/**************************************************************************
* 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. *
+ * 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 *
* provided "as is" without express or implied warranty. *
**************************************************************************/
-/** @file AliHLTTRDCalibrationComponent.cxx
- @author Timm Steinbeck, Matthias Richter
- @date
- @brief A TRDCalibration processing component for the HLT. */
-
-#if __GNUC__ >= 3
-using namespace std;
-#endif
+// @file AliHLTTRDCalibrationComponent.cxx
+// @author
+// @date
+// @brief A TRDCalibration processing component for the HLT.
+//
#include "TTree.h"
#include "TFile.h"
#include "TBranch.h"
+#include "TH2I.h"
+#include "TH2.h"
+#include "TProfile2D.h"
+
+#include "AliHLTReadoutList.h"
#include "AliHLTTRDCalibrationComponent.h"
#include "AliHLTTRDDefinitions.h"
#include "AliCDBManager.h"
#include "AliCDBStorage.h"
#include "AliRawReaderMemory.h"
+
+#include "AliTRDCalPad.h"
+#include "AliTRDCalDet.h"
+
#include "AliTRDCalibraFillHisto.h"
#include "AliTRDtrackV1.h"
+#include "AliTRDCalibraFit.h"
+#include "AliTRDCalibraMode.h"
+#include "AliTRDCalibraVector.h"
+#include "AliTRDCalibraVdriftLinearFit.h"
+#include "AliTRDReconstructor.h"
+#include "AliTRDrecoParam.h"
+
#include <cstdlib>
#include <cerrno>
#include <string>
+using namespace std;
+
ClassImp(AliHLTTRDCalibrationComponent);
AliHLTTRDCalibrationComponent::AliHLTTRDCalibrationComponent()
-: AliHLTCalibrationProcessor(),
- fTRDCalibraFillHisto(NULL),
- fOutputSize(50000),
- fTracksArray(NULL),
- fOutArray(NULL),
- fNevent(0),
- feveryNevent(20),
- fRecievedTimeBins(kFALSE)
+ : AliHLTCalibrationProcessor(),
+ fTRDCalibraFillHisto(NULL),
+ fOutputSize(500000),
+ fTracksArray(NULL),
+ fOutArray(NULL),
+ fAfterRunArray(NULL),
+ fDisplayArray(NULL),
+ fSavedTimeBins(kFALSE),
+ fTrgStrings(NULL),
+ fAccRejTrg(0),
+ fMinClusters(0),
+ fMinTracklets(0),
+ fTakeAllEvents(kFALSE)
{
// Default constructor
}
{
// Get the list of input data
list.clear(); // We do not have any requirements for our input data type(s).
- list.push_back(AliHLTTRDDefinitions::fgkTRDSATracksDataType);
+ list.push_back(AliHLTTRDDefinitions::fgkTracksDataType);
}
AliHLTComponentDataType AliHLTTRDCalibrationComponent::GetOutputDataType()
{
// Get the output data type
- return AliHLTTRDDefinitions::fgkCalibrationDataType;
+ return kAliHLTMultipleDataType;
+ // return AliHLTTRDDefinitions::fgkCalibrationDataType;
+
+}
+
+int AliHLTTRDCalibrationComponent::GetOutputDataTypes(AliHLTComponentDataTypeList& tgtList)
+{
+ // Get the output data type
+ tgtList.clear();
+ tgtList.push_back(AliHLTTRDDefinitions::fgkCalibrationDataType);
+ tgtList.push_back(AliHLTTRDDefinitions::fgkEORCalibrationDataType);
+ return tgtList.size();
}
void AliHLTTRDCalibrationComponent::GetOutputDataSize( unsigned long& constBase, double& inputMultiplier )
// perform initialization. We check whether our relative output size is specified in the arguments.
int i = 0;
char* cpErr;
+ if(!fTrgStrings)
+ fTrgStrings = new TObjArray();
+
while ( i < argc )
{
HLTDebug("argv[%d] == %s", i, argv[i] );
i += 2;
continue;
}
- if ( !strcmp( argv[i], "-everyNevent" ) )
+ if ( !strcmp( argv[i], "-minClusters" ) )
{
if ( i+1>=argc )
{
- HLTError("Missing everyNevent parameter");
+ HLTError("Missing minClusters parameter");
return ENOTSUP;
}
HLTDebug("argv[%d+1] == %s", i, argv[i+1] );
- fOutputSize = strtoul( argv[i+1], &cpErr, 0 );
- if ( *cpErr )
+ fMinClusters = strtoul( argv[i+1], &cpErr, 0 );
+ i += 2;
+ continue;
+ }
+ if ( !strcmp( argv[i], "-minTracklets" ) )
+ {
+ if ( i+1>=argc )
{
- HLTError("Cannot convert everyNevent parameter '%s'", argv[i+1] );
- return EINVAL;
+ HLTError("Missing minTracklets parameter");
+ return ENOTSUP;
}
- HLTInfo("Pushing back every %d event", feveryNevent);
+ HLTDebug("argv[%d+1] == %s", i, argv[i+1] );
+ fMinTracklets = strtoul( argv[i+1], &cpErr, 0 );
+ i += 2;
+ continue;
+ }
+ if ( !strcmp( argv[i], "-TrgStr" ) )
+ {
+ if ( i+1>=argc )
+ {
+ HLTError("Missing parameter for mbTriggerString");
+ return ENOTSUP;
+ }
+ HLTDebug("argv[%d+1] == %s", i, argv[i+1] );
+ fTrgStrings->Add(new TObjString(argv[i+1]));
i += 2;
continue;
}
+ if ( !strcmp( argv[i], "-acceptTrgStr" ) )
+ {
+ fAccRejTrg=1;
+ i += 1;
+ continue;
+ }
+ if ( !strcmp( argv[i], "-rejectTrgStr" ) )
+ {
+ fAccRejTrg=-1;
+ i += 1;
+ continue;
+ }
+ if ( !strcmp( argv[i], "-takeAllEvents" ) )
+ {
+ fTakeAllEvents = kTRUE;
+ fAccRejTrg = 0;
+ i += 1;
+ continue;
+ }
+
else {
HLTError("Unknown option '%s'", argv[i] );
return EINVAL;
}
}
- return 0;
+ return i;
}
Int_t AliHLTTRDCalibrationComponent::InitCalibration()
{
+
+ if(!fTrgStrings)
+ fTrgStrings = new TObjArray();
+
if(!AliCDBManager::Instance()->IsDefaultStorageSet()){
HLTError("DefaultStorage is not set in CDBManager");
return -EINVAL;
}
HLTInfo("CDB default storage: %s; RunNo: %i", (AliCDBManager::Instance()->GetDefaultStorage()->GetBaseFolder()).Data(), AliCDBManager::Instance()->GetRun());
+ if(fTrgStrings->GetEntriesFast()>0 && !fAccRejTrg){
+ HLTError("Trigger string(s) given, but acceptTrgStr or rejectTrgStr not selected");
+ return -EINVAL;
+ }
+
fTRDCalibraFillHisto = AliTRDCalibraFillHisto::Instance();
+ fTRDCalibraFillHisto->SetIsHLT(kTRUE);
fTRDCalibraFillHisto->SetHisto2d(); // choose to use histograms
fTRDCalibraFillHisto->SetCH2dOn(); // choose to calibrate the gain
fTRDCalibraFillHisto->SetPH2dOn(); // choose to calibrate the drift velocity
fTRDCalibraFillHisto->SetIsHLT(); // per detector
//fTRDCalibraFillHisto->SetDebugLevel(1);// debug
fTRDCalibraFillHisto->SetFillWithZero(kTRUE);
-
+ fTRDCalibraFillHisto->SetLinearFitterOn(kTRUE);
+ fTRDCalibraFillHisto->SetNumberBinCharge(100);
+
fTracksArray = new TClonesArray("AliTRDtrackV1");
- fOutArray = new TObjArray(3);
+ fOutArray = new TObjArray(4);
+ fAfterRunArray=new TObjArray(5);
+ fDisplayArray=new TObjArray(4);
+
+ HLTDebug("run SetupCTPData");
+ SetupCTPData();
return 0;
}
// Deinitialization of the component
HLTDebug("DeinitCalibration");
- fTracksArray->Delete();
- delete fTracksArray;
- fTRDCalibraFillHisto->Destroy();
+ delete fTracksArray; fTracksArray=0;
+ fTRDCalibraFillHisto->DestroyDebugStreamer();
+ //fTRDCalibraFillHisto->Destroy();
//fOutArray->Delete();
- delete fOutArray;
-
+ delete fOutArray; fOutArray=0;
+ fAfterRunArray->Delete();
+ delete fAfterRunArray; fAfterRunArray=0;
+ fDisplayArray->Delete();
+ delete fDisplayArray; fDisplayArray=0;
+ fTrgStrings->Delete();
+ delete fTrgStrings; fTrgStrings=0;
return 0;
}
-Int_t AliHLTTRDCalibrationComponent::ProcessCalibration(const AliHLTComponent_EventData& evtData,
- const AliHLTComponent_BlockData* blocks,
+Int_t AliHLTTRDCalibrationComponent::ProcessCalibration(const AliHLTComponent_EventData& /*evtData*/,
+ const AliHLTComponent_BlockData* /*blocks*/,
AliHLTComponent_TriggerData& /*trigData*/,
AliHLTUInt8_t* /*outputPtr*/,
AliHLTUInt32_t& /*size*/,
vector<AliHLTComponent_BlockData>& /*outputBlocks*/)
{
- HLTDebug("NofBlocks %lu", evtData.fBlockCnt );
// Process an event
+
+ TClonesArray* TCAarray[18] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
+ Int_t usedEntries = 0;
+ Int_t blockOrObject = 0;
+ Int_t nTimeBins = -1;
- // Loop over all input blocks in the event
- vector<AliHLTComponent_DataType> expectedDataTypes;
- GetInputDataTypes(expectedDataTypes);
- for ( unsigned long iBlock = 0; iBlock < evtData.fBlockCnt; iBlock++ )
+ for (const AliHLTComponentBlockData* pBlock=GetFirstInputBlock(AliHLTTRDDefinitions::fgkTracksDataType); pBlock; pBlock=GetNextInputBlock())
{
- const AliHLTComponentBlockData &block = blocks[iBlock];
- AliHLTComponentDataType inputDataType = block.fDataType;
- Bool_t correctDataType = kFALSE;
-
- for(UInt_t i = 0; i < expectedDataTypes.size(); i++)
- if( expectedDataTypes.at(i) == inputDataType)
- correctDataType = kTRUE;
- if (!correctDataType) {
- HLTDebug( "Block # %i/%i; Event 0x%08LX (%Lu) Wrong received datatype: %s - Skipping",
- iBlock, evtData.fBlockCnt,
- evtData.fEventID, evtData.fEventID,
- DataType2Text(inputDataType).c_str());
- continue;
- }
- else {
- HLTDebug("We get the right data type: Block # %i/%i; Event 0x%08LX (%Lu) Received datatype: %s; Block Size: %i",
- iBlock, evtData.fBlockCnt-1,
- evtData.fEventID, evtData.fEventID,
- DataType2Text(inputDataType).c_str(),
- block.fSize);
- }
+ TCAarray[0] = fTracksArray;
+ AliHLTTRDUtils::ReadTracks(TCAarray[0], pBlock->fPtr, pBlock->fSize, &nTimeBins);
+ usedEntries = 1;
+ blockOrObject = -1;
+ }
- Int_t nTimeBins;
- AliHLTTRDUtils::ReadTracks(fTracksArray, block.fPtr, block.fSize, &nTimeBins);
-
- if(!fRecievedTimeBins){
- HLTDebug("Reading number of time bins from input block. Value is: %d", nTimeBins);
- fTRDCalibraFillHisto->Init2Dhistos(); // initialise the histos
- fTRDCalibraFillHisto->SetNumberClusters(0); // At least 1 clusters
- fTRDCalibraFillHisto->SetNumberClustersf(nTimeBins); // Not more than %d clusters
- fRecievedTimeBins=kTRUE;
+ for(const TObject *iter = GetFirstInputObject(AliHLTTRDDefinitions::fgkHiLvlTracksDataType); iter; iter = GetNextInputObject())
+ {
+ if(blockOrObject<0){
+ HLTError("You may not mix high level and low level!");
+ return -1;
}
- Int_t nbEntries = fTracksArray->GetEntries();
- HLTDebug(" %i TRDtracks in tracksArray", nbEntries);
- AliTRDtrackV1* trdTrack = 0x0;
- for (Int_t i = 0; i < nbEntries; i++){
- HLTDebug("%i/%i: ", i+1, nbEntries);
- trdTrack = (AliTRDtrackV1*)fTracksArray->At(i);
- trdTrack->Print();
- fTRDCalibraFillHisto->UpdateHistogramsV1(trdTrack);
+ TCAarray[usedEntries] = dynamic_cast<TClonesArray*>(const_cast<TObject*>(iter));
+ if(!TCAarray[usedEntries])continue;
+ TObjString* strg = dynamic_cast<TObjString*>(const_cast<TObject*>(GetNextInputObject()));
+ if(!strg)continue;
+
+ nTimeBins = strg->String().Atoi();
+ usedEntries++;
+ blockOrObject = 1;
+ }
+
+ if(!blockOrObject)
+ return 0;
+
+ if(!fSavedTimeBins){
+ if(nTimeBins<0){
+ HLTFatal("Number of timebins is negative!");
+ return -1;
+ }
+ HLTDebug("Saving number of time bins which was read from input block. Value is: %d", nTimeBins);
+ fTRDCalibraFillHisto->Init2Dhistos(nTimeBins); // initialise the histos
+ fTRDCalibraFillHisto->SetNumberClusters(fMinClusters); // At least fMinClusters clusters
+ fTRDCalibraFillHisto->SetNumberClustersf(nTimeBins); // Not more than %d clusters
+ fSavedTimeBins=kTRUE;
+ }
+
+ Bool_t TriggerPassed = fTakeAllEvents;
+
+ if(fAccRejTrg){
+ if(fAccRejTrg>0){
+ TriggerPassed=kFALSE;
+ for(int i = 0; i < fTrgStrings->GetEntriesFast(); i++){
+ const TObjString *const obString=(TObjString*)fTrgStrings->At(i);
+ const TString tString=obString->GetString();
+ if(CheckCTPTrigger(tString.Data())>0){TriggerPassed=kTRUE; break;}
}
-
- if(!fOutArray->At(0))FormOutput();
- if (fNevent%feveryNevent==0 && fOutArray) {
- PushBack(fOutArray, AliHLTTRDDefinitions::fgkCalibrationDataType);
+ }
+ else{
+ TriggerPassed=kTRUE;
+ for(int i = 0; i < fTrgStrings->GetEntriesFast(); i++){
+ const TObjString *const obString=(TObjString*)fTrgStrings->At(i);
+ const TString tString=obString->GetString();
+ if(CheckCTPTrigger(tString.Data())>0){TriggerPassed=kFALSE; break;}
}
+ }
+ }
+
+ fTRDCalibraFillHisto->SetCH2dOn(TriggerPassed);
+ fTRDCalibraFillHisto->SetPH2dOn(TriggerPassed);
+ for(int i=0; i<usedEntries; i++){
+ const TClonesArray* inArr = TCAarray[i];
+ Int_t nbEntries = inArr->GetEntries();
+ HLTDebug(" %i TRDtracks in tracksArray", nbEntries);
+ AliTRDtrackV1* trdTrack = 0x0;
+ for (Int_t ii = 0; ii < nbEntries; ii++){
+ HLTDebug("%i/%i: ", ii+1, nbEntries);
+ trdTrack = (AliTRDtrackV1*)inArr->At(ii);
+ if(trdTrack->GetNumberOfTracklets()<fMinTracklets)continue;
+ fTRDCalibraFillHisto->UpdateHistogramsV1(trdTrack);
+ // for(int i3=0; i3<7; i3++)
+ // if(trdTrack->GetTracklet(i3))trdTrack->GetTracklet(i3)->Bootstrap(fReconstructor);
+ }
+ }
- fTracksArray->Delete();
- fNevent++;
+ if(!fOutArray->At(0))FormOutput(0);
+ if(!fDisplayArray->At(0))FormOutput(1);
+ PushBack(fDisplayArray, AliHLTTRDDefinitions::fgkCalibrationDataType);
+
+ if(blockOrObject<0){
+ TCAarray[0]->Delete();
+ }
- }
return 0;
}
* Form output array of histrograms
*/
//============================================================================
-void AliHLTTRDCalibrationComponent::FormOutput()
+void AliHLTTRDCalibrationComponent::FormOutput(Int_t param)
{
// gain histo
TH2I *hCH2d = fTRDCalibraFillHisto->GetCH2d();
- fOutArray->Add(hCH2d);
+ if(!param)fOutArray->Add(hCH2d);
+ else fDisplayArray->Add(hCH2d);
// drift velocity histo
TProfile2D *hPH2d = fTRDCalibraFillHisto->GetPH2d();
- fOutArray->Add(hPH2d);
+ if(!param)fOutArray->Add(hPH2d);
+ else fDisplayArray->Add(hPH2d);
// PRF histo
TProfile2D *hPRF2d = fTRDCalibraFillHisto->GetPRF2d();
- fOutArray->Add(hPRF2d);
+ if(!param)fOutArray->Add(hPRF2d);
+ else fDisplayArray->Add(hPRF2d);
+
+ // Vdrift Linear Fit
+ if(!param){
+ AliTRDCalibraVdriftLinearFit *hVdriftLinearFitOne=(AliTRDCalibraVdriftLinearFit *)fTRDCalibraFillHisto->GetVdriftLinearFit();
+ fOutArray->Add(hVdriftLinearFitOne);
+ }
+ else{
+ TH2S *hVdriftLinearFitOne = (TH2S *)(((AliTRDCalibraVdriftLinearFit *)fTRDCalibraFillHisto->GetVdriftLinearFit())->GetLinearFitterHisto(10,kTRUE));
+ fDisplayArray->Add(hVdriftLinearFitOne);
+ }
- HLTDebug("GetCH2d = 0x%x; NEntries = %i; size = %i", hCH2d, hCH2d->GetEntries(), sizeof(hCH2d));
+ HLTDebug("GetCH2d = 0x%x; NEntries = %i; size = %i", hCH2d, hCH2d->GetEntries(), sizeof(*hCH2d));
hCH2d->Print();
- HLTDebug("GetPH2d = 0x%x; NEntries = %i; size = %i", hPH2d, hPH2d->GetEntries(), sizeof(hPH2d));
+ HLTDebug("GetPH2d = 0x%x; NEntries = %i; size = %i", hPH2d, hPH2d->GetEntries(), sizeof(*hPH2d));
hPH2d->Print();
- HLTDebug("GetPRF2d = 0x%x; NEntries = %i; size = %i", hPRF2d, hPRF2d->GetEntries(), sizeof(hPRF2d));
+ HLTDebug("GetPRF2d = 0x%x; NEntries = %i; size = %i", hPRF2d, hPRF2d->GetEntries(), sizeof(*hPRF2d));
hPRF2d->Print();
+ //HLTDebug("GetVdriftLinearFit = 0x%x; size = %i", hVdriftLinearFitOne, sizeof(hVdriftLinearFitOne));
+
HLTDebug("output Array: pointer = 0x%x; NEntries = %i; size = %i", fOutArray, fOutArray->GetEntries(), sizeof(fOutArray));
+
}
Int_t AliHLTTRDCalibrationComponent::ShipDataToFXS(const AliHLTComponentEventData& /*evtData*/, AliHLTComponentTriggerData& /*trigData*/)
{
- //fTRDCalibraFillHisto->DestroyDebugStreamer();
- PushToFXS((TObject*)fOutArray, "TRD", "GAINDRIFTPRF");
+ AliHLTReadoutList rdList(AliHLTReadoutList::kTRD);
+
+ EORCalibration();
+
+ fOutArray->Remove(fOutArray->FindObject("AliTRDCalibraVdriftLinearFit"));
+ //fOutArray->Remove(fOutArray->FindObject("PRF2d"));
+ //fOutArray->Remove(fOutArray->FindObject("PH2d"));
+ //fOutArray->Remove(fOutArray->FindObject("CH2d"));
+
+ if(!(fOutArray->FindObject("CH2d"))) {
+ TH2I * ch2d = new TH2I("CH2d","Nz0Nrphi0",100,0.0,300.0,540,0,540);
+ fOutArray->Add(ch2d);
+ }
+
+ if(!(fOutArray->FindObject("PH2d"))) {
+ TProfile2D * ph2d = new TProfile2D("PH2d","Nz0Nrphi0",30,-0.05,2.95,540,0,540);
+ fOutArray->Add(ph2d);
+ }
+
+ if(!(fOutArray->FindObject("PRF2d"))) {
+ TProfile2D * prf2d = new TProfile2D("PRF2d","Nz0Nrphi0Ngp3",60,-9.0,9.0,540,0,540);
+ fOutArray->Add(prf2d);
+ }
+
+ HLTDebug("Size of the fOutArray is %d\n",fOutArray->GetEntriesFast());
+
+ PushToFXS((TObject*)fOutArray, "TRD", "GAINDRIFTPRF", &rdList );
+ //PushToFXS((TObject*)fOutArray->FindObject("CH2d"), "TRD", "GAINDRIFTPRF", rdList.Buffer() );
+
return 0;
}
+
+Int_t AliHLTTRDCalibrationComponent::EORCalibration()
+{
+ //Also Fill histograms for the online display
+ TH2I *hCH2d=(TH2I*)fOutArray->FindObject("CH2d");
+ TProfile2D *hPH2d=(TProfile2D*)fOutArray->FindObject("PH2d");
+ TProfile2D *hPRF2d= (TProfile2D*)fOutArray->FindObject("PRF2d");
+ AliTRDCalibraVdriftLinearFit* hVdriftLinearFit = (AliTRDCalibraVdriftLinearFit*)fOutArray->FindObject("AliTRDCalibraVdriftLinearFit");
+
+
+ if(!hCH2d || !hPH2d || !hPRF2d || !hVdriftLinearFit) return 0;
+
+ //Fit
+ AliTRDCalibraFit *calibra = AliTRDCalibraFit::Instance();
+
+ //Gain
+ calibra->SetMinEntries(100);
+ calibra->AnalyseCH(hCH2d);
+ //Int_t nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(0))
+ // + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(0));
+ //Int_t nbfit = calibra->GetNumberFit();
+ //Int_t nbE = calibra->GetNumberEnt();
+ TH1F *coefgain = 0x0;
+ // enough statistics
+ //if ((nbtg > 0) &&
+ // (nbfit >= 0.2*nbE)) {
+ // create the cal objects
+ //calibra->PutMeanValueOtherVectorFit(1,kTRUE);
+ TObjArray object = calibra->GetVectorFit();
+ AliTRDCalDet *objgaindet = calibra->CreateDetObjectGain(&object,kFALSE);
+ coefgain = objgaindet->MakeHisto1DAsFunctionOfDet();
+ //}
+ calibra->ResetVectorFit();
+
+ // vdrift second method
+ calibra->SetMinEntries(100); // If there is less than 100
+ hVdriftLinearFit->FillPEArray();
+ calibra->AnalyseLinearFitters(hVdriftLinearFit);
+ //nbtg = 540;
+ //nbfit = calibra->GetNumberFit();
+ //nbE = calibra->GetNumberEnt();
+ TH1F *coefdriftsecond = 0x0;
+ // enough statistics
+ //if ((nbtg > 0) &&
+ // (nbfit >= 0.1*nbE)) {
+ // create the cal objects
+ //calibra->PutMeanValueOtherVectorFit(1,kTRUE);
+ object = calibra->GetVectorFit();
+ AliTRDCalDet *objdriftvelocitydetsecond = calibra->CreateDetObjectVdrift(&object,kTRUE);
+ objdriftvelocitydetsecond->SetTitle("secondmethodvdrift");
+ coefdriftsecond = objdriftvelocitydetsecond->MakeHisto1DAsFunctionOfDet();
+ //}
+ calibra->ResetVectorFit();
+
+ // vdrift first method
+ calibra->SetMinEntries(100*20); // If there is less than 20000
+ calibra->AnalysePH(hPH2d);
+ //nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(1))
+ // + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(1));
+ //nbfit = calibra->GetNumberFit();
+ //nbE = calibra->GetNumberEnt();
+ TH1F *coefdrift = 0x0;
+ TH1F *coeft0 = 0x0;
+ // enough statistics
+ //if ((nbtg > 0) &&
+ // (nbfit >= 0.2*nbE)) {
+ // create the cal objects
+ //calibra->PutMeanValueOtherVectorFit(1,kTRUE);
+ //calibra->PutMeanValueOtherVectorFit2(1,kTRUE);
+ object = calibra->GetVectorFit();
+ AliTRDCalDet *objdriftvelocitydet = calibra->CreateDetObjectVdrift(&object,kTRUE);
+ coefdrift = objdriftvelocitydet->MakeHisto1DAsFunctionOfDet();
+ object = calibra->GetVectorFit2();
+ AliTRDCalDet *objtime0det = calibra->CreateDetObjectT0(&object,kTRUE);
+ coeft0 = objtime0det->MakeHisto1DAsFunctionOfDet();
+ //}
+ calibra->ResetVectorFit();
+
+
+ //PRF
+ calibra->SetMinEntries(200);
+ calibra->AnalysePRFMarianFit(hPRF2d);
+ //nbtg = 6*4*18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb0(2))
+ // + 6* 18*((Int_t) ((AliTRDCalibraMode *)calibra->GetCalibraMode())->GetDetChamb2(2));
+ //nbfit = calibra->GetNumberFit();
+ //nbE = calibra->GetNumberEnt();
+ TH1F *coefprf = 0x0;
+ // enough statistics
+ //if ((nbtg > 0) &&
+ // (nbfit >= 0.95*nbE)) {
+ // create cal pad objects
+ object = calibra->GetVectorFit();
+ TObject *objPRFpad = calibra->CreatePadObjectPRF(&object);
+ coefprf = ((AliTRDCalPad *) objPRFpad)->MakeHisto1D();
+ //}
+ calibra->ResetVectorFit();
+
+
+ coefgain->SetName("coefgain");
+ coefprf->SetName("coefprf");
+ coefdrift->SetName("coefdrift");
+ coefdriftsecond->SetName("coefdriftsecond");
+ coeft0->SetName("coeft0");
+ fAfterRunArray->Add(coefgain);
+ fAfterRunArray->Add(coefprf);
+ fAfterRunArray->Add(coefdrift);
+ fAfterRunArray->Add(coefdriftsecond);
+ fAfterRunArray->Add(coeft0);
+
+ PushBack(fAfterRunArray, AliHLTTRDDefinitions::fgkEORCalibrationDataType);
+
+ // TString fileName="/tmp/CalibHistoDump_run";
+ // fileName+=AliCDBManager::Instance()->GetRun();
+ // fileName+=".root";
+ // HLTInfo("Dumping Histogram file to %s",fileName.Data());
+ // TFile* file = TFile::Open(fileName, "RECREATE");
+ // fAfterRunArray->Write();
+ // fOutArray->Write();
+ // file->Close();
+ // HLTInfo("Histogram file dumped");
+
+ return 0;
+}
+