
-int AliHLTTPCClusterAccessHLTOUT::AliTPCclusterMIContainer::SetMC(AliTPCclusterMI* pCluster, AliHLTUInt32_t clusterId)
-{
- /// set MC data for the cluster
- if (!pCluster) return -EINVAL;
- if (clusterId==kAliHLTVoidDataSpec) return 0;
-
- unsigned slice=AliHLTTPCSpacePointData::GetSlice(clusterId);
- unsigned partition=AliHLTTPCSpacePointData::GetPatch(clusterId);
- unsigned number=AliHLTTPCSpacePointData::GetNumber(clusterId);
- if ((int)slice>=AliHLTTPCTransform::GetNSlice() ||
- (int)partition>=AliHLTTPCTransform::GetNumberOfPatches()) return -EDOM;
- unsigned index=slice*AliHLTTPCTransform::GetNumberOfPatches()+partition;
- if (fClusterMCData.size()<=index ||
- fClusterMCData[index]==NULL ||
- fClusterMCData[index]->fCount<=number) return 0;
- const AliHLTTPCClusterMCWeight* mcWeights=fClusterMCData[index]->fLabels[number].fClusterID;
- for (int k=0; k<3; k++) {
- // TODO: sort the labels according to the weight in order to assign the most likely mc label
- // to the first component
- pCluster->SetLabel(mcWeights[k].fMCID, k);
- }
-
- return 0;
-}
-
void AliHLTTPCClusterAccessHLTOUT::AliTPCclusterMIContainer::Clear(Option_t* /*option*/)
{
/// internal cleanup
// switch to next cluster
if (!fData) {
fCluster=NULL;
- fClusterId=kAliHLTVoidDataSpec;
return *this;
}
if (fClusterNo>=0 && !fCluster) {
return *this;
}
fCluster=fData->NextCluster(slice, partition);
- fClusterId=fData->GetClusterId(++fClusterNo);
- if (fCluster && fClusterId!=kAliHLTVoidDataSpec) {
- fData->SetMC(fCluster, fClusterId);
- }
// offline uses row number in physical sector, inner sector consists of
// partitions 0 and 1, outer sector of partition 2-5
fRowOffset=partition<2?0:AliHLTTPCTransform::GetFirstRow(2);