// $Id$
-/**************************************************************************
- * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
- * *
- * Authors: Matthias Richter <Matthias.Richter@ift.uib.no> *
- * Timm Steinbeck <timm@kip.uni-heidelberg.de> *
- * for The ALICE Off-line Project. *
- * *
- * Permission to use, copy, modify and distribute this software and its *
- * documentation strictly for non-commercial purposes is hereby granted *
- * without fee, provided that the above copyright notice appears in all *
- * copies and that both the copyright notice and this permission notice *
- * appear in the supporting documentation. The authors make no claims *
- * about the suitability of this software for any purpose. It is *
- * provided "as is" without express or implied warranty. *
- **************************************************************************/
+//**************************************************************************
+//* This file is property of and copyright by the ALICE HLT Project *
+//* ALICE Experiment at CERN, All rights reserved. *
+//* *
+//* Primary Authors: *
+//* for The ALICE HLT Project. *
+//* *
+//* Permission to use, copy, modify and distribute this software and its *
+//* documentation strictly for non-commercial purposes is hereby granted *
+//* without fee, provided that the above copyright notice appears in all *
+//* copies and that both the copyright notice and this permission notice *
+//* appear in the supporting documentation. The authors make no claims *
+//* about the suitability of this software for any purpose. It is *
+//* provided "as is" without express or implied warranty. *
+//**************************************************************************
/** @file AliHLTTRDClusterizerComponent.cxx
- @author Timm Steinbeck, Matthias Richter
+ @author Theodor Rascanu
@date
- @brief A TRDClusterizer processing component for the HLT. */
+ @brief A TRDClusterizer processing component for the HLT.
+*/
// see header file for class documentation //
// or //
#include "AliHLTTRDClusterizerComponent.h"
#include "AliHLTTRDDefinitions.h"
+#include "AliHLTTRDClusterizer.h"
+#include "AliHLTTRDUtils.h"
#include "AliGeomManager.h"
#include "AliTRDReconstructor.h"
#include "AliCDBManager.h"
-#include "AliTRDclusterizerHLT.h"
+#include "AliCDBStorage.h"
+#include "AliCDBEntry.h"
#include "AliTRDrecoParam.h"
-#include "AliTRDrawStreamBase.h"
+#include "AliTRDrawStream.h"
+#include "AliTRDcluster.h"
#include "AliRawReaderMemory.h"
+#ifdef HAVE_VALGRIND_CALLGRIND_H
+#include <valgrind/callgrind.h>
+#else
+#define CALLGRIND_START_INSTRUMENTATION (void)0
+#define CALLGRIND_STOP_INSTRUMENTATION (void)0
+#endif
+
#include <cstdlib>
#include <cerrno>
#include <string>
-// this is a global object used for automatic component registration, do not use this
-AliHLTTRDClusterizerComponent gAliHLTTRDClusterizerComponent;
-
-ClassImp(AliHLTTRDClusterizerComponent);
+ClassImp(AliHLTTRDClusterizerComponent)
AliHLTTRDClusterizerComponent::AliHLTTRDClusterizerComponent()
- : AliHLTProcessor()
- , fOutputPercentage(100) // By default we copy to the output exactly what we got as input
- , fStrorageDBpath("local://$ALICE_ROOT")
- , fClusterizer(NULL)
- , fRecoParam(NULL)
- , fCDB(NULL)
- , fMemReader(NULL)
- , fGeometryFileName("")
- , fGeometryFile(NULL)
- , fReconstructor(NULL)
+: AliHLTProcessor(),
+ fOutputPercentage(100),
+ fOutputConst(0),
+ fClusterizer(NULL),
+ fRecoParam(NULL),
+ fMemReader(NULL),
+ fReconstructor(NULL),
+ fRecoParamType(-1),
+ fRecoDataType(-1),
+ fRawDataVersion(2),
+ fyPosMethod(1),
+ fgeometryFileName(""),
+ fProcessTracklets(kFALSE),
+ fHLTstreamer(kTRUE),
+ fTC(kFALSE),
+ fHLTflag(kTRUE),
+ fHighLevelOutput(kFALSE),
+ fEmulateHLTClusters(kFALSE)
{
// Default constructor
- fGeometryFileName = getenv("ALICE_ROOT");
- fGeometryFileName += "/HLT/TRD/geometry.root";
}
AliHLTTRDClusterizerComponent::~AliHLTTRDClusterizerComponent()
// Destructor
// Work is Done in DoDeInit()
}
+
+
const char* AliHLTTRDClusterizerComponent::GetComponentID()
{
// Return the component ID const char *
{
// Get the list of input data
list.clear(); // We do not have any requirements for our input data type(s).
- list.push_back( AliHLTTRDDefinitions::fgkDDLRawDataType );
+ list.push_back(kAliHLTDataTypeDDLRaw | kAliHLTDataOriginTRD);
+}
+
+AliHLTComponentDataType AliHLTTRDClusterizerComponent::GetOutputDataType()
+{
+ // Get the output data type
+ return kAliHLTMultipleDataType;
}
-AliHLTComponent_DataType AliHLTTRDClusterizerComponent::GetOutputDataType()
+int AliHLTTRDClusterizerComponent::GetOutputDataTypes(AliHLTComponentDataTypeList& tgtList)
{
// Get the output data type
- return AliHLTTRDDefinitions::fgkClusterDataType;
+ tgtList.clear();
+ tgtList.push_back(AliHLTTRDDefinitions::fgkClusterDataType);
+ tgtList.push_back(AliHLTTRDDefinitions::fgkMCMtrackletDataType);
+ return tgtList.size();
}
+
void AliHLTTRDClusterizerComponent::GetOutputDataSize( unsigned long& constBase, double& inputMultiplier )
{
// Get the output data size
- constBase = 0;
- inputMultiplier = ((double)fOutputPercentage)/100.0;
+ constBase = fOutputConst;
+ inputMultiplier = ((double)fOutputPercentage)*4/100.0;
}
AliHLTComponent* AliHLTTRDClusterizerComponent::Spawn()
int AliHLTTRDClusterizerComponent::DoInit( int argc, const char** argv )
{
// perform initialization. We check whether our relative output size is specified in the arguments.
- fOutputPercentage = 100;
- Int_t iRawDataVersion = 2;
- int i = 0;
- char* cpErr;
- Bool_t bWriteClusters = kTRUE;
+ int iResult=0;
-
- Int_t iRecoParamType = -1; // default will be the low flux
-
- // the data type will become obsolete as soon as the formats are established
- Int_t iRecoDataType = -1; // default will be simulation
-
- while ( i < argc )
- {
- HLTDebug("argv[%d] == %s", i, argv[i] );
- if ( !strcmp( argv[i], "output_percentage" ) )
- {
- if ( i+1>=argc )
- {
- HLTError("Missing output_percentage parameter");
- return ENOTSUP;
- }
- HLTDebug("argv[%d+1] == %s", i, argv[i+1] );
- fOutputPercentage = strtoul( argv[i+1], &cpErr, 0 );
- if ( *cpErr )
- {
- HLTError("Cannot convert output_percentage parameter '%s'", argv[i+1] );
- return EINVAL;
- }
- HLTInfo("Output percentage set to %lu %%", fOutputPercentage );
- i += 2;
- }
- else if ( strcmp( argv[i], "-cdb" ) == 0)
- {
- if ( i+1 >= argc )
- {
- HLTError("Missing -cdb argument");
- return ENOTSUP;
- }
- fStrorageDBpath = argv[i+1];
- HLTInfo("DB storage is %s", fStrorageDBpath.c_str() );
- i += 2;
-
- }
-
- else if ( strcmp( argv[i], "-lowflux" ) == 0)
- {
- iRecoParamType = 0;
- HLTDebug("Low flux reco selected.");
- i++;
-
- }
-
- else if ( strcmp( argv[i], "-highflux" ) == 0)
- {
- iRecoParamType = 1;
- HLTDebug("High flux reco selected.");
- i++;
-
- }
-
- else if ( strcmp( argv[i], "-cosmics" ) == 0)
- {
- iRecoParamType = 2;
- HLTDebug("Cosmic test reco selected.");
- i++;
-
- }
-
- // raw data type - sim or experiment
- else if ( strcmp( argv[i], "-simulation" ) == 0)
- {
- iRecoDataType = 0;
- i++;
-
- }
-
- else if ( strcmp( argv[i], "-experiment" ) == 0)
- {
- iRecoDataType = 1;
- i++;
-
- }
-
- else if ( strcmp( argv[i], "-rawver" ) == 0)
- {
- if ( i+1 >= argc )
- {
- HLTError("Missing -rawver argument");
- return ENOTSUP;
- }
- iRawDataVersion = atoi( argv[i+1] );
- HLTInfo("Raw data version is %d", iRawDataVersion );
- i += 2;
-
- }
-
- else if ( strcmp( argv[i], "-geometry" ) == 0)
- {
- if ( i+1 >= argc )
- {
- HLTError("Missing -geometry argument");
- return ENOTSUP;
- }
- fGeometryFileName = argv[i+1];
- HLTInfo("GeomFile storage is %s", fGeometryFileName.c_str() );
- i += 2;
-
- }
- else{
- HLTError("Unknown option '%s'", argv[i] );
- return EINVAL;
- }
-
- }
-
- // THE "REAL" INIT COMES HERE
-
- if (iRecoParamType < 0 || iRecoParamType > 2)
- {
- HLTWarning("No reco param selected. Use -lowflux or -highflux flag. Defaulting to low flux.");
- iRecoParamType = 0;
- }
-
- if (iRecoParamType == 0)
- {
- fRecoParam = AliTRDrecoParam::GetLowFluxParam();
- HLTDebug("Low flux params init.");
- }
-
- if (iRecoParamType == 1)
- {
- fRecoParam = AliTRDrecoParam::GetHighFluxParam();
- HLTDebug("High flux params init.");
- }
-
- if (iRecoParamType == 2)
- {
- fRecoParam = AliTRDrecoParam::GetCosmicTestParam();
- HLTDebug("Cosmic Test params init.");
- }
-
- if (fRecoParam == 0)
- {
- HLTError("No reco params initialized. Sniffing big trouble!");
- return -1;
- }
-
fReconstructor = new AliTRDReconstructor();
- fReconstructor->SetRecoParam(fRecoParam);
- //fReconstructor->SetStreamLevel(0, AliTRDReconstructor::kClusterizer); // default value
- fReconstructor->SetOption("!cw,sl_cf_0");
+ HLTDebug("TRDReconstructor at 0x%x", fReconstructor);
- // init the raw data type to be used...
- // the switch here will become obsolete as soon as the data structures is fixed
- // both: in sim and reality
- if (iRecoDataType < 0 || iRecoDataType > 1)
- {
- HLTWarning("No data type selected. Use -simulation or -experiment flag. Defaulting to simulation.");
- iRecoDataType = 0;
- }
+ TString configuration="";
+ TString argument="";
+ for (int i=0; i<argc && iResult>=0; i++) {
+ argument=argv[i];
+ if (!configuration.IsNull()) configuration+=" ";
+ configuration+=argument;
+ }
- if (iRecoDataType == 0)
- {
- AliTRDrawStreamBase::SetRawStreamVersion(AliTRDrawStreamBase::kTRDsimStream);
- HLTDebug("Data type expected is SIMULATION!");
- }
+ if (!configuration.IsNull()) {
+ iResult=Configure(configuration.Data());
+ } else {
+ iResult=Reconfigure(NULL, NULL);
+ }
- if (iRecoDataType == 1)
- {
- AliTRDrawStreamBase::SetRawStreamVersion(AliTRDrawStreamBase::kTRDrealStream);
- HLTDebug("Data type expected is EXPERIMENT!");
- }
+ if(!fClusterizer){
+ HLTFatal("Clusterizer was not initialized!");
+ return -1;
+ }
- // the DATA BASE STUFF
- fCDB = AliCDBManager::Instance();
- if (!fCDB)
- {
- HLTError("Could not get CDB instance", "fCDB 0x%x", fCDB);
- }
- else
- {
- fCDB->SetRun(0); // THIS HAS TO BE RETRIEVED !!!
- fCDB->SetDefaultStorage(fStrorageDBpath.c_str());
- HLTDebug("CDB instance; fCDB 0x%x", fCDB);
- }
-
- fGeometryFile = TFile::Open(fGeometryFileName.c_str());
- if (fGeometryFile)
- {
- AliGeomManager::LoadGeometry(fGeometryFileName.c_str());
- }
- else
- {
- HLTError("Unable to open file. FATAL!");
- return -1;
- }
+ if(iResult<0) return iResult;
fMemReader = new AliRawReaderMemory;
-
- fClusterizer = new AliTRDclusterizerHLT("TRDCclusterizer", "TRDCclusterizer");
fClusterizer->SetReconstructor(fReconstructor);
+ fClusterizer->SetUseLabels(kFALSE);
- fClusterizer->SetRawVersion(iRawDataVersion);
- fClusterizer->InitClusterTree();
- return 0;
+ if(fReconstructor->IsProcessingTracklets())
+ fOutputConst = fClusterizer->GetTrMemBlockSize();
+
+ return iResult;
}
int AliHLTTRDClusterizerComponent::DoDeinit()
fReconstructor->SetClusters(0x0);
delete fReconstructor;
fReconstructor = 0x0;
- return 0;
-
- if (fGeometryFile)
- {
- fGeometryFile->Close();
- delete fGeometryFile;
- fGeometryFile = 0;
- }
-
- if (fCDB)
- {
- HLTDebug("destroy fCDB");
- fCDB->Destroy();
- fCDB = 0;
- }
if (fRecoParam)
{
delete fRecoParam;
fRecoParam = 0;
}
+
+ return 0;
}
int AliHLTTRDClusterizerComponent::DoEvent( const AliHLTComponentEventData& evtData,
const AliHLTComponentBlockData* blocks,
AliHLTComponent_TriggerData& /*trigData*/,
- AliHLTUInt8_t* /*outputPtr*/,
+ AliHLTUInt8_t* outputPtr,
AliHLTUInt32_t& size,
- vector<AliHLTComponent_BlockData>& /*outputBlocks*/ )
+ vector<AliHLTComponent_BlockData>& outputBlocks )
{
// Process an event
- HLTDebug( "NofBlocks %lu", evtData.fBlockCnt );
+
+#ifdef HAVE_VALGRIND_CALLGRIND_H
+ if (evtData.fEventID == 10)
+ CALLGRIND_START_INSTRUMENTATION;
+
+ if(GetFirstInputBlock(kAliHLTDataTypeEOR))
+ CALLGRIND_STOP_INSTRUMENTATION;
+#endif
+
+ if(!IsDataEvent())return 0;
+
+ HLTDebug( "NofBlocks %i", evtData.fBlockCnt );
// Process an event
+ AliHLTUInt32_t totalSize = 0, offset = 0;
//implement a usage of the following
// AliHLTUInt32_t triggerDataStructSize = trigData.fStructSize;
// Loop over all input blocks in the event
AliHLTComponentDataType expectedDataType = (kAliHLTDataTypeDDLRaw | kAliHLTDataOriginTRD);
- for ( unsigned long i = 0; i < evtData.fBlockCnt; i++ )
- {
+ for ( UInt_t iBlock = 0; iBlock < evtData.fBlockCnt; iBlock++ )
+ {
+ const AliHLTComponentBlockData &block = blocks[iBlock];
// lets not use the internal TRD data types here : AliHLTTRDDefinitions::fgkDDLRawDataType
// which is depreciated - we use HLT global defs instead
- // if ( blocks[i].fDataType != (kAliHLTDataTypeDDLRaw | kAliHLTDataOriginTRD) )
- AliHLTComponentDataType inputDataType = blocks[i].fDataType;
+ // if ( block.fDataType != (kAliHLTDataTypeDDLRaw | kAliHLTDataOriginTRD) )
+ AliHLTComponentDataType inputDataType = block.fDataType;
if ( inputDataType != expectedDataType)
{
- HLTDebug( "Block # %i/%i; Event 0x%08LX (%Lu) received datatype: %s - required datatype: %s; Skipping",
- i, evtData.fBlockCnt,
+ HLTDebug( "Block # %i/%i; Event 0x%08LX (%Lu) Wrong received datatype: %s - required datatype: %s; Skipping",
+ iBlock, evtData.fBlockCnt,
evtData.fEventID, evtData.fEventID,
DataType2Text(inputDataType).c_str(),
DataType2Text(expectedDataType).c_str());
}
else
{
- HLTDebug("We get the right data type!");
+ HLTDebug("We get the right data type: Block # %i/%i; Event 0x%08LX (%Lu) Received datatype: %s; Block Size: %i",
+ iBlock, evtData.fBlockCnt,
+ evtData.fEventID, evtData.fEventID,
+ DataType2Text(inputDataType).c_str(),
+ block.fSize);
}
- // fMemReader->Reset();
- fMemReader->SetMemory((UChar_t*) blocks[i].fPtr, blocks[i].fSize);
-
- AliHLTUInt32_t spec = blocks[i].fSpecification;
-
- Int_t id = 1024;
-
- for ( Int_t ii = 0; ii < 18 ; ii++ ) {
- if ( spec & 0x00000001 ) {
- id += ii;
- break;
- }
- spec = spec >> 1 ;
+#ifndef NDEBUG
+ unsigned long constBase;
+ double inputMultiplier;
+ GetOutputDataSize(constBase,inputMultiplier);
+ if(size<(constBase+block.fSize*inputMultiplier)){
+ HLTWarning("Memory Block given might be too small: %i < %i; Event %Lu", size, constBase+block.fSize*inputMultiplier, evtData.fEventID);
}
+#endif
+
+ // fMemReader->Reset();
+ fMemReader->SetMemory((UChar_t*) block.fPtr, block.fSize);
+
+ AliHLTUInt32_t spec = block.fSpecification;
- fMemReader->SetEquipmentID( id );
+ Int_t id = AliHLTTRDUtils::GetSM(spec) + 1024;
- fClusterizer->ResetTree();
- Bool_t iclustered = fClusterizer->Raw2ClustersChamber(fMemReader);
- if (iclustered == kTRUE)
+ fMemReader->SetEquipmentID(id);
+
+ fClusterizer->SetMemBlock(outputPtr+offset);
+ Bool_t bclustered = fClusterizer->Raw2ClustersChamber(fMemReader);
+ if(bclustered)
{
- HLTDebug( "Clustered successfully");
+ HLTDebug("Clustered successfully");
}
else
{
return -1;
}
- // put the tree into output blocks
- //fcTree->Print();
- TClonesArray *clusterArray = fClusterizer->RecPoints();
- fClusterizer->SetClustersOwner(kFALSE);
-
- if (clusterArray){
- HLTDebug("clusterArray: Entries - %i; Size - %i",clusterArray->GetEntriesFast(),sizeof(clusterArray));
- PushBack(clusterArray, AliHLTTRDDefinitions::fgkClusterDataType, blocks[i].fSpecification);
+ AliHLTUInt32_t addedSize;
+ if(fReconstructor->IsProcessingTracklets()){
+ addedSize = fClusterizer->GetAddedTrSize();
+ totalSize += fClusterizer->GetTrMemBlockSize(); //if IsProcessingTracklets() is enabled we always reserve a data block of size GetTrMemBlockSize() for the tracklets
+ if (addedSize > 0){
+ // Using low-level interface
+ // with interface classes
+ if ( totalSize > size )
+ {
+ HLTError("Too much data; Data written over allowed buffer. Amount written: %lu, allowed amount: %lu.",
+ totalSize, size );
+ return EMSGSIZE;
+ }
+
+ // Fill block
+ AliHLTComponentBlockData bd;
+ FillBlockData( bd );
+ bd.fOffset = offset;
+ bd.fSize = addedSize;
+ bd.fSpecification = block.fSpecification;
+ bd.fDataType = AliHLTTRDDefinitions::fgkMCMtrackletDataType;
+ outputBlocks.push_back( bd );
+ HLTDebug( "BD ptr 0x%x, offset %i, size %i, dataType %s, spec 0x%x ", bd.fPtr, bd.fOffset, bd.fSize, DataType2Text(bd.fDataType).c_str(), spec);
+ }
+ offset = totalSize;
}
- else
- HLTWarning("Array of clusters is empty!");
+
+ addedSize = fClusterizer->GetAddedClSize();
+ if (addedSize > 0){
- if (clusterArray){
- clusterArray->Delete();
- delete clusterArray;
+ Int_t* nTimeBins = (Int_t*)(outputPtr+offset+fClusterizer->GetAddedClSize());
+ *nTimeBins = fClusterizer->GetNTimeBins();
+ addedSize += sizeof(*nTimeBins);
+
+ totalSize += addedSize;
+ if ( totalSize > size )
+ {
+ HLTError("Too much data; Data written over allowed buffer. Amount written: %lu, allowed amount: %lu.",
+ totalSize, size );
+ return EMSGSIZE;
+ }
+
+ // Fill block
+ AliHLTComponentBlockData bd;
+ FillBlockData( bd );
+ bd.fOffset = offset;
+ bd.fSize = addedSize;
+ bd.fSpecification = block.fSpecification;
+ bd.fDataType = AliHLTTRDDefinitions::fgkClusterDataType;
+ outputBlocks.push_back( bd );
+ HLTDebug( "BD ptr 0x%x, offset %i, size %i, dataType %s, spec 0x%x ", bd.fPtr, bd.fOffset, bd.fSize, DataType2Text(bd.fDataType).c_str(), spec);
+ offset = totalSize;
}
-
+ else{
+ HLTDebug("Array of clusters is empty!");
+ }
+ }
+ fReconstructor->SetClusters(0x0);
- }// for ( unsigned long i = 0; i < evtData.fBlockCnt; i++ )
+ size = totalSize;
+ HLTDebug("Event is done. size written to the output is %i", size);
+ return 0;
+}
+void AliHLTTRDClusterizerComponent::PrintObject(
+#ifdef __DEBUG
+ TClonesArray* inClustersArray
+#else
+ TClonesArray*
+#endif
+ )
+{
+#ifdef __DEBUG
+ AliTRDcluster* cluster=0x0;
+ for (Int_t i=0; i < inClustersArray->GetEntriesFast(); i++){
+ cluster = dynamic_cast<AliTRDcluster*>(inClustersArray->At(i));
+ HLTDebug("cluster[%i]",i);
+ HLTDebug(" PadCol = %i; PadRow = %i; PadTime = %i", cluster->GetPadCol(), cluster->GetPadRow(), cluster->GetPadTime());
+ HLTDebug(" Detector = %i, Amplitude = %f, Center = %f", cluster->GetDetector(), cluster->GetQ(), cluster->GetCenter());
+ HLTDebug(" LocalTimeBin = %i; NPads = %i; maskedPosition: %s, status: %s", cluster->GetLocalTimeBin(), cluster->GetNPads(),cluster->GetPadMaskedPosition(),cluster->GetPadMaskedPosition());
+ }
+#endif
+}
+
+int AliHLTTRDClusterizerComponent::Configure(const char* arguments){
+ int iResult=0;
+ if (!arguments) return iResult;
-
- size=0; // this function did not write data to the buffer directly
- return 0;
+ TString allArgs=arguments;
+ TString argument;
+ int bMissingParam=0;
+
+ TObjArray* pTokens=allArgs.Tokenize(" ");
+ if (pTokens) {
+ for (int i=0; i<pTokens->GetEntries() && iResult>=0; i++) {
+ argument=((TObjString*)pTokens->At(i))->GetString();
+ if (argument.IsNull()) continue;
+
+ if (argument.CompareTo("output_percentage")==0) {
+ if ((bMissingParam=(++i>=pTokens->GetEntries()))) break;
+ HLTInfo("Setting output percentage to: %s", ((TObjString*)pTokens->At(i))->GetString().Data());
+ fOutputPercentage=((TObjString*)pTokens->At(i))->GetString().Atoi();
+ continue;
+ }
+ else if (argument.CompareTo("-geometry")==0) {
+ if ((bMissingParam=(++i>=pTokens->GetEntries()))) break;
+ HLTInfo("Setting geometry to: %s", ((TObjString*)pTokens->At(i))->GetString().Data());
+ fgeometryFileName=((TObjString*)pTokens->At(i))->GetString();
+ continue;
+ }
+ else if (argument.CompareTo("-lowflux")==0) {
+ fRecoParamType = 0;
+ HLTInfo("Low flux reconstruction selected");
+ continue;
+ }
+ else if (argument.CompareTo("-highflux")==0) {
+ fRecoParamType = 1;
+ HLTInfo("High flux reconstruction selected");
+ continue;
+ }
+ else if (argument.CompareTo("-cosmics")==0) {
+ fRecoParamType = 2;
+ HLTInfo("Cosmics reconstruction selected");
+ continue;
+ }
+ else if (argument.CompareTo("-simulation")==0) {
+ fRecoDataType = 0;
+ HLTInfo("Awaiting simulated data");
+ continue;
+ }
+ else if (argument.CompareTo("-experiment")==0) {
+ fRecoDataType = 1;
+ HLTInfo("Awaiting real data");
+ continue;
+ }
+ else if (argument.CompareTo("-processTracklets")==0) {
+ fProcessTracklets = kTRUE;
+ HLTInfo("Writing L1 tracklets to output");
+ continue;
+ }
+ else if (argument.CompareTo("-noZS")==0) {
+ fOutputPercentage = 10;
+ HLTInfo("Awaiting non zero surpressed data");
+ continue;
+ }
+ else if (argument.CompareTo("-HLTflag")==0) {
+ if ((bMissingParam=(++i>=pTokens->GetEntries()))) break;
+ TString toCompareTo=((TObjString*)pTokens->At(i))->GetString();
+ if (toCompareTo.CompareTo("yes")==0){
+ HLTInfo("Setting HLTflag to: %s", toCompareTo.Data());
+ fHLTflag=kTRUE;
+ }
+ else if (toCompareTo.CompareTo("no")==0){
+ HLTInfo("Setting HLTflag to: %s", toCompareTo.Data());
+ fHLTflag=kFALSE;
+ }
+ else {
+ HLTError("unknown argument for HLTflag: %s", toCompareTo.Data());
+ iResult=-EINVAL;
+ break;
+ }
+ continue;
+ }
+ else if (argument.CompareTo("-faststreamer")==0) {
+ fHLTstreamer = kTRUE;
+ HLTInfo("Useing fast raw streamer");
+ continue;
+ }
+ else if (argument.CompareTo("-nofaststreamer")==0) {
+ fHLTstreamer = kFALSE;
+ HLTInfo("Don't use fast raw streamer");
+ continue;
+ }
+ else if (argument.CompareTo("-tailcancellation")==0) {
+ fTC = kTRUE;
+ HLTInfo("Useing tailcancellation");
+ continue;
+ }
+ else if (argument.CompareTo("-rawver")==0) {
+ if ((bMissingParam=(++i>=pTokens->GetEntries()))) break;
+ HLTInfo("Raw data version is: %s", ((TObjString*)pTokens->At(i))->GetString().Data());
+ fRawDataVersion=((TObjString*)pTokens->At(i))->GetString().Atoi();
+ continue;
+ }
+ else if (argument.CompareTo("-highLevelOutput")==0) {
+ if ((bMissingParam=(++i>=pTokens->GetEntries()))) break;
+ TString toCompareTo=((TObjString*)pTokens->At(i))->GetString();
+ if (toCompareTo.CompareTo("yes")==0){
+ HLTWarning("Setting highLevelOutput to: %s", toCompareTo.Data());
+ fHighLevelOutput=kTRUE;
+ }
+ else if (toCompareTo.CompareTo("no")==0){
+ HLTInfo("Setting highLevelOutput to: %s", toCompareTo.Data());
+ fHighLevelOutput=kFALSE;
+ }
+ else {
+ HLTError("unknown argument for highLevelOutput: %s", toCompareTo.Data());
+ iResult=-EINVAL;
+ break;
+ }
+ continue;
+ }
+ else if (argument.CompareTo("-emulateHLToutput")==0) {
+ if ((bMissingParam=(++i>=pTokens->GetEntries()))) break;
+ TString toCompareTo=((TObjString*)pTokens->At(i))->GetString();
+ if (toCompareTo.CompareTo("yes")==0){
+ HLTWarning("Setting emulateHLToutput to: %s", toCompareTo.Data());
+ fEmulateHLTClusters=kTRUE;
+ }
+ else if (toCompareTo.CompareTo("no")==0){
+ HLTInfo("Setting emulateHLToutput to: %s", toCompareTo.Data());
+ fEmulateHLTClusters=kFALSE;
+ }
+ else {
+ HLTError("unknown argument for emulateHLToutput: %s", toCompareTo.Data());
+ iResult=-EINVAL;
+ break;
+ }
+ continue;
+ }
+ else if (argument.CompareTo("-yPosMethod")==0) {
+ if ((bMissingParam=(++i>=pTokens->GetEntries()))) break;
+ TString toCompareTo=((TObjString*)pTokens->At(i))->GetString();
+ if (toCompareTo.CompareTo("COG")==0){
+ HLTInfo("Setting yPosMethod method to: %s", toCompareTo.Data());
+ fyPosMethod=0;
+ }
+ else if (toCompareTo.CompareTo("LUT")==0){
+ HLTInfo("Setting yPosMethod method to: %s", toCompareTo.Data());
+ fyPosMethod=1;
+ }
+ else if (toCompareTo.CompareTo("Gauss")==0){
+ HLTInfo("Setting yPosMethod method to: %s", toCompareTo.Data());
+ fyPosMethod=2;
+ }
+ else {
+ HLTError("unknown argument for yPosMethod: %s", toCompareTo.Data());
+ iResult=-EINVAL;
+ break;
+ }
+ continue;
+ }
+
+ else {
+ HLTError("unknown argument: %s", argument.Data());
+ iResult=-EINVAL;
+ break;
+ }
+ }
+ delete pTokens;
+ }
+ if (bMissingParam) {
+ HLTError("missing parameter for argument %s", argument.Data());
+ iResult=-EINVAL;
+ }
+ if(iResult>=0){
+ iResult=SetParams();
+ }
+ return iResult;
+}
+
+int AliHLTTRDClusterizerComponent::SetParams()
+{
+ Int_t iResult=0;
+ if(!AliCDBManager::Instance()->IsDefaultStorageSet()){
+ HLTError("DefaultStorage is not set in CDBManager");
+ return -EINVAL;
+ }
+ if(AliCDBManager::Instance()->GetRun()<0){
+ HLTError("Run Number is not set in CDBManager");
+ return -EINVAL;
+ }
+ HLTInfo("CDB default storage: %s; RunNo: %i", (AliCDBManager::Instance()->GetDefaultStorage()->GetBaseFolder()).Data(), AliCDBManager::Instance()->GetRun());
+
+ if(!AliGeomManager::GetGeometry()){
+ if(fgeometryFileName.CompareTo("")==0 || !TFile::Open(fgeometryFileName.Data())){
+ HLTInfo("Loading standard geometry file");
+ AliGeomManager::LoadGeometry();
+ }else{
+ HLTWarning("Loading NON-standard geometry file");
+ AliGeomManager::LoadGeometry(fgeometryFileName.Data());
+ }
+ if(!AliGeomManager::GetGeometry()){
+ HLTError("Could not load geometry");
+ return -EINVAL;
+ }
+ HLTInfo("Applying Alignment from CDB object");
+ AliGeomManager::ApplyAlignObjsFromCDB("TRD");
+ }
+ else{
+ HLTInfo("Geometry Already Loaded!");
+ }
+
+ if(fReconstructor->GetRecoParam()){
+ fRecoParam = new AliTRDrecoParam(*fReconstructor->GetRecoParam());
+ HLTInfo("RecoParam already set!");
+ }else{
+ if(fRecoParamType == 0){
+#ifndef HAVE_NOT_ALITRD_RECOPARAM_r41621
+ if(fHLTflag){
+ HLTInfo("Low flux HLT params init.");
+ fRecoParam = AliTRDrecoParam::GetLowFluxHLTParam();
+ }else
+#endif
+ {
+ HLTInfo("Low flux params init.");
+ fRecoParam = AliTRDrecoParam::GetLowFluxParam();
+ }
+ }
+ if(fRecoParamType == 1){
+#ifndef HAVE_NOT_ALITRD_RECOPARAM_r41621
+ if(fHLTflag){
+ HLTInfo("High flux HLT params init.");
+ fRecoParam = AliTRDrecoParam::GetHighFluxHLTParam();
+ }else
+#endif
+ {
+ HLTInfo("High flux params init.");
+ fRecoParam = AliTRDrecoParam::GetHighFluxParam();
+ }
+ }
+ if(fRecoParamType == 2){
+ HLTInfo("Cosmic Test params init.");
+ fRecoParam = AliTRDrecoParam::GetCosmicTestParam();
+ }
+ }
+
+ if (!fRecoParam)
+ {
+ HLTError("No reco params initialized. Sniffing big trouble!");
+ return -EINVAL;
+ }
+
+ if(fTC){fRecoParam->SetTailCancelation(kTRUE); HLTDebug("Enableing Tail Cancelation"); }
+ else{fRecoParam->SetTailCancelation(kFALSE); HLTDebug("Disableing Tail Cancelation"); }
+
+ switch(fyPosMethod){
+ case 0: fRecoParam->SetGAUS(kFALSE); fRecoParam->SetLUT(kFALSE); break;
+ case 1: fRecoParam->SetGAUS(kFALSE); fRecoParam->SetLUT(kTRUE); break;
+ case 2: fRecoParam->SetGAUS(kTRUE); fRecoParam->SetLUT(kFALSE); break;
+ }
+
+ fRecoParam->SetStreamLevel(AliTRDrecoParam::kClusterizer, 0);
+ fReconstructor->SetRecoParam(fRecoParam);
+
+ if(!fClusterizer){
+ fClusterizer = new AliHLTTRDClusterizer("TRDCclusterizer", "TRDCclusterizer");
+ HLTDebug("TRDClusterizer at 0x%x", fClusterizer);
+ }
+
+ TString recoOptions="!cw";
+ if(fHLTflag){
+ recoOptions += ",hlt";
+
+ // we transfer clusters that do no contain the XYZ coodrinates (AliHLTTRDCluster),
+ // thus this coordinate transformation ist useless
+#ifndef HAVE_NOT_ALITRD_CLUSTERIZER_r42837
+ fClusterizer->SetSkipTransform();
+#endif
+ }
+ if(fProcessTracklets) recoOptions += ",tp";
+ else recoOptions += ",!tp";
+
+ HLTDebug("Reconstructor options are: %s",recoOptions.Data());
+ fReconstructor->SetOption(recoOptions.Data());
+
+ if (fRecoDataType < 0 || fRecoDataType > 1)
+ {
+ HLTWarning("No data type selected. Use -simulation or -experiment flag. Defaulting to simulation.");
+ fRecoDataType = 0;
+ }
+
+ if (fRecoDataType == 0)
+ {
+ HLTDebug("Data type expected is SIMULATION!");
+ }
+
+ if (fRecoDataType == 1)
+ {
+ HLTDebug("Data type expected is EXPERIMENT!");
+ }
+
+ fClusterizer->SetRawVersion(fRawDataVersion);
+
+ return iResult;
+}
+
+int AliHLTTRDClusterizerComponent::Reconfigure(const char* cdbEntry, const char* chainId)
+{
+ // see header file for class documentation
+
+ int iResult=0;
+ const char* path="HLT/ConfigTRD/ClusterizerComponent";
+ const char* defaultNotify="";
+ if (cdbEntry) {
+ path=cdbEntry;
+ defaultNotify=" (default)";
+ }
+ if (path) {
+ HLTInfo("reconfigure from entry %s%s, chain id %s", path, defaultNotify,(chainId!=NULL && chainId[0]!=0)?chainId:"<none>");
+ AliCDBEntry *pEntry = AliCDBManager::Instance()->Get(path/*,GetRunNo()*/);
+ if (pEntry) {
+ TObjString* pString=dynamic_cast<TObjString*>(pEntry->GetObject());
+ if (pString) {
+ HLTInfo("received configuration object string: \'%s\'", pString->GetString().Data());
+ iResult=Configure(pString->GetString().Data());
+ } else {
+ HLTError("configuration object \"%s\" has wrong type, required TObjString", path);
+ }
+ } else {
+ HLTError("cannot fetch object \"%s\" from CDB", path);
+ }
+ }
+
+ return iResult;
+}
+
+void AliHLTTRDClusterizerComponent::GetOCDBObjectDescription(TMap* const targetMap){
+ // Get a list of OCDB object description needed for the particular component
+ if (!targetMap) return;
+ targetMap->Add(new TObjString("HLT/ConfigTRD/ClusterizerComponent"), new TObjString("component arguments"));
+ targetMap->Add(new TObjString("TRD/Calib/ChamberGainFactor"), new TObjString("gain factor of chambers"));
+ targetMap->Add(new TObjString("TRD/Calib/ChamberT0"), new TObjString("T0 of chambers"));
+ targetMap->Add(new TObjString("TRD/Calib/ChamberVdrift"), new TObjString("drift velocity of chambers"));
+ targetMap->Add(new TObjString("TRD/Calib/DetNoise"), new TObjString("noise of chambers"));
+ targetMap->Add(new TObjString("TRD/Calib/LocalGainFactor"), new TObjString("per pad gain factor"));
+ targetMap->Add(new TObjString("TRD/Calib/LocalT0"), new TObjString("per pad T0"));
+ targetMap->Add(new TObjString("TRD/Calib/LocalVdrift"), new TObjString("per pad drift velocity"));
+ targetMap->Add(new TObjString("TRD/Calib/PadNoise"), new TObjString("per pad noise"));
+ targetMap->Add(new TObjString("TRD/Calib/PadStatus"), new TObjString("pad status"));
+ targetMap->Add(new TObjString("TRD/Calib/PRFWidth"), new TObjString("pad response function"));
}
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff