-/**************************************************************************
- * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
- * *
- * Author: The ALICE Off-line Project. *
- * Contributors are mentioned in the code where appropriate. *
- * *
- * 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. *
- **************************************************************************/
+//**************************************************************************
+// * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
+// * *
+// * Author: The ALICE Off-line Project. *
+// * Contributors are mentioned in the code where appropriate. *
+// * *
+// * 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. *
+//**************************************************************************/
/* $Id$ */
// in the function "FollowBackProlongation" (AliTRDtracker)
// Per default the functions to fill are off.
//
-// Author:
-// R. Bailhache (R.Bailhache@gsi.de)
+// Authors:
+// R. Bailhache (R.Bailhache@gsi.de, rbailhache@ikf.uni-frankfurt.de)
+// J. Book (jbook@ikf.uni-frankfurt.de)
//
//////////////////////////////////////////////////////////////////////////////////////
#include <TDirectory.h>
#include <TTreeStream.h>
#include <TVectorD.h>
+#include <TLinearFitter.h>
#include "AliLog.h"
#include "AliTRDCalibraVdriftLinearFit.h"
#include "AliTRDcalibDB.h"
#include "AliTRDCommonParam.h"
-#include "AliTRDmcmTracklet.h"
#include "AliTRDpadPlane.h"
#include "AliTRDcluster.h"
-#include "AliTRDtrack.h"
-#include "AliTRDRawStream.h"
+#include "AliTRDtrackV1.h"
#include "AliRawReader.h"
#include "AliRawReaderDate.h"
#include "AliTRDgeometry.h"
#include "./Cal/AliTRDCalROC.h"
+#include "./Cal/AliTRDCalPad.h"
#include "./Cal/AliTRDCalDet.h"
+#include "AliTRDdigitsManager.h"
+#include "AliTRDdigitsParam.h"
+#include "AliTRDSignalIndex.h"
+#include "AliTRDarrayADC.h"
+
+#include "AliTRDrawStream.h"
+
+#include "AliCDBEntry.h"
+#include "AliCDBManager.h"
+
#ifdef ALI_DATE
#include "event.h"
#endif
AliTRDCalibraFillHisto::AliTRDCalibraFillHisto()
:TObject()
,fGeo(0)
- ,fMITracking(kFALSE)
- ,fMcmTracking(kFALSE)
- ,fMcmCorrectAngle(kFALSE)
+ ,fCalibDB(0)
+ ,fIsHLT(kFALSE)
,fCH2dOn(kFALSE)
,fPH2dOn(kFALSE)
,fPRF2dOn(kFALSE)
,fLinearFitterDebugOn(kFALSE)
,fRelativeScale(0)
,fThresholdClusterPRF2(15.0)
+ ,fLimitChargeIntegration(kFALSE)
+ ,fFillWithZero(kFALSE)
+ ,fNormalizeNbOfCluster(kFALSE)
+ ,fMaxCluster(0)
+ ,fNbMaxCluster(0)
+ ,fFirstRunGain(0)
+ ,fVersionGainUsed(0)
+ ,fSubVersionGainUsed(0)
+ ,fFirstRunGainLocal(0)
+ ,fVersionGainLocalUsed(0)
+ ,fSubVersionGainLocalUsed(0)
+ ,fFirstRunVdrift(0)
+ ,fVersionVdriftUsed(0)
+ ,fSubVersionVdriftUsed(0)
,fCalibraMode(new AliTRDCalibraMode())
,fDebugStreamer(0)
,fDebugLevel(0)
- ,fDetectorAliTRDtrack(kFALSE)
,fDetectorPreviousTrack(-1)
- ,fNumberClusters(18)
+ ,fMCMPrevious(-1)
+ ,fROBPrevious(-1)
+ ,fNumberClusters(1)
+ ,fNumberClustersf(30)
+ ,fNumberClustersProcent(0.5)
+ ,fThresholdClustersDAQ(120.0)
+ ,fNumberRowDAQ(2)
+ ,fNumberColDAQ(4)
,fProcent(6.0)
,fDifference(17)
,fNumberTrack(0)
,fTimeMax(0)
,fSf(10.0)
- ,fNumberBinCharge(100)
- ,fNumberBinPRF(40)
- ,fNgroupprf(0)
- ,fListClusters(new TObjArray())
- ,fPar0(0x0)
- ,fPar1(0x0)
- ,fPar2(0x0)
- ,fPar3(0x0)
- ,fPar4(0x0)
+ ,fNumberBinCharge(50)
+ ,fNumberBinPRF(10)
+ ,fNgroupprf(3)
,fAmpTotal(0x0)
,fPHPlace(0x0)
,fPHValue(0x0)
,fGoodTracklet(kTRUE)
- ,fGoodTrack(kTRUE)
+ ,fLinearFitterTracklet(0x0)
,fEntriesCH(0x0)
,fEntriesLinearFitter(0x0)
,fCalibraVector(0x0)
,fLinearVdriftFit(0x0)
,fCalDetGain(0x0)
,fCalROCGain(0x0)
- ,fCalDetT0(0x0)
- ,fCalROCT0(0x0)
{
//
// Default constructor
fNumberUsedPh[1] = 0;
fGeo = new AliTRDgeometry();
-
+ fCalibDB = AliTRDcalibDB::Instance();
}
//______________________________________________________________________________________
AliTRDCalibraFillHisto::AliTRDCalibraFillHisto(const AliTRDCalibraFillHisto &c)
:TObject(c)
,fGeo(0)
- ,fMITracking(c.fMITracking)
- ,fMcmTracking(c.fMcmTracking)
- ,fMcmCorrectAngle(c.fMcmCorrectAngle)
+ ,fCalibDB(0)
+ ,fIsHLT(c.fIsHLT)
,fCH2dOn(c.fCH2dOn)
,fPH2dOn(c.fPH2dOn)
,fPRF2dOn(c.fPRF2dOn)
,fLinearFitterDebugOn(c.fLinearFitterDebugOn)
,fRelativeScale(c.fRelativeScale)
,fThresholdClusterPRF2(c.fThresholdClusterPRF2)
+ ,fLimitChargeIntegration(c.fLimitChargeIntegration)
+ ,fFillWithZero(c.fFillWithZero)
+ ,fNormalizeNbOfCluster(c.fNormalizeNbOfCluster)
+ ,fMaxCluster(c.fMaxCluster)
+ ,fNbMaxCluster(c.fNbMaxCluster)
+ ,fFirstRunGain(c.fFirstRunGain)
+ ,fVersionGainUsed(c.fVersionGainUsed)
+ ,fSubVersionGainUsed(c.fSubVersionGainUsed)
+ ,fFirstRunGainLocal(c.fFirstRunGainLocal)
+ ,fVersionGainLocalUsed(c.fVersionGainLocalUsed)
+ ,fSubVersionGainLocalUsed(c.fSubVersionGainLocalUsed)
+ ,fFirstRunVdrift(c.fFirstRunVdrift)
+ ,fVersionVdriftUsed(c.fVersionVdriftUsed)
+ ,fSubVersionVdriftUsed(c.fSubVersionVdriftUsed)
,fCalibraMode(0x0)
,fDebugStreamer(0)
,fDebugLevel(c.fDebugLevel)
- ,fDetectorAliTRDtrack(c.fDetectorAliTRDtrack)
,fDetectorPreviousTrack(c.fDetectorPreviousTrack)
+ ,fMCMPrevious(c.fMCMPrevious)
+ ,fROBPrevious(c.fROBPrevious)
,fNumberClusters(c.fNumberClusters)
+ ,fNumberClustersf(c.fNumberClustersf)
+ ,fNumberClustersProcent(c.fNumberClustersProcent)
+ ,fThresholdClustersDAQ(c.fThresholdClustersDAQ)
+ ,fNumberRowDAQ(c.fNumberRowDAQ)
+ ,fNumberColDAQ(c.fNumberColDAQ)
,fProcent(c.fProcent)
,fDifference(c.fDifference)
,fNumberTrack(c.fNumberTrack)
,fNumberBinCharge(c.fNumberBinCharge)
,fNumberBinPRF(c.fNumberBinPRF)
,fNgroupprf(c.fNgroupprf)
- ,fListClusters(new TObjArray())
- ,fPar0(0x0)
- ,fPar1(0x0)
- ,fPar2(0x0)
- ,fPar3(0x0)
- ,fPar4(0x0)
,fAmpTotal(0x0)
,fPHPlace(0x0)
,fPHValue(0x0)
,fGoodTracklet(c.fGoodTracklet)
- ,fGoodTrack(c.fGoodTrack)
+ ,fLinearFitterTracklet(0x0)
,fEntriesCH(0x0)
,fEntriesLinearFitter(0x0)
,fCalibraVector(0x0)
,fLinearVdriftFit(0x0)
,fCalDetGain(0x0)
,fCalROCGain(0x0)
- ,fCalDetT0(0x0)
- ,fCalROCT0(0x0)
{
//
// Copy constructor
}
if(c.fCalDetGain) fCalDetGain = new AliTRDCalDet(*c.fCalDetGain);
- if(c.fCalDetT0) fCalDetT0 = new AliTRDCalDet(*c.fCalDetT0);
if(c.fCalROCGain) fCalROCGain = new AliTRDCalROC(*c.fCalROCGain);
- if(c.fCalROCT0) fCalROCT0 = new AliTRDCalROC(*c.fCalROCT0);
if (fGeo) {
delete fGeo;
}
fGeo = new AliTRDgeometry();
+ fCalibDB = AliTRDcalibDB::Instance();
+
+ fNumberUsedCh[0] = 0;
+ fNumberUsedCh[1] = 0;
+ fNumberUsedPh[0] = 0;
+ fNumberUsedPh[1] = 0;
+
}
//____________________________________________________________________________________
if ( fDebugStreamer ) delete fDebugStreamer;
if ( fCalDetGain ) delete fCalDetGain;
- if ( fCalDetT0 ) delete fCalDetT0;
if ( fCalROCGain ) delete fCalROCGain;
- if ( fCalROCT0 ) delete fCalROCT0;
+ if( fLinearFitterTracklet ) { delete fLinearFitterTracklet; }
+
+ delete [] fPHPlace;
+ delete [] fPHValue;
+ delete [] fEntriesCH;
+ delete [] fEntriesLinearFitter;
+ delete [] fAmpTotal;
+
+ for(Int_t idet=0; idet<AliTRDgeometry::kNdet; idet++){
+ TLinearFitter *f = (TLinearFitter*)fLinearFitterArray.At(idet);
+ if(f) { delete f;}
+ }
+ if(fLinearVdriftFit) delete fLinearVdriftFit;
if (fGeo) {
delete fGeo;
}
}
-
//_____________________________________________________________________________
void AliTRDCalibraFillHisto::Destroy()
{
delete fgInstance;
fgInstance = 0x0;
}
-
}
+//_____________________________________________________________________________
+void AliTRDCalibraFillHisto::DestroyDebugStreamer()
+{
+ //
+ // Delete DebugStreamer
+ //
+ if ( fDebugStreamer ) delete fDebugStreamer;
+ fDebugStreamer = 0x0;
+
+}
//_____________________________________________________________________________
void AliTRDCalibraFillHisto::ClearHistos()
{
}
}
-
-//____________Functions for initialising the AliTRDCalibraFillHisto in the code_________
-Bool_t AliTRDCalibraFillHisto::Init2Dhistos()
-{
- //
- // For the offline tracking
- // This function will be called in the function AliReconstruction::Run()
- // Init the calibration mode (Nz, Nrphi), the 2D histograms if fHisto2d = kTRUE,
- //
-
- Init2Dhistostrack();
-
- //Init the tracklet parameters
- fPar0 = new Double_t[fTimeMax];
- fPar1 = new Double_t[fTimeMax];
- fPar2 = new Double_t[fTimeMax];
- fPar3 = new Double_t[fTimeMax];
- fPar4 = new Double_t[fTimeMax];
-
- for(Int_t k = 0; k < fTimeMax; k++){
- fPar0[k] = 0.0;
- fPar1[k] = 0.0;
- fPar2[k] = 0.0;
- fPar3[k] = 0.0;
- fPar4[k] = 0.0;
- }
- return kTRUE;
-}
-
+//////////////////////////////////////////////////////////////////////////////////
+// calibration with AliTRDtrackV1: Init, Update
+//////////////////////////////////////////////////////////////////////////////////
//____________Functions for initialising the AliTRDCalibraFillHisto in the code_________
-Bool_t AliTRDCalibraFillHisto::Init2Dhistostrack()
+Bool_t AliTRDCalibraFillHisto::Init2Dhistos(Int_t nboftimebin)
{
//
- // For the offline tracking
- // This function will be called in the function AliReconstruction::Run()
- // Init the calibration mode (Nz, Nrphi), the 2D histograms if fHisto2d = kTRUE,
+ // Init the histograms and stuff to be filled
//
// DB Setting
}
// Some parameters
- fTimeMax = cal->GetNumberOfTimeBins();
- fSf = parCom->GetSamplingFrequency();
- fRelativeScale = 20;
+ if(nboftimebin > 0) fTimeMax = nboftimebin;
+ else fTimeMax = cal->GetNumberOfTimeBinsDCS();
+ if(fTimeMax <= 0) fTimeMax = 30;
+ printf("////////////////////////////////////////////\n");
+ printf("Number of time bins in calibration component %d\n",fTimeMax);
+ printf("////////////////////////////////////////////\n");
+ fSf = parCom->GetSamplingFrequency();
+ if(!fNormalizeNbOfCluster) fRelativeScale = 20.0;
+ else fRelativeScale = 1.18;
+ fNumberClustersf = fTimeMax;
+ fNumberClusters = (Int_t)(fNumberClustersProcent*fTimeMax);
- //calib object from database used for reconstruction
- if(fCalDetGain) delete fCalDetGain;
- fCalDetGain = new AliTRDCalDet(*(cal->GetGainFactorDet()));
- if(fCalDetT0) delete fCalDetT0;
- fCalDetT0 = new AliTRDCalDet(*(cal->GetT0Det()));
+ // Init linear fitter
+ if(!fLinearFitterTracklet) {
+ fLinearFitterTracklet = new TLinearFitter(2,"pol1");
+ fLinearFitterTracklet->StoreData(kTRUE);
+ }
// Calcul Xbins Chambd0, Chamb2
Int_t ntotal0 = CalculateTotalNumberOfBins(0);
fCalibraVector->SetDetCha0(k,fCalibraMode->GetDetChamb0(k));
fCalibraVector->SetDetCha2(k,fCalibraMode->GetDetChamb2(k));
}
- TString namech("Nz");
- namech += fCalibraMode->GetNz(0);
- namech += "Nrphi";
- namech += fCalibraMode->GetNrphi(0);
- fCalibraVector->SetNameCH((const char* ) namech);
- TString nameph("Nz");
- nameph += fCalibraMode->GetNz(1);
- nameph += "Nrphi";
- nameph += fCalibraMode->GetNrphi(1);
- fCalibraVector->SetNamePH((const char* ) nameph);
- TString nameprf("Nz");
- nameprf += fCalibraMode->GetNz(2);
- nameprf += "Nrphi";
- nameprf += fCalibraMode->GetNrphi(2);
- nameprf += "Ngp";
- nameprf += fNgroupprf;
- fCalibraVector->SetNamePRF((const char* ) nameprf);
+ fCalibraVector->SetNzNrphi(0,fCalibraMode->GetNz(0),fCalibraMode->GetNrphi(0));
+ fCalibraVector->SetNzNrphi(1,fCalibraMode->GetNz(1),fCalibraMode->GetNrphi(1));
+ fCalibraVector->SetNzNrphi(2,fCalibraMode->GetNz(2),fCalibraMode->GetNrphi(2));
+ fCalibraVector->SetNbGroupPRF(fNgroupprf);
}
// Create the 2D histos corresponding to the pad groupCalibration mode
}
}
if (fLinearFitterOn) {
- //fLinearFitterArray.Expand(540);
- fLinearFitterArray.SetName("ArrayLinearFitters");
- fEntriesLinearFitter = new Int_t[540];
- for(Int_t k = 0; k < 540; k++){
- fEntriesLinearFitter[k] = 0;
+ if(fLinearFitterDebugOn) {
+ fLinearFitterArray.SetName("ArrayLinearFitters");
+ fEntriesLinearFitter = new Int_t[540];
+ for(Int_t k = 0; k < 540; k++){
+ fEntriesLinearFitter[k] = 0;
+ }
}
fLinearVdriftFit = new AliTRDCalibraVdriftLinearFit();
}
return kTRUE;
}
-
-//____________Functions for filling the histos in the code_____________________
-
-//____________Offine tracking in the AliTRDtracker_____________________________
-Bool_t AliTRDCalibraFillHisto::ResetTrack()
+///////////////////////////////////////////////////////////////////////////////////////////////////////////////
+Bool_t AliTRDCalibraFillHisto::InitCalDet()
{
//
- // For the offline tracking
- // This function will be called in the function
- // AliTRDtracker::FollowBackPropagation() at the beginning
- // Reset the parameter to know we have a new TRD track
+ // Init the Gain Cal Det
//
+
+ // DB Setting
+ // Get cal
+ AliCDBEntry *entry = AliCDBManager::Instance()->Get("TRD/Calib/ChamberGainFactor",fFirstRunGain,fVersionGainUsed,fSubVersionGainUsed);
+ if(!entry) {
+ AliError("No gain det calibration entry found");
+ return kFALSE;
+ }
+ AliTRDCalDet *calDet = (AliTRDCalDet *)entry->GetObject();
+ if(!calDet) {
+ AliError("No calDet gain found");
+ return kFALSE;
+ }
+
+
+ if( fCalDetGain ){
+ fCalDetGain->~AliTRDCalDet();
+ new(fCalDetGain) AliTRDCalDet(*(calDet));
+ }else fCalDetGain = new AliTRDCalDet(*(calDet));
- fDetectorAliTRDtrack = kFALSE;
- //fGoodTrack = kTRUE;
- return kTRUE;
+
+ // title CH2d
+ TString name("Ver");
+ name += fVersionGainUsed;
+ name += "Subver";
+ name += fSubVersionGainUsed;
+ name += "FirstRun";
+ name += fFirstRunGain;
+ name += "Nz";
+ name += fCalibraMode->GetNz(0);
+ name += "Nrphi";
+ name += fCalibraMode->GetNrphi(0);
-}
-//____________Offine tracking in the AliTRDtracker_____________________________
-void AliTRDCalibraFillHisto::ResetfVariables()
-{
- //
- // Reset values per tracklet
- //
+ fCH2d->SetTitle(name);
+
+ // title PH2d
+ TString namee("Ver");
+ namee += fVersionVdriftUsed;
+ namee += "Subver";
+ namee += fSubVersionVdriftUsed;
+ namee += "FirstRun";
+ namee += fFirstRunVdrift;
+ namee += "Nz";
+ namee += fCalibraMode->GetNz(1);
+ namee += "Nrphi";
+ namee += fCalibraMode->GetNrphi(1);
+
+ fPH2d->SetTitle(namee);
- // Reset the list of clusters
- fListClusters->Clear();
- //Reset the tracklet parameters
- for(Int_t k = 0; k < fTimeMax; k++){
- fPar0[k] = 0.0;
- fPar1[k] = 0.0;
- fPar2[k] = 0.0;
- fPar3[k] = 0.0;
- fPar4[k] = 0.0;
- }
+ return kTRUE;
- ResetfVariablestrack();
-
}
-//____________Offine tracking in the AliTRDtracker_____________________________
-void AliTRDCalibraFillHisto::ResetfVariablestrack()
+///////////////////////////////////////////////////////////////////////////////////////////////////////////////
+Bool_t AliTRDCalibraFillHisto::InitCalPad(Int_t detector)
{
//
- // Reset values per tracklet
+ // Init the Gain Cal Pad
//
- //Reset good tracklet
- fGoodTracklet = kTRUE;
-
- // Reset the fPHValue
- if (fPH2dOn) {
- //Reset the fPHValue and fPHPlace
- for (Int_t k = 0; k < fTimeMax; k++) {
- fPHValue[k] = 0.0;
- fPHPlace[k] = -1;
- }
+ // DB Setting
+ // Get cal
+ AliCDBEntry *entry = AliCDBManager::Instance()->Get("TRD/Calib/LocalGainFactor",AliCDBManager::Instance()->GetRun(),fVersionGainLocalUsed,fSubVersionGainLocalUsed);
+ if(!entry) {
+ AliError("No gain pad calibration entry found");
+ return kFALSE;
}
-
- // Reset the fAmpTotal where we put value
- if (fCH2dOn) {
- for (Int_t k = 0; k < fCalibraMode->GetNfragZ(0)*fCalibraMode->GetNfragRphi(0); k++) {
- fAmpTotal[k] = 0.0;
- }
+ AliTRDCalPad *calPad = (AliTRDCalPad *)entry->GetObject();
+ if(!calPad) {
+ AliError("No calPad gain found");
+ return kFALSE;
+ }
+ AliTRDCalROC *calRoc = (AliTRDCalROC *)calPad->GetCalROC(detector);
+ if(!calRoc) {
+ AliError("No calRoc gain found");
+ return kFALSE;
}
+
+ if( fCalROCGain ){
+ fCalROCGain->~AliTRDCalROC();
+ new(fCalROCGain) AliTRDCalROC(*(calRoc));
+ }else fCalROCGain = new AliTRDCalROC(*(calRoc));
+
+
+
+
+
+ return kTRUE;
+
}
//____________Offline tracking in the AliTRDtracker____________________________
-Bool_t AliTRDCalibraFillHisto::UpdateHistograms(AliTRDtrack *t)
+Bool_t AliTRDCalibraFillHisto::UpdateHistogramsV1(const AliTRDtrackV1 *t)
{
//
- // For the offline tracking
- // This function will be called in the function
- // AliTRDtracker::FollowBackPropagation() in the loop over the clusters
- // of TRD tracks
- // Fill the 2D histos or the vectors with the info of the clusters at
- // the end of a detectors if the track is "good"
+ // Use AliTRDtrackV1 for the calibration
//
-
- AliTRDcluster *cl = 0x0;
- Int_t index0 = 0;
- Int_t index1 = 0;
+ const AliTRDseedV1 *tracklet = 0x0; // tracklet per plane
+ AliTRDcluster *cl = 0x0; // cluster attached now to the tracklet
+ AliTRDcluster *cls = 0x0; // shared cluster attached now to the tracklet
+ Bool_t newtr = kTRUE; // new track
- // reset if good track
- fGoodTrack = kTRUE;
+ // Get cal
+ // AliTRDcalibDB *cal = AliTRDcalibDB::Instance();
+ /*
+ if (!cal) {
+ AliInfo("Could not get calibDB");
+ return kFALSE;
+ }
+*/
+ if (!fCalibDB) {
+ AliInfo("Could not get calibDB");
+ return kFALSE;
+ }
- // loop over the clusters
- while((cl = t->GetCluster(index1))){
-
- // Localisation of the detector
- Int_t detector = cl->GetDetector();
-
-
- // Fill the infos for the previous clusters if not the same
- // detector anymore but this time it should be the same track
- if ((detector != fDetectorPreviousTrack) &&
- (index0 != index1)) {
-
- fNumberTrack++;
-
- //printf("detector %d, fPreviousdetector %d, plane %d, planeprevious %d, index0 %d, index1 %d la\n",detector,fDetectorPreviousTrack,GetPlane(detector),GetPlane(fDetectorPreviousTrack),index0,index1);
-
- //If the same track, then look if the previous detector is in
- //the same plane, if yes: not a good track
- //FollowBack
- //if (fDetectorAliTRDtrack &&
- // (GetPlane(detector) <= GetPlane(fDetectorPreviousTrack))) {
- //Follow
- if ((GetPlane(detector) >= GetPlane(fDetectorPreviousTrack))) {
- fGoodTrack = kFALSE;
- }
-
- // Fill only if the track doesn't touch a masked pad or doesn't
- // appear in the middle (fGoodTrack)
- if (fGoodTrack && fGoodTracklet) {
-
- // drift velocity unables to cut bad tracklets
- Bool_t pass = FindP1TrackPHtrack(t,index0,index1);
-
- // Gain calibration
- if (fCH2dOn) {
- FillTheInfoOfTheTrackCH();
- }
-
- // PH calibration
- if (fPH2dOn) {
- FillTheInfoOfTheTrackPH();
- }
-
- if(pass && fPRF2dOn) HandlePRFtrack(t,index0,index1);
-
-
- } // if a good track
-
- // reset stuff
- ResetfVariablestrack();
- index0 = index1;
-
- } // Fill at the end the charge
+ ///////////////////////////
+ // loop over the tracklet
+ ///////////////////////////
+ for(Int_t itr = 0; itr < 6; itr++){
- // Calcul the position of the detector and take the calib objects
+ if(!(tracklet = t->GetTracklet(itr))) continue;
+ if(!tracklet->IsOK()) continue;
+ fNumberTrack++;
+ ResetfVariablestracklet();
+
+ //////////////////////////////////////////
+ // localisation of the tracklet and dqdl
+ //////////////////////////////////////////
+ Int_t layer = tracklet->GetPlane();
+ Int_t ic = 0;
+ while(!(cl = tracklet->GetClusters(ic++))) continue;
+ Int_t detector = cl->GetDetector();
if (detector != fDetectorPreviousTrack) {
-
- //Localise the detector
- LocalisationDetectorXbins(detector);
-
- // Get cal
- AliTRDcalibDB *cal = AliTRDcalibDB::Instance();
- if (!cal) {
- AliInfo("Could not get calibDB");
- return kFALSE;
+ // if not a new track
+ if(!newtr){
+ // don't use the rest of this track if in the same plane
+ if (layer == GetLayer(fDetectorPreviousTrack)) {
+ //printf("bad tracklet, same layer for detector %d\n",detector);
+ break;
+ }
}
-
+ //Localise the detector bin
+ LocalisationDetectorXbins(detector);
// Get calib objects
- if( fCalROCGain ) delete fCalROCGain;
- fCalROCGain = new AliTRDCalROC(*(cal->GetGainFactorROC(detector)));
- if( fCalROCT0 ) delete fCalROCT0;
- fCalROCT0 = new AliTRDCalROC(*(cal->GetT0ROC(detector)));
+ if(!fIsHLT) InitCalPad(detector);
+
+ // reset
+ fDetectorPreviousTrack = detector;
+ }
+ newtr = kFALSE;
+
+ ////////////////////////////
+ // loop over the clusters
+ ////////////////////////////
+ Int_t nbclusters = 0;
+ for(int jc=0; jc<AliTRDseedV1::kNtb; jc++){
+ if(!(cl = tracklet->GetClusters(jc))) continue;
+ nbclusters++;
+ // Store the info bis of the tracklet
+ Int_t row = cl->GetPadRow();
+ Int_t col = cl->GetPadCol();
+ CheckGoodTrackletV1(cl);
+ Int_t group[2] = {0,0};
+ if(fCH2dOn) group[0] = CalculateCalibrationGroup(0,row,col);
+ if(fPH2dOn) group[1] = CalculateCalibrationGroup(1,row,col);
+ // Add the charge if shared cluster
+ cls = tracklet->GetClusters(jc+AliTRDseedV1::kNtb);
+ //
+ StoreInfoCHPHtrack(cl, tracklet->GetdQdl(jc),group,row,col,cls);
}
- // Reset the detectbjobsor
- fDetectorPreviousTrack = detector;
-
- // Store the info bis of the tracklet
- Int_t *rowcol = CalculateRowCol(cl);
- CheckGoodTracklet(detector,rowcol);
- Int_t group[2] = {0,0};
- if(fCH2dOn) group[0] = CalculateCalibrationGroup(0,rowcol);
- if(fPH2dOn) group[1] = CalculateCalibrationGroup(1,rowcol);
- StoreInfoCHPHtrack(cl,t,index1,group,rowcol);
-
- index1++;
-
- } // while on clusters
-
- // Fill the last plane
- if( index0 != index1 ){
+ ////////////////////////////////////////
+ // Fill the stuffs if a good tracklet
+ ////////////////////////////////////////
+ if (fGoodTracklet) {
- //printf("fPreviousdetector %d, planeprevious %d, index0 %d, index1 %d li\n",fDetectorPreviousTrack,GetPlane(fDetectorPreviousTrack),index0,index1);
-
- fNumberTrack++;
-
- if (fGoodTrack && fGoodTracklet) {
-
// drift velocity unables to cut bad tracklets
- Bool_t pass = FindP1TrackPHtrack(t,index0,index1);
-
+ Bool_t pass = FindP1TrackPHtrackletV1(tracklet, nbclusters);
+
+ //printf("pass %d and nbclusters %d\n",pass,nbclusters);
+
// Gain calibration
if (fCH2dOn) {
- FillTheInfoOfTheTrackCH();
+ FillTheInfoOfTheTrackCH(nbclusters);
}
-
+
// PH calibration
if (fPH2dOn) {
FillTheInfoOfTheTrackPH();
}
-
- if(pass && fPRF2dOn) HandlePRFtrack(t,index0,index1);
-
- } // if a good track
-
+
+ if(pass && fPRF2dOn) HandlePRFtrackletV1(tracklet,nbclusters);
+
+ } // if a good tracklet
}
-
- // reset stuff
- ResetfVariablestrack();
-
+
return kTRUE;
}
-//____________Offline tracking in the AliTRDtracker____________________________
-Bool_t AliTRDCalibraFillHisto::UpdateHistograms(AliTRDcluster *cl, AliTRDtrack *t)
+///////////////////////////////////////////////////////////////////////////////////
+// Routine inside the update with AliTRDtrack
+///////////////////////////////////////////////////////////////////////////////////
+//____________Offine tracking in the AliTRDtracker_____________________________
+Bool_t AliTRDCalibraFillHisto::FindP1TrackPHtrackletV1(const AliTRDseedV1 *tracklet, Int_t nbclusters)
{
//
- // For the offline tracking
- // This function will be called in the function
- // AliTRDtracker::FollowBackPropagation() in the loop over the clusters
- // of TRD tracks
- // Fill the 2D histos or the vectors with the info of the clusters at
- // the end of a detectors if the track is "good"
+ // Drift velocity calibration:
+ // Fit the clusters with a straight line
+ // From the slope find the drift velocity
//
- // Localisation of the detector
- Int_t detector = cl->GetDetector();
+ ////////////////////////////////////////////////
+ //Number of points: if less than 3 return kFALSE
+ /////////////////////////////////////////////////
+ if(nbclusters <= 2) return kFALSE;
+
+ ////////////
+ //Variables
+ ////////////
+ // results of the linear fit
+ Double_t dydt = 0.0; // dydt tracklet after straight line fit
+ Double_t errorpar = 0.0; // error after straight line fit on dy/dt
+ Double_t pointError = 0.0; // error after straight line fit
+ // pad row problemes: avoid tracklet that cross pad rows, tilting angle in the constant
+ Int_t crossrow = 0; // if it crosses a pad row
+ Int_t rowp = -1; // if it crosses a pad row
+ Float_t tnt = tracklet->GetTilt(); // tan tiltingangle
+ fLinearFitterTracklet->ClearPoints();
- // Fill the infos for the previous clusters if not the same
- // detector anymore or if not the same track
- if (((detector != fDetectorPreviousTrack) || (!fDetectorAliTRDtrack)) &&
- (fDetectorPreviousTrack != -1)) {
-
- fNumberTrack++;
+
+ ///////////////////////////////////////////
+ // Take the parameters of the track
+ //////////////////////////////////////////
+ // take now the snp, tnp and tgl from the track
+ Double_t snp = tracklet->GetSnp(); // sin dy/dx at the end of the chamber
+ Double_t tnp = 0.0; // dy/dx at the end of the chamber
+ if( TMath::Abs(snp) < 1.){
+ tnp = snp / TMath::Sqrt((1.-snp)*(1.+snp));
+ }
+ Double_t tgl = tracklet->GetTgl(); // dz/dl
+ Double_t dzdx = tgl*TMath::Sqrt(1+tnp*tnp); // dz/dx calculated from dz/dl
+ // at the entrance
+ //Double_t tnp = tracklet->GetYref(1); // dy/dx at the entrance of the chamber
+ //Double_t tgl = tracklet->GetZref(1); // dz/dl at the entrance of the chamber
+ //Double_t dzdx = tgl; //*TMath::Sqrt(1+tnp*tnp); // dz/dx from dz/dl
+ // at the end with correction due to linear fit
+ //Double_t tnp = tracklet->GetYfit(1); // dy/dx at the end of the chamber after fit correction
+ //Double_t tgl = tracklet->GetZfit(1); // dz/dl at the end of the chamber after fit correction
+
+
+ ////////////////////////////
+ // loop over the clusters
+ ////////////////////////////
+ Int_t nbli = 0;
+ AliTRDcluster *cl = 0x0;
+ //////////////////////////////
+ // Check no shared clusters
+ //////////////////////////////
+ for(int icc=AliTRDseedV1::kNtb; icc<AliTRDseedV1::kNclusters; icc++){
+ cl = tracklet->GetClusters(icc);
+ if(cl) crossrow = 1;
+ }
+ //////////////////////////////////
+ // Loop clusters
+ //////////////////////////////////
+ for(int ic=0; ic<AliTRDseedV1::kNtb; ic++){
+ if(!(cl = tracklet->GetClusters(ic))) continue;
+ if((fLimitChargeIntegration) && (!cl->IsInChamber())) continue;
- // If the same track, then look if the previous detector is in
- // the same plane, if yes: not a good track
- //FollowBack
- if (fDetectorAliTRDtrack &&
- (GetPlane(detector) <= GetPlane(fDetectorPreviousTrack))) {
- //Follow
- //if (fDetectorAliTRDtrack &&
- // (GetPlane(detector) >= GetPlane(fDetectorPreviousTrack))) {
- fGoodTrack = kFALSE;
- }
+ Double_t ycluster = cl->GetY();
+ Int_t time = cl->GetPadTime();
+ Double_t timeis = time/fSf;
+ //See if cross two pad rows
+ Int_t row = cl->GetPadRow();
+ if(rowp==-1) rowp = row;
+ if(row != rowp) crossrow = 1;
- // Fill only if the track doesn't touch a masked pad or doesn't
- // appear in the middle (fGoodTrack)
- if (fGoodTrack && fGoodTracklet) {
+ fLinearFitterTracklet->AddPoint(&timeis,ycluster,1);
+ nbli++;
- // drift velocity unables to cut bad tracklets
- Bool_t pass = FindP1TrackPH();
-
- // Gain calibration
- if (fCH2dOn) {
- FillTheInfoOfTheTrackCH();
- }
-
- // PH calibration
- if (fPH2dOn) {
- FillTheInfoOfTheTrackPH();
- }
+
+ }
+
+ ////////////////////////////////////
+ // Do the straight line fit now
+ ///////////////////////////////////
+ if(nbli <= 2){
+ fLinearFitterTracklet->ClearPoints();
+ return kFALSE;
+ }
+ TVectorD pars;
+ fLinearFitterTracklet->Eval();
+ fLinearFitterTracklet->GetParameters(pars);
+ pointError = TMath::Sqrt(fLinearFitterTracklet->GetChisquare()/(nbli-2));
+ errorpar = fLinearFitterTracklet->GetParError(1)*pointError;
+ dydt = pars[1];
+ //printf("chis %f, nbli %d, pointError %f, parError %f, errorpar %f\n",fLinearFitterTracklet->GetChisquare(),nbli,pointError,fLinearFitterTracklet->GetParError(1),errorpar);
+ fLinearFitterTracklet->ClearPoints();
+
+ ////////////////////////////////
+ // Debug stuff
+ ///////////////////////////////
- if(pass && fPRF2dOn) HandlePRF();
-
- } // if a good track
-
- ResetfVariables();
- if(!fDetectorAliTRDtrack) fGoodTrack = kTRUE;
+ if(fDebugLevel > 0){
+ if ( !fDebugStreamer ) {
+ //debug stream
+ TDirectory *backup = gDirectory;
+ fDebugStreamer = new TTreeSRedirector("TRDdebugCalibraFill.root");
+ if ( backup ) backup->cd(); //we don't want to be cd'd to the debug streamer
+ }
- } // Fill at the end the charge
+
+ Int_t layer = GetLayer(fDetectorPreviousTrack);
+
+ (* fDebugStreamer) << "FindP1TrackPHtrackletV1"<<
+ //"snpright="<<snpright<<
+ "nbli="<<nbli<<
+ "nbclusters="<<nbclusters<<
+ "detector="<<fDetectorPreviousTrack<<
+ "layer="<<layer<<
+ "snp="<<snp<<
+ "tnp="<<tnp<<
+ "tgl="<<tgl<<
+ "tnt="<<tnt<<
+ "dydt="<<dydt<<
+ "dzdx="<<dzdx<<
+ "crossrow="<<crossrow<<
+ "errorpar="<<errorpar<<
+ "pointError="<<pointError<<
+ "\n";
+
+ }
- // Calcul the position of the detector and take the calib objects
- if (detector != fDetectorPreviousTrack) {
- //Localise the detector
- LocalisationDetectorXbins(detector);
-
- // Get cal
- AliTRDcalibDB *cal = AliTRDcalibDB::Instance();
- if (!cal) {
- AliInfo("Could not get calibDB");
- return kFALSE;
+ /////////////////////////
+ // Cuts quality
+ ////////////////////////
+
+ if(nbclusters < fNumberClusters) return kFALSE;
+ if(nbclusters > fNumberClustersf) return kFALSE;
+ if(pointError >= 0.3) return kFALSE;
+ if(crossrow == 1) return kTRUE;
+
+ ///////////////////////
+ // Fill
+ //////////////////////
+
+ if(fLinearFitterOn){
+ //Add to the linear fitter of the detector
+ if( TMath::Abs(snp) < 1.){
+ Double_t x = tnp-dzdx*tnt;
+ if(fLinearFitterDebugOn) {
+ (GetLinearFitter(fDetectorPreviousTrack,kTRUE))->AddPoint(&x,dydt);
+ fEntriesLinearFitter[fDetectorPreviousTrack]++;
+ }
+ fLinearVdriftFit->Update(fDetectorPreviousTrack,x,pars[1]);
}
-
- // Get calib objects
- if( fCalROCGain ) delete fCalROCGain;
- fCalROCGain = new AliTRDCalROC(*(cal->GetGainFactorROC(detector)));
- if( fCalROCT0 ) delete fCalROCT0;
- fCalROCT0 = new AliTRDCalROC(*(cal->GetT0ROC(detector)));
}
-
- // Reset the detector
- fDetectorPreviousTrack = detector;
- fDetectorAliTRDtrack = kTRUE;
-
- // Store the infos of the tracklets
- AliTRDcluster *kcl = new AliTRDcluster(*cl);
- fListClusters->Add((TObject *)kcl);
- Int_t time = cl->GetLocalTimeBin();
- fPar0[time] = t->GetY();
- fPar1[time] = t->GetZ();
- fPar2[time] = t->GetSnp();
- fPar3[time] = t->GetTgl();
- fPar4[time] = t->GetSigned1Pt();
-
- // Store the info bis of the tracklet
- Int_t *rowcol = CalculateRowCol(cl);
- CheckGoodTracklet(detector,rowcol);
- Int_t group[2] = {0,0};
- if(fCH2dOn) group[0] = CalculateCalibrationGroup(0,rowcol);
- if(fPH2dOn) group[1] = CalculateCalibrationGroup(1,rowcol);
- StoreInfoCHPH(cl,t,group,rowcol);
-
- return kTRUE;
+ return kTRUE;
}
-//____________Online trackling in AliTRDtrigger________________________________
-Bool_t AliTRDCalibraFillHisto::UpdateHistogramcm(AliTRDmcmTracklet *trk)
+//____________Offine tracking in the AliTRDtracker_____________________________
+Bool_t AliTRDCalibraFillHisto::HandlePRFtrackletV1(const AliTRDseedV1 *tracklet, Int_t nbclusters)
{
//
- // For the tracking
- // This function will be called in the function AliTRDtrigger::TestTracklet
- // before applying the pt cut on the tracklets
- // Fill the infos for the tracklets fTrkTest if the tracklets is "good"
+ // PRF width calibration
+ // Assume a Gaussian shape: determinate the position of the three pad clusters
+ // Fit with a straight line
+ // Take the fitted values for all the clusters (3 or 2 pad clusters)
+ // Fill the PRF as function of angle of the track
+ //
//
-
- // Localisation of the Xbins involved
- Int_t idect = trk->GetDetector();
- fDetectorPreviousTrack = idect;
- LocalisationDetectorXbins(idect);
- // Get the parameter object
- AliTRDcalibDB *cal = AliTRDcalibDB::Instance();
- if (!cal) {
- AliInfo("Could not get calibDB");
- return kFALSE;
- }
-
- // Reset
- ResetfVariables();
-
- // Get calib objects
- if( fCalROCGain ) delete fCalROCGain;
- fCalROCGain = new AliTRDCalROC(*(cal->GetGainFactorROC(idect)));
- if( fCalROCT0 ) delete fCalROCT0;
- fCalROCT0 = new AliTRDCalROC(*(cal->GetT0ROC(idect)));
-
- // Row of the tracklet and position in the pad groups
- Int_t *rowcol = new Int_t[2];
- rowcol[0] = trk->GetRow();
- Int_t group[3] = {-1,-1,-1};
-
- // Eventuelle correction due to track angle in z direction
- Float_t correction = 1.0;
- if (fMcmCorrectAngle) {
- Float_t z = trk->GetRowz();
- Float_t r = trk->GetTime0();
- correction = r / TMath::Sqrt((r*r+z*z));
+ //printf("begin\n");
+ ///////////////////////////////////////////
+ // Take the parameters of the track
+ //////////////////////////////////////////
+ // take now the snp, tnp and tgl from the track
+ Double_t snp = tracklet->GetSnp(); // sin dy/dx at the end of the chamber
+ Double_t tnp = 0.0; // dy/dx at the end of the chamber
+ if( TMath::Abs(snp) < 1.){
+ tnp = snp / TMath::Sqrt((1.-snp)*(1.+snp));
+ }
+ Double_t tgl = tracklet->GetTgl(); // dz/dl
+ Double_t dzdx = tgl*TMath::Sqrt(1+tnp*tnp); // dz/dx calculated from dz/dl
+ // at the entrance
+ //Double_t tnp = tracklet->GetYref(1); // dy/dx at the entrance of the chamber
+ //Double_t tgl = tracklet->GetZref(1); // dz/dl at the entrance of the chamber
+ //Double_t dzdx = tgl; //*TMath::Sqrt(1+tnp*tnp); // dz/dx from dz/dl
+ // at the end with correction due to linear fit
+ //Double_t tnp = tracklet->GetYfit(1); // dy/dx at the end of the chamber after fit correction
+ //Double_t tgl = tracklet->GetZfit(1); // dz/dl at the end of the chamber after fit correction
+
+ ///////////////////////////////
+ // Calculate tnp group shift
+ ///////////////////////////////
+ Bool_t echec = kFALSE;
+ Double_t shift = 0.0;
+ //Calculate the shift in x coresponding to this tnp
+ if(fNgroupprf != 0.0){
+ shift = -3.0*(fNgroupprf-1)-1.5;
+ Double_t limithigh = -0.2*(fNgroupprf-1);
+ if((tnp < (-0.2*fNgroupprf)) || (tnp > (0.2*fNgroupprf))) echec = kTRUE;
+ else{
+ while(tnp > limithigh){
+ limithigh += 0.2;
+ shift += 3.0;
+ }
+ }
}
+ // do nothing if out of tnp range
+ //printf("echec %d\n",(Int_t)echec);
+ if(echec) return kFALSE;
- // Boucle sur les clusters
- // Condition on number of cluster: don't come from the middle of the detector
- if (trk->GetNclusters() >= fNumberClusters) {
-
- for (Int_t icl = 0; icl < trk->GetNclusters(); icl++) {
-
- Float_t amp[3] = { 0.0, 0.0, 0.0 };
- Int_t time = trk->GetClusterTime(icl);
- rowcol[1] = trk->GetClusterCol(icl);
-
- amp[0] = trk->GetClusterADC(icl)[0] * correction;
- amp[1] = trk->GetClusterADC(icl)[1] * correction;
- amp[2] = trk->GetClusterADC(icl)[2] * correction;
+ ///////////////////////
+ // Variables
+ //////////////////////
-
- if ((amp[0] < 0.0) ||
- (amp[1] < 0.0) ||
- (amp[2] < 0.0)) {
- continue;
- }
+ Int_t nb3pc = 0; // number of three pads clusters used for fit
+ // to see the difference between the fit and the 3 pad clusters position
+ Double_t padPositions[AliTRDseedV1::kNtb];
+ memset(padPositions, 0, AliTRDseedV1::kNtb*sizeof(Double_t));
+ fLinearFitterTracklet->ClearPoints();
+
+ //printf("loop clusters \n");
+ ////////////////////////////
+ // loop over the clusters
+ ////////////////////////////
+ AliTRDcluster *cl = 0x0;
+ for(int ic=0; ic<AliTRDseedV1::kNtb; ic++){
+ // reject shared clusters on pad row
+ if((ic+AliTRDseedV1::kNtb) < AliTRDseedV1::kNclusters) {
+ cl = tracklet->GetClusters(ic+AliTRDseedV1::kNtb);
+ if(cl) continue;
+ }
+ cl = tracklet->GetClusters(ic);
+ if(!cl) continue;
+ Double_t time = cl->GetPadTime();
+ if((time<=7) || (time>=21)) continue;
+ Short_t *signals = cl->GetSignals();
+ Float_t xcenter = 0.0;
+ Bool_t echec1 = kTRUE;
- // Col of cluster and position in the pad groups
- if(fCH2dOn) {
- group[0] = CalculateCalibrationGroup(0,rowcol);
- fAmpTotal[(Int_t) group[0]] += (Float_t) (amp[0]+amp[1]+amp[2]);
- }
- if(fPH2dOn) {
- group[1] = CalculateCalibrationGroup(1,rowcol);
- fPHPlace[time] = group[1];
- fPHValue[time] = (Float_t) (amp[0]+amp[1]+amp[2]);
- }
- if(fPRF2dOn) group[2] = CalculateCalibrationGroup(2,rowcol);
+ /////////////////////////////////////////////////////////////
+ // Center 3 balanced: position with the center of the pad
+ /////////////////////////////////////////////////////////////
+ if ((((Float_t) signals[3]) > 0.0) &&
+ (((Float_t) signals[2]) > 0.0) &&
+ (((Float_t) signals[4]) > 0.0)) {
+ echec1 = kFALSE;
+ // Security if the denomiateur is 0
+ if ((((Float_t) (((Float_t) signals[3]) * ((Float_t) signals[3]))) /
+ ((Float_t) (((Float_t) signals[2]) * ((Float_t) signals[4])))) != 1.0) {
+ xcenter = 0.5 * (TMath::Log((Float_t) (((Float_t) signals[4]) / ((Float_t) signals[2]))))
+ / (TMath::Log(((Float_t) (((Float_t) signals[3]) * ((Float_t) signals[3])))
+ / ((Float_t) (((Float_t) signals[2]) * ((Float_t) signals[4])))));
+ }
+ else {
+ echec1 = kTRUE;
+ }
+ }
+ if(TMath::Abs(xcenter) > 0.5) echec1 = kTRUE;
+ if(echec1) continue;
- // See if we are not near a masked pad fGoodTracklet
- CheckGoodTracklet(idect,rowcol);
-
- // Fill PRF direct without tnp bins...only for monitoring...
- if (fPRF2dOn && fGoodTracklet) {
-
- if ((amp[0] > fThresholdClusterPRF2) &&
- (amp[1] > fThresholdClusterPRF2) &&
- (amp[2] > fThresholdClusterPRF2) &&
- ((amp[0]*amp[2]/(amp[1]*amp[1])) < 0.06)) {
-
- // Security of the denomiateur is 0
- if ((((Float_t) (((Float_t) amp[1]) * ((Float_t) amp[1])))
- / ((Float_t) (((Float_t) amp[0]) * ((Float_t) amp[2])))) != 1.0) {
- Float_t xcenter = 0.5 * (TMath::Log(amp[2] / amp[0]))
- / (TMath::Log((amp[1]*amp[1]) / (amp[0]*amp[2])));
- Float_t ycenter = amp[1] / (amp[0] + amp[1] + amp[2]);
-
- if (TMath::Abs(xcenter) < 0.5) {
- Float_t yminus = amp[0] / (amp[0]+amp[1]+amp[2]);
- Float_t ymax = amp[2] / (amp[0]+amp[1]+amp[2]);
- // Fill only if it is in the drift region!
- if (((Float_t) time / fSf) > 0.3) {
- if (fHisto2d) {
- fPRF2d->Fill(xcenter,(fCalibraMode->GetXbins(2)+group[2]+0.5),ycenter);
- fPRF2d->Fill(-(xcenter+1.0),(fCalibraMode->GetXbins(2)+group[2]+0.5),yminus);
- fPRF2d->Fill((1.0-xcenter),(fCalibraMode->GetXbins(2)+group[2]+0.5),ymax);
- }
- if (fVector2d) {
- fCalibraVector->UpdateVectorPRF(idect,group[2],xcenter,ycenter);
- fCalibraVector->UpdateVectorPRF(idect,group[2],-(xcenter+1.0),yminus);
- fCalibraVector->UpdateVectorPRF(idect,group[2],(1.0-xcenter),ymax);
- }
- }//in the drift region
- }//in the middle
- }//denominateur security
- }//cluster shape and thresholds
- }//good and PRF On
+ ////////////////////////////////////////////////////////
+ //if no echec1: calculate with the position of the pad
+ // Position of the cluster
+ // fill the linear fitter
+ ///////////////////////////////////////////////////////
+ Double_t padPosition = xcenter + cl->GetPadCol();
+ padPositions[ic] = padPosition;
+ nb3pc++;
+ fLinearFitterTracklet->AddPoint(&time, padPosition,1);
+
+
+ }//clusters loop
+
+ //printf("Fin loop clusters \n");
+ //////////////////////////////
+ // fit with a straight line
+ /////////////////////////////
+ if(nb3pc < 3){
+ fLinearFitterTracklet->ClearPoints();
+ return kFALSE;
+ }
+ fLinearFitterTracklet->Eval();
+ TVectorD line(2);
+ fLinearFitterTracklet->GetParameters(line);
+ Float_t pointError = -1.0;
+ if( fLinearFitterTracklet->GetChisquare()>=0.0) {
+ pointError = TMath::Sqrt( fLinearFitterTracklet->GetChisquare()/(nb3pc-2));
+ }
+ fLinearFitterTracklet->ClearPoints();
+
+ //printf("PRF second loop \n");
+ ////////////////////////////////////////////////
+ // Fill the PRF: Second loop over clusters
+ //////////////////////////////////////////////
+ for(int ic=0; ic<AliTRDseedV1::kNtb; ic++){
+ // reject shared clusters on pad row
+ cl = tracklet->GetClusters(ic+AliTRDseedV1::kNtb);
+ if(((ic+AliTRDseedV1::kNtb) < AliTRDseedV1::kNclusters) && (cl)) continue;
+ //
+ cl = tracklet->GetClusters(ic);
+ if(!cl) continue;
+
+ Short_t *signals = cl->GetSignals(); // signal
+ Double_t time = cl->GetPadTime(); // time bin
+ Float_t padPosTracklet = line[0]+line[1]*time; // reconstruct position from fit
+ Float_t padPos = cl->GetPadCol(); // middle pad
+ Double_t dpad = padPosTracklet - padPos; // reconstruct position relative to middle pad from fit
+ Float_t ycenter = 0.0; // relative center charge
+ Float_t ymin = 0.0; // relative left charge
+ Float_t ymax = 0.0; // relative right charge
+
+ ////////////////////////////////////////////////////////////////
+ // Calculate ycenter, ymin and ymax even for two pad clusters
+ ////////////////////////////////////////////////////////////////
+ if(((((Float_t) signals[3]) > 0.0) && (((Float_t) signals[2]) > 0.0)) ||
+ ((((Float_t) signals[3]) > 0.0) && (((Float_t) signals[4]) > 0.0))){
+ Float_t sum = ((Float_t) signals[2]) + ((Float_t) signals[3]) + ((Float_t) signals[4]);
+ if(sum > 0.0) ycenter = ((Float_t) signals[3])/ sum;
+ if(sum > 0.0) ymin = ((Float_t) signals[2])/ sum;
+ if(sum > 0.0) ymax = ((Float_t) signals[4])/ sum;
+ }
+
+ /////////////////////////
+ // Calibration group
+ ////////////////////////
+ Int_t rowcl = cl->GetPadRow(); // row of cluster
+ Int_t colcl = cl->GetPadCol(); // col of cluster
+ Int_t grouplocal = CalculateCalibrationGroup(2,rowcl,colcl); // calcul the corresponding group
+ Int_t caligroup = fCalibraMode->GetXbins(2)+ grouplocal; // calcul the corresponding group
+ Float_t xcl = cl->GetY(); // y cluster
+ Float_t qcl = cl->GetQ(); // charge cluster
+ Int_t layer = GetLayer(fDetectorPreviousTrack); // layer
+ Int_t stack = GetStack(fDetectorPreviousTrack); // stack
+ Double_t xdiff = dpad; // reconstructed position constant
+ Double_t x = dpad; // reconstructed position moved
+ Float_t ep = pointError; // error of fit
+ Float_t signal1 = (Float_t)signals[1]; // signal at the border
+ Float_t signal3 = (Float_t)signals[3]; // signal
+ Float_t signal2 = (Float_t)signals[2]; // signal
+ Float_t signal4 = (Float_t)signals[4]; // signal
+ Float_t signal5 = (Float_t)signals[5]; // signal at the border
+
+
+
+ /////////////////////
+ // Debug stuff
+ ////////////////////
+
+ if(fDebugLevel > 0){
+ if ( !fDebugStreamer ) {
+ //debug stream
+ TDirectory *backup = gDirectory;
+ fDebugStreamer = new TTreeSRedirector("TRDdebugCalibraFill.root");
+ if ( backup ) backup->cd(); //we don't want to be cd'd to the debug streamer
+ }
+
+ x = xdiff;
+ Int_t type=0;
+ Float_t y = ycenter;
+ (* fDebugStreamer) << "HandlePRFtrackletV1"<<
+ "caligroup="<<caligroup<<
+ "detector="<<fDetectorPreviousTrack<<
+ "layer="<<layer<<
+ "stack="<<stack<<
+ "npoints="<<nbclusters<<
+ "Np="<<nb3pc<<
+ "ep="<<ep<<
+ "type="<<type<<
+ "snp="<<snp<<
+ "tnp="<<tnp<<
+ "tgl="<<tgl<<
+ "dzdx="<<dzdx<<
+ "padPos="<<padPos<<
+ "padPosition="<<padPositions[ic]<<
+ "padPosTracklet="<<padPosTracklet<<
+ "x="<<x<<
+ "y="<<y<<
+ "xcl="<<xcl<<
+ "qcl="<<qcl<<
+ "signal1="<<signal1<<
+ "signal2="<<signal2<<
+ "signal3="<<signal3<<
+ "signal4="<<signal4<<
+ "signal5="<<signal5<<
+ "time="<<time<<
+ "\n";
+ x=-(xdiff+1);
+ y = ymin;
+ type=-1;
+ (* fDebugStreamer) << "HandlePRFtrackletV1"<<
+ "caligroup="<<caligroup<<
+ "detector="<<fDetectorPreviousTrack<<
+ "layer="<<layer<<
+ "stack="<<stack<<
+ "npoints="<<nbclusters<<
+ "Np="<<nb3pc<<
+ "ep="<<ep<<
+ "type="<<type<<
+ "snp="<<snp<<
+ "tnp="<<tnp<<
+ "tgl="<<tgl<<
+ "dzdx="<<dzdx<<
+ "padPos="<<padPos<<
+ "padPosition="<<padPositions[ic]<<
+ "padPosTracklet="<<padPosTracklet<<
+ "x="<<x<<
+ "y="<<y<<
+ "xcl="<<xcl<<
+ "qcl="<<qcl<<
+ "signal1="<<signal1<<
+ "signal2="<<signal2<<
+ "signal3="<<signal3<<
+ "signal4="<<signal4<<
+ "signal5="<<signal5<<
+ "time="<<time<<
+ "\n";
+ x=1-xdiff;
+ y = ymax;
+ type=1;
+ (* fDebugStreamer) << "HandlePRFtrackletV1"<<
+ "caligroup="<<caligroup<<
+ "detector="<<fDetectorPreviousTrack<<
+ "layer="<<layer<<
+ "stack="<<stack<<
+ "npoints="<<nbclusters<<
+ "Np="<<nb3pc<<
+ "ep="<<ep<<
+ "type="<<type<<
+ "snp="<<snp<<
+ "tnp="<<tnp<<
+ "tgl="<<tgl<<
+ "dzdx="<<dzdx<<
+ "padPos="<<padPos<<
+ "padPosition="<<padPositions[ic]<<
+ "padPosTracklet="<<padPosTracklet<<
+ "x="<<x<<
+ "y="<<y<<
+ "xcl="<<xcl<<
+ "qcl="<<qcl<<
+ "signal1="<<signal1<<
+ "signal2="<<signal2<<
+ "signal3="<<signal3<<
+ "signal4="<<signal4<<
+ "signal5="<<signal5<<
+ "time="<<time<<
+ "\n";
- } // Boucle clusters
+ }
- // Fill the charge
- if(fGoodTracklet){
- if (fCH2dOn) FillTheInfoOfTheTrackCH();
- if (fPH2dOn) FillTheInfoOfTheTrackPH();
+ /////////////////////
+ // Cuts quality
+ /////////////////////
+ if(nbclusters < fNumberClusters) continue;
+ if(nbclusters > fNumberClustersf) continue;
+ if(nb3pc <= 5) continue;
+ if((time >= 21) || (time < 7)) continue;
+ if(TMath::Abs(qcl) < 80) continue;
+ if( TMath::Abs(snp) > 1.) continue;
+
+
+ ////////////////////////
+ // Fill the histos
+ ///////////////////////
+ if (fHisto2d) {
+ if(TMath::Abs(dpad) < 1.5) {
+ fPRF2d->Fill(shift+dpad,(caligroup+0.5),ycenter);
+ fPRF2d->Fill(shift-dpad,(caligroup+0.5),ycenter);
+ //printf("place %f, ycenter %f\n",(shift+dpad),ycenter);
+ }
+ if((ymin > 0.0) && (TMath::Abs(dpad+1.0) < 1.5)) {
+ fPRF2d->Fill(shift-(dpad+1.0),(caligroup+0.5),ymin);
+ fPRF2d->Fill(shift+(dpad+1.0),(caligroup+0.5),ymin);
+ }
+ if((ymax > 0.0) && (TMath::Abs(dpad-1.0) < 1.5)) {
+ fPRF2d->Fill(shift+1.0-dpad,(caligroup+0.5),ymax);
+ fPRF2d->Fill(shift-1.0+dpad,(caligroup+0.5),ymax);
+ }
+ }
+ // vector method
+ if (fVector2d) {
+ if(TMath::Abs(dpad) < 1.5) {
+ fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift+dpad,ycenter);
+ fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift-dpad,ycenter);
+ }
+ if((ymin > 0.0) && (TMath::Abs(dpad+1.0) < 1.5)) {
+ fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift-(dpad+1.0),ymin);
+ fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift+(dpad+1.0),ymin);
+ }
+ if((ymax > 0.0) && (TMath::Abs(dpad-1.0) < 1.5)) {
+ fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift+1.0-dpad,ymax);
+ fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift-1.0+dpad,ymax);
+ }
}
+ } // second loop over clusters
- fNumberTrack++;
-
- } // Condition on number of clusters
return kTRUE;
-
}
+///////////////////////////////////////////////////////////////////////////////////////
+// Pad row col stuff: see if masked or not
+///////////////////////////////////////////////////////////////////////////////////////
//_____________________________________________________________________________
-Int_t *AliTRDCalibraFillHisto::CalculateRowCol(AliTRDcluster *cl) const
+void AliTRDCalibraFillHisto::CheckGoodTrackletV1(const AliTRDcluster *cl)
{
//
- // Calculate the row and col number of the cluster
+ // See if we are not near a masked pad
//
+ if(cl->IsMasked()) fGoodTracklet = kFALSE;
- Int_t *rowcol = new Int_t[2];
- rowcol[0] = 0;
- rowcol[1] = 0;
-
- // Localisation of the detector
- Int_t detector = cl->GetDetector();
- Int_t chamber = GetChamber(detector);
- Int_t plane = GetPlane(detector);
-
- // Localisation of the cluster
- Double_t pos[3] = { 0.0, 0.0, 0.0 };
- pos[0] = ((AliCluster *)cl)->GetX();
- pos[1] = cl->GetY();
- pos[2] = cl->GetZ();
-
- // Position of the cluster
- AliTRDpadPlane *padplane = fGeo->GetPadPlane(plane,chamber);
- Int_t row = padplane->GetPadRowNumber(pos[2]);
- //Do not take from here because it was corrected from ExB already....
- //Double_t offsetz = padplane->GetPadRowOffset(row,pos[2]);
- //Double_t offsettilt = padplane->GetTiltOffset(offsetz);
- //Int_t col = padplane->GetPadColNumber(pos[1] + offsettilt,offsetz);
- //Int_t col = padplane->GetPadColNumber(pos[1]+offsettilt);
- Int_t col = cl->GetPadCol();
-
- //return
- rowcol[0] = row;
- rowcol[1] = col;
- return rowcol;
}
//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::CheckGoodTracklet(Int_t detector, Int_t *rowcol)
+void AliTRDCalibraFillHisto::CheckGoodTrackletV0(const Int_t detector,const Int_t row,const Int_t col)
{
//
// See if we are not near a masked pad
//
- Int_t row = rowcol[0];
- Int_t col = rowcol[1];
-
if (!IsPadOn(detector, col, row)) {
fGoodTracklet = kFALSE;
}
}
//_____________________________________________________________________________
-Bool_t AliTRDCalibraFillHisto::IsPadOn(Int_t detector, Int_t col, Int_t row) const
+Bool_t AliTRDCalibraFillHisto::IsPadOn(Int_t detector, Int_t row, Int_t col) const
{
//
// Look in the choosen database if the pad is On.
}
}
+///////////////////////////////////////////////////////////////////////////////////////
+// Calibration groups: calculate the number of groups, localise...
+////////////////////////////////////////////////////////////////////////////////////////
//_____________________________________________________________________________
-Int_t AliTRDCalibraFillHisto::CalculateCalibrationGroup(Int_t i, Int_t *rowcol) const
+Int_t AliTRDCalibraFillHisto::CalculateCalibrationGroup(Int_t i, Int_t row, Int_t col) const
{
//
// Calculate the calibration group number for i
// Row of the cluster and position in the pad groups
Int_t posr = 0;
if (fCalibraMode->GetNnZ(i) != 0) {
- posr = (Int_t) rowcol[0] / fCalibraMode->GetNnZ(i);
+ posr = (Int_t) row / fCalibraMode->GetNnZ(i);
}
// Col of the cluster and position in the pad groups
Int_t posc = 0;
if (fCalibraMode->GetNnRphi(i) != 0) {
- posc = (Int_t) rowcol[1] / fCalibraMode->GetNnRphi(i);
+ posc = (Int_t) col / fCalibraMode->GetNnRphi(i);
}
return posc*fCalibraMode->GetNfragZ(i)+posr;
//
Int_t ntotal = 0;
+
+ // All together
+ if((fCalibraMode->GetNz(i)==100) && (fCalibraMode->GetNrphi(i)==100)){
+ ntotal = 1;
+ AliInfo(Form("Total number of Xbins: %d for i %d",ntotal,i));
+ return ntotal;
+ }
+
+ // Per Supermodule
+ if((fCalibraMode->GetNz(i)==10) && (fCalibraMode->GetNrphi(i)==10)){
+ ntotal = 18;
+ AliInfo(Form("Total number of Xbins: %d for i %d",ntotal,i));
+ return ntotal;
+ }
+
+ // More
fCalibraMode->ModePadCalibration(2,i);
fCalibraMode->ModePadFragmentation(0,2,0,i);
fCalibraMode->SetDetChamb2(i);
return ntotal;
}
+//_____________________________________________________________________________
+void AliTRDCalibraFillHisto::SetNz(Int_t i, Short_t Nz)
+{
+ //
+ // Set the mode of calibration group in the z direction for the parameter i
+ //
+
+ if ((Nz >= 0) &&
+ (Nz < 5)) {
+ fCalibraMode->SetNz(i, Nz);
+ }
+ else {
+ AliInfo("You have to choose between 0 and 4");
+ }
+
+}
+//_____________________________________________________________________________
+void AliTRDCalibraFillHisto::SetNrphi(Int_t i, Short_t Nrphi)
+{
+ //
+ // Set the mode of calibration group in the rphi direction for the parameter i
+ //
+
+ if ((Nrphi >= 0) &&
+ (Nrphi < 7)) {
+ fCalibraMode->SetNrphi(i ,Nrphi);
+ }
+ else {
+ AliInfo("You have to choose between 0 and 6");
+ }
+
+}
+
+//_____________________________________________________________________________
+void AliTRDCalibraFillHisto::SetAllTogether(Int_t i)
+{
+ //
+ // Set the mode of calibration group all together
+ //
+ if(fVector2d == kTRUE) {
+ AliInfo("Can not work with the vector method");
+ return;
+ }
+ fCalibraMode->SetAllTogether(i);
+
+}
+
+//_____________________________________________________________________________
+void AliTRDCalibraFillHisto::SetPerSuperModule(Int_t i)
+{
+ //
+ // Set the mode of calibration group per supermodule
+ //
+ if(fVector2d == kTRUE) {
+ AliInfo("Can not work with the vector method");
+ return;
+ }
+ fCalibraMode->SetPerSuperModule(i);
+
+}
+
//____________Set the pad calibration variables for the detector_______________
Bool_t AliTRDCalibraFillHisto::LocalisationDetectorXbins(Int_t detector)
{
// fragmentation of idect
for (Int_t i = 0; i < 3; i++) {
- fCalibraMode->ModePadCalibration((Int_t) GetChamber(detector),i);
- fCalibraMode->ModePadFragmentation((Int_t) GetPlane(detector)
- , (Int_t) GetChamber(detector)
+ fCalibraMode->ModePadCalibration((Int_t) GetStack(detector),i);
+ fCalibraMode->ModePadFragmentation((Int_t) GetLayer(detector)
+ , (Int_t) GetStack(detector)
, (Int_t) GetSector(detector),i);
}
}
//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::StoreInfoCHPH(AliTRDcluster *cl, AliTRDtrack *t, Int_t *group, Int_t *rowcol)
+void AliTRDCalibraFillHisto::SetNumberGroupsPRF(Short_t numberGroupsPRF)
+{
+ //
+ // Should be between 0 and 6
+ //
+
+ if ((numberGroupsPRF < 0) || (numberGroupsPRF > 6)) {
+ AliInfo("The number of groups must be between 0 and 6!");
+ }
+ else {
+ fNgroupprf = numberGroupsPRF;
+ }
+
+}
+///////////////////////////////////////////////////////////////////////////////////////////
+// Per tracklet: store or reset the info, fill the histos with the info
+//////////////////////////////////////////////////////////////////////////////////////////
+//_____________________________________________________________________________
+void AliTRDCalibraFillHisto::StoreInfoCHPHtrack(const AliTRDcluster *cl,const Double_t dqdl,const Int_t *group,const Int_t row,const Int_t col,const AliTRDcluster *cls)
{
//
// Store the infos in fAmpTotal, fPHPlace and fPHValue
+ // Correct from the gain correction before
+ // cls is shared cluster if any
//
- // Charge in the cluster
- Float_t q = TMath::Abs(cl->GetQ());
- Int_t time = cl->GetLocalTimeBin();
+ //printf("StoreInfoCHPHtrack\n");
- //Correct for the gain coefficient used in the database for reconstruction
- Float_t correctthegain = fCalDetGain->GetValue(fDetectorPreviousTrack)*fCalROCGain->GetValue(rowcol[1],rowcol[0]);
- Float_t correcttheT0 = fCalDetT0->GetValue(fDetectorPreviousTrack)+fCalROCT0->GetValue(rowcol[1],rowcol[0]);
-
- // we substract correcttheT0 in AliTRDclusterizerV1::MakeClusters (line 458)
- Int_t timec = Arrondi((Double_t)(time+correcttheT0));
- if((correcttheT0+0.5)==(int(correcttheT0+0.5))) {
- timec++;
+ // time bin of the cluster not corrected
+ Int_t time = cl->GetPadTime();
+ Float_t charge = TMath::Abs(cl->GetQ());
+ if(cls) {
+ charge += TMath::Abs(cls->GetQ());
+ //printf("AliTRDCalibraFillHisto::Add the cluster charge");
}
- if( timec < 0 ) return;
-
- // Correction due to the track angle
+ //printf("Store::time %d, amplitude %f\n",time,dqdl);
+
+ //Correct for the gain coefficient used in the database for reconstruction
+ Float_t correctthegain = 1.0;
+ if(fIsHLT) correctthegain = fCalDetGain->GetValue(fDetectorPreviousTrack);
+ else correctthegain = fCalDetGain->GetValue(fDetectorPreviousTrack)*fCalROCGain->GetValue(col,row);
Float_t correction = 1.0;
Float_t normalisation = 6.67;
- // we divide with gain in AliTRDclusterizerV1::Transform...
+ // we divide with gain in AliTRDclusterizer::Transform...
if( correctthegain > 0 ) normalisation /= correctthegain;
- if ((q >0) && (t->GetNdedx() > 0)) {
- correction = t->GetClusterdQdl((t->GetNdedx() - 1)) / (normalisation);
- }
+
+
+ // take dd/dl corrected from the angle of the track
+ correction = dqdl / (normalisation);
+
// Fill the fAmpTotal with the charge
if (fCH2dOn) {
- fAmpTotal[(Int_t) group[0]] += correction;
+ if((!fLimitChargeIntegration) || (cl->IsInChamber())) {
+ //printf("Store::group %d, amplitude %f\n",group[0],correction);
+ fAmpTotal[(Int_t) group[0]] += correction;
+ }
}
// Fill the fPHPlace and value
if (fPH2dOn) {
- fPHPlace[timec] = group[1];
- fPHValue[timec] = correction;
+ fPHPlace[time] = group[1];
+ fPHValue[time] = charge;
}
}
-//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::StoreInfoCHPHtrack(AliTRDcluster *cl, AliTRDtrack *t, Int_t index, Int_t *group, Int_t *rowcol)
+//____________Offine tracking in the AliTRDtracker_____________________________
+void AliTRDCalibraFillHisto::ResetfVariablestracklet()
{
//
- // Store the infos in fAmpTotal, fPHPlace and fPHValue
+ // Reset values per tracklet
//
-
- // Charge in the cluster
- Float_t q = TMath::Abs(cl->GetQ());
- Int_t time = cl->GetLocalTimeBin();
-
- //Correct for the gain coefficient used in the database for reconstruction
- Float_t correctthegain = fCalDetGain->GetValue(fDetectorPreviousTrack)*fCalROCGain->GetValue(rowcol[1],rowcol[0]);
- Float_t correcttheT0 = fCalDetT0->GetValue(fDetectorPreviousTrack)+fCalROCT0->GetValue(rowcol[1],rowcol[0]);
-
- // we substract correcttheT0 in AliTRDclusterizerV1::MakeClusters (line 458)
- Int_t timec = Arrondi((Double_t)(time+correcttheT0));
- if((correcttheT0+0.5)==(int(correcttheT0+0.5))) {
- timec++;
- }
- if( timec < 0 ) return;
- // Correction due to the track angle
- Float_t correction = 1.0;
- Float_t normalisation = 6.67;
- // we divide with gain in AliTRDclusterizerV1::Transform...
- if( correctthegain > 0 ) normalisation /= correctthegain;
- if (q >0) {
- correction = t->GetClusterdQdl(index) / (normalisation);
- }
+ //Reset good tracklet
+ fGoodTracklet = kTRUE;
- // Fill the fAmpTotal with the charge
- if (fCH2dOn) {
- fAmpTotal[(Int_t) group[0]] += correction;
+ // Reset the fPHValue
+ if (fPH2dOn) {
+ //Reset the fPHValue and fPHPlace
+ for (Int_t k = 0; k < fTimeMax; k++) {
+ fPHValue[k] = 0.0;
+ fPHPlace[k] = -1;
+ }
}
- // Fill the fPHPlace and value
- if (fPH2dOn) {
- fPHPlace[timec] = group[1];
- fPHValue[timec] = correction;
+ // Reset the fAmpTotal where we put value
+ if (fCH2dOn) {
+ for (Int_t k = 0; k < fCalibraMode->GetNfragZ(0)*fCalibraMode->GetNfragRphi(0); k++) {
+ fAmpTotal[k] = 0.0;
+ }
}
-
}
-//_____________________________________________________________________
-Int_t AliTRDCalibraFillHisto::ProcessEventDAQ(AliTRDRawStream *rawStream, Bool_t nocheck)
+//____________Offine tracking in the AliTRDtracker_____________________________
+void AliTRDCalibraFillHisto::FillTheInfoOfTheTrackCH(Int_t nbclusters)
{
//
- // Event Processing loop - AliTRDRawStream
- // 0 timebin problem
- // 1 no input
- // 2 input
+ // For the offline tracking or mcm tracklets
+ // This function will be called in the functions UpdateHistogram...
+ // to fill the info of a track for the relativ gain calibration
//
+
+ Int_t nb = 0; // Nombre de zones traversees
+ Int_t fd = -1; // Premiere zone non nulle
+ Float_t totalcharge = 0.0; // Total charge for the supermodule histo
- Int_t withInput = 1;
+ //printf("CH2d nbclusters %d, fNumberClusters %d, fNumberClustersf %d\n",nbclusters,fNumberClusters,fNumberClustersf);
- Int_t phvalue[36];
- //Int_t row[36];
- //Int_t col[36];
- for(Int_t k = 0; k < 36; k++){
- phvalue[k] = 10;
- //row[k] = -1;
- //col[36] = -1;
- }
- fDetectorPreviousTrack = -1;
- Int_t nbtimebin = 0;
+ if(nbclusters < fNumberClusters) return;
+ if(nbclusters > fNumberClustersf) return;
- if(!nocheck){
-
- fTimeMax = 0;
-
- while (rawStream->Next()) {
-
- Int_t idetector = rawStream->GetDet(); // current detector
- if((fDetectorPreviousTrack != idetector) && (fDetectorPreviousTrack != -1)){
- if(TMath::Mean(fTimeMax,phvalue)>20.0){
- withInput = 2;
- for(Int_t k = 0; k < fTimeMax; k++){
- UpdateDAQ(fDetectorPreviousTrack,0,0,k,phvalue[k],fTimeMax);
- phvalue[k] = 10;
- //row[k] = -1;
- //col[k] = -1;
- }
- }
- }
- fDetectorPreviousTrack = idetector;
- nbtimebin = rawStream->GetNumberOfTimeBins(); // number of time bins read from data
- if(nbtimebin == 0) return 0;
- if((fTimeMax != 0) && (nbtimebin != fTimeMax)) return 0;
- fTimeMax = nbtimebin;
- Int_t iTimeBin = rawStream->GetTimeBin(); // current time bin
- //row[iTimeBin] = rawStream->GetRow(); // current row
- //col[iTimeBin] = rawStream->GetCol(); // current col
- Int_t *signal = rawStream->GetSignals(); // current ADC signal
-
- Int_t fin = TMath::Min(fTimeMax,(iTimeBin+3));
- Int_t n = 0;
- for(Int_t itime = iTimeBin; itime < fin; itime++){
- // should extract baseline here!
- if(signal[n]>13) phvalue[itime] = signal[n];
- n++;
- }
- }
+
+ // Normalize with the number of clusters
+ Double_t normalizeCst = fRelativeScale;
+ if(fNormalizeNbOfCluster) normalizeCst = normalizeCst*nbclusters;
+
+ //printf("Number of groups in one detector %d\n",fCalibraMode->GetNfragZ(0)*fCalibraMode->GetNfragRphi(0));
- // fill the last one
- if(fDetectorPreviousTrack != -1){
- if(TMath::Mean(fTimeMax,phvalue)>20.0){
- withInput = 2;
- for(Int_t k = 0; k < fTimeMax; k++){
- UpdateDAQ(fDetectorPreviousTrack,0,0,k,phvalue[k],fTimeMax);
- phvalue[k] = 10;
- //row[k] = -1;
- //col[k] = -1;
- }
+ // See if the track goes through different zones
+ for (Int_t k = 0; k < fCalibraMode->GetNfragZ(0)*fCalibraMode->GetNfragRphi(0); k++) {
+ //printf("fAmpTotal %f for %d\n",fAmpTotal[k],k);
+ if (fAmpTotal[k] > 0.0) {
+ totalcharge += fAmpTotal[k];
+ nb++;
+ if (nb == 1) {
+ fd = k;
}
}
-
}
- else{
- while (rawStream->Next()) {
-
- Int_t idetector = rawStream->GetDet(); // current detector
- if((fDetectorPreviousTrack != idetector) && (fDetectorPreviousTrack != -1)){
- if(TMath::Mean(nbtimebin,phvalue)>20.0){
- withInput = 2;
- for(Int_t k = 0; k < nbtimebin; k++){
- UpdateDAQ(fDetectorPreviousTrack,0,0,k,phvalue[k],nbtimebin);
- phvalue[k] = 10;
- //row[k] = -1;
- //col[k] = -1;
+ //printf("CH2d: nb %d, fd %d, calibration group %d, amplitude %f, detector %d\n",nb,fd,fCalibraMode->GetXbins(0),fAmpTotal[fd]/normalizeCst,fDetectorPreviousTrack);
+
+ switch (nb)
+ {
+ case 1:
+ fNumberUsedCh[0]++;
+ fEntriesCH[fCalibraMode->GetXbins(0)+fd]++;
+ if (fHisto2d) {
+ FillCH2d(fCalibraMode->GetXbins(0)+fd,fAmpTotal[fd]/normalizeCst);
+ //fCH2d->Fill(fAmpTotal[fd]/normalizeCst,fCalibraMode->GetXbins(0)+fd+0.5);
+ }
+ if (fVector2d) {
+ fCalibraVector->UpdateVectorCH(fDetectorPreviousTrack,fd,fAmpTotal[fd]/normalizeCst);
+ }
+ break;
+ case 2:
+ if ((fAmpTotal[fd] > 0.0) &&
+ (fAmpTotal[fd+1] > 0.0)) {
+ // One of the two very big
+ if (fAmpTotal[fd] > fProcent*fAmpTotal[fd+1]) {
+ if (fHisto2d) {
+ FillCH2d(fCalibraMode->GetXbins(0)+fd,fAmpTotal[fd]/normalizeCst);
+ //fCH2d->Fill(fAmpTotal[fd]/normalizeCst,fCalibraMode->GetXbins(0)+fd+0.5);
+ }
+ if (fVector2d) {
+ fCalibraVector->UpdateVectorCH(fDetectorPreviousTrack,fd,fAmpTotal[fd]/normalizeCst);
}
+ fNumberUsedCh[1]++;
+ fEntriesCH[fCalibraMode->GetXbins(0)+fd]++;
+ }
+ if (fAmpTotal[fd+1] > fProcent*fAmpTotal[fd]) {
+ if (fHisto2d) {
+ FillCH2d(fCalibraMode->GetXbins(0)+fd+1,fAmpTotal[fd+1]/normalizeCst);
+ //fCH2d->Fill(fAmpTotal[fd+1]/normalizeCst,fCalibraMode->GetXbins(0)+fd+1.5);
+ }
+ if (fVector2d) {
+ fCalibraVector->UpdateVectorCH(fDetectorPreviousTrack,fd+1,fAmpTotal[fd+1]/normalizeCst);
+ }
+ fNumberUsedCh[1]++;
+ fEntriesCH[fCalibraMode->GetXbins(0)+fd+1]++;
}
}
- fDetectorPreviousTrack = idetector;
- nbtimebin = rawStream->GetNumberOfTimeBins(); // number of time bins read from data
- Int_t iTimeBin = rawStream->GetTimeBin(); // current time bin
- //row[iTimeBin] = rawStream->GetRow(); // current row
- //col[iTimeBin] = rawStream->GetCol(); // current col
- Int_t *signal = rawStream->GetSignals(); // current ADC signal
-
- Int_t fin = TMath::Min(nbtimebin,(iTimeBin+3));
- Int_t n = 0;
- for(Int_t itime = iTimeBin; itime < fin; itime++){
- // should extract baseline here!
- if(signal[n]>13) phvalue[itime] = signal[n];
- n++;
- }
- }
-
- // fill the last one
- if(fDetectorPreviousTrack != -1){
- if(TMath::Mean(nbtimebin,phvalue)>20.0){
- withInput = 2;
- for(Int_t k = 0; k < nbtimebin; k++){
- UpdateDAQ(fDetectorPreviousTrack,0,0,k,phvalue[k],nbtimebin);
- phvalue[k] = 10;
- //row[k] = -1;
- //col[k] = -1;
+ if (fCalibraMode->GetNfragZ(0) > 1) {
+ if (fAmpTotal[fd] > 0.0) {
+ if ((fd+fCalibraMode->GetNfragZ(0)) < (fCalibraMode->GetNfragZ(0)*fCalibraMode->GetNfragRphi(0))) {
+ if (fAmpTotal[fd+fCalibraMode->GetNfragZ(0)] > 0.0) {
+ // One of the two very big
+ if (fAmpTotal[fd] > fProcent*fAmpTotal[fd+fCalibraMode->GetNfragZ(0)]) {
+ if (fHisto2d) {
+ FillCH2d(fCalibraMode->GetXbins(0)+fd,fAmpTotal[fd]/normalizeCst);
+ //fCH2d->Fill(fAmpTotal[fd]/normalizeCst,fCalibraMode->GetXbins(0)+fd+0.5);
+ }
+ if (fVector2d) {
+ fCalibraVector->UpdateVectorCH(fDetectorPreviousTrack,fd,fAmpTotal[fd]/normalizeCst);
+ }
+ fNumberUsedCh[1]++;
+ fEntriesCH[fCalibraMode->GetXbins(0)+fd]++;
+ }
+ if (fAmpTotal[fd+fCalibraMode->GetNfragZ(0)] > fProcent*fAmpTotal[fd]) {
+ if (fHisto2d) {
+ FillCH2d(fCalibraMode->GetXbins(0)+fd+fCalibraMode->GetNfragZ(0),fAmpTotal[fd+fCalibraMode->GetNfragZ(0)]/normalizeCst);
+ //fCH2d->Fill(fAmpTotal[fd+fCalibraMode->GetNfragZ(0)]/normalizeCst,fCalibraMode->GetXbins(0)+fd+fCalibraMode->GetNfragZ(0)+0.5);
+ }
+ fNumberUsedCh[1]++;
+ fEntriesCH[fCalibraMode->GetXbins(0)+fd+fCalibraMode->GetNfragZ(0)]++;
+ if (fVector2d) {
+ fCalibraVector->UpdateVectorCH(fDetectorPreviousTrack,fd+fCalibraMode->GetNfragZ(0),fAmpTotal[fd+fCalibraMode->GetNfragZ(0)]/normalizeCst);
+ }
+ }
+ }
+ }
}
}
- }
+ break;
+ default: break;
}
-
- return withInput;
-
-}
-//_____________________________________________________________________
-Int_t AliTRDCalibraFillHisto::ProcessEventDAQ(AliRawReader *rawReader, Bool_t nocheck)
-{
- //
- // Event processing loop - AliRawReader
- //
-
-
- AliTRDRawStream rawStream(rawReader);
-
- rawReader->Select("TRD");
-
- return ProcessEventDAQ(&rawStream, nocheck);
-}
-//_________________________________________________________________________
-Int_t AliTRDCalibraFillHisto::ProcessEventDAQ(
-#ifdef ALI_DATE
- eventHeaderStruct *event,
- Bool_t nocheck
-#else
- eventHeaderStruct* /*event*/,
- Bool_t /*nocheck*/
-
-#endif
- )
-{
- //
- // process date event
- //
-#ifdef ALI_DATE
- AliRawReader *rawReader = new AliRawReaderDate((void*)event);
- Int_t result=ProcessEventDAQ(rawReader, nocheck);
- delete rawReader;
- return result;
-#else
- Fatal("AliTRDCalibraFillHisto", "this class was compiled without DATE");
- return 0;
-#endif
-
}
-//____________Online trackling in AliTRDtrigger________________________________
-Bool_t AliTRDCalibraFillHisto::UpdateDAQ(Int_t det, Int_t /*row*/, Int_t /*col*/, Int_t timebin, Int_t signal, Int_t nbtimebins)
+//____________Offine tracking in the AliTRDtracker_____________________________
+void AliTRDCalibraFillHisto::FillTheInfoOfTheTrackPH()
{
//
- // For the DAQ
- // Fill a simple average pulse height
+ // For the offline tracking or mcm tracklets
+ // This function will be called in the functions UpdateHistogram...
+ // to fill the info of a track for the drift velocity calibration
//
-
- // Localisation of the Xbins involved
- //LocalisationDetectorXbins(det);
+
+ Int_t nb = 1; // Nombre de zones traversees 1, 2 ou plus de 3
+ Int_t fd1 = -1; // Premiere zone non nulle
+ Int_t fd2 = -1; // Deuxieme zone non nulle
+ Int_t k1 = -1; // Debut de la premiere zone
+ Int_t k2 = -1; // Debut de la seconde zone
+ Int_t nbclusters = 0; // number of clusters
- // Row and position in the pad groups
- //Int_t posr = 0;
- //if (fCalibraMode->GetNnZ(1) != 0) {
- // posr = (Int_t) row / fCalibraMode->GetNnZ(1);
- //}
-
- // Col of cluster and position in the pad groups
- //Int_t posc = 0;
- //if (fCalibraMode->GetNnRphi(1) != 0) {
- // posc = (Int_t) col / fCalibraMode->GetNnRphi(1);
- //}
-
- //fPH2d->Fill((Float_t) timebin/fSf,(fCalibraMode->GetXbins(1)+posc*fCalibraMode->GetNfragZ(1)+posr)+0.5,(Float_t) signal);
-
- ((TProfile2D *)GetPH2d(nbtimebins,fSf))->Fill((Float_t) timebin/fSf,det+0.5,(Float_t) signal);
-
- return kTRUE;
-
-}
-//____________Write_____________________________________________________
-//_____________________________________________________________________
-void AliTRDCalibraFillHisto::Write2d(const Char_t *filename, Bool_t append)
-{
- //
- // Write infos to file
- //
-
- //For debugging
- if ( fDebugStreamer ) {
- delete fDebugStreamer;
- fDebugStreamer = 0x0;
- }
- AliInfo(Form("Numbertrack: %d Numberusedch[0]: %d, Numberusedch[1]: %d Numberusedph[0]: %d, Numberusedph[1]: %d"
- ,fNumberTrack
- ,fNumberUsedCh[0]
- ,fNumberUsedCh[1]
- ,fNumberUsedPh[0]
- ,fNumberUsedPh[1]));
-
- TDirectory *backup = gDirectory;
- TString option;
-
- if ( append )
- option = "update";
- else
- option = "recreate";
-
- TFile f(filename,option.Data());
-
- TStopwatch stopwatch;
- stopwatch.Start();
- if(fVector2d) {
- f.WriteTObject(fCalibraVector);
- }
- if (fCH2dOn ) {
- if (fHisto2d) {
- f.WriteTObject(fCH2d);
- }
- }
- if (fPH2dOn ) {
- if (fHisto2d) {
- f.WriteTObject(fPH2d);
+ // See if the track goes through different zones
+ for (Int_t k = 0; k < fTimeMax; k++) {
+ if (fPHValue[k] > 0.0) {
+ nbclusters++;
+ if (fd1 == -1) {
+ fd1 = fPHPlace[k];
+ k1 = k;
+ }
+ if (fPHPlace[k] != fd1) {
+ if (fd2 == -1) {
+ k2 = k;
+ fd2 = fPHPlace[k];
+ nb = 2;
+ }
+ if (fPHPlace[k] != fd2) {
+ nb = 3;
+ }
+ }
}
}
- if (fPRF2dOn) {
- if (fHisto2d) {
- f.WriteTObject(fPRF2d);
+
+ // See if noise before and after
+ if(fMaxCluster > 0) {
+ if(fPHValue[0] > fMaxCluster) return;
+ if(fTimeMax > fNbMaxCluster) {
+ for(Int_t k = (fTimeMax-fNbMaxCluster); k < fTimeMax; k++){
+ if(fPHValue[k] > fMaxCluster) return;
+ }
}
}
- if(fLinearFitterOn){
- AnalyseLinearFitter();
- f.WriteTObject(fLinearVdriftFit);
- }
-
- f.Close();
-
- if ( backup ) backup->cd();
-
- AliInfo(Form("Execution time Write2d: R:%.2fs C:%.2fs"
- ,stopwatch.RealTime(),stopwatch.CpuTime()));
-}
-//___________________________________________probe the histos__________________________________________________
-Double_t *AliTRDCalibraFillHisto::StatH(TH2 *h, Int_t i)
-{
- //
- // Check the number of stats in h, 0 is TH2I 1 is TProfile2D
- // debug mode with 2 for TH2I and 3 for TProfile2D
- // It gives a pointer to a Double_t[7] with the info following...
- // [0] : number of calibration groups with entries
- // [1] : minimal number of entries found
- // [2] : calibration group number of the min
- // [3] : maximal number of entries found
- // [4] : calibration group number of the max
- // [5] : mean number of entries found
- // [6] : mean relative error
- //
-
- Double_t *info = new Double_t[7];
-
- // Number of Xbins (detectors or groups of pads)
- Int_t nbins = h->GetNbinsY(); //number of calibration groups
- Int_t nxbins = h->GetNbinsX(); //number of bins per histo
-
- // Initialise
- Double_t nbwe = 0; //number of calibration groups with entries
- Double_t minentries = 0; //minimal number of entries found
- Double_t maxentries = 0; //maximal number of entries found
- Double_t placemin = 0; //calibration group number of the min
- Double_t placemax = -1; //calibration group number of the max
- Double_t meanstats = 0.0; //mean number of entries over the calibration group with at least ome entry
- Double_t meanrelativerror = 0.0; //mean relativ error in the TProfile2D
-
- Double_t counter = 0;
-
- //Debug
- TH1F *nbEntries = 0x0;//distribution of the number of entries
- TH1F *nbEntriesPerGroup = 0x0;//Number of entries per group
- TProfile *nbEntriesPerSp = 0x0;//Number of entries for one supermodule
-
- // Beginning of the loop over the calibration groups
- for (Int_t idect = 0; idect < nbins; idect++) {
-
- TH1I *projch = (TH1I *) h->ProjectionX("projch",idect+1,idect+1,(Option_t *)"e");
- projch->SetDirectory(0);
-
- // Number of entries for this calibration group
- Double_t nentries = 0.0;
- if((i%2) == 0){
- for (Int_t k = 0; k < nxbins; k++) {
- nentries += h->GetBinContent(h->GetBin(k+1,idect+1));
- }
- }
- else{
- for (Int_t k = 0; k < nxbins; k++) {
- nentries += ((TProfile2D *)h)->GetBinEntries(h->GetBin(k+1,idect+1));
- if(h->GetBinContent(h->GetBin(k+1,idect+1)) != 0) {
- meanrelativerror += (h->GetBinError(h->GetBin(k+1,idect+1))/(TMath::Abs(h->GetBinContent(h->GetBin(k+1,idect+1)))));
- counter++;
- }
- }
- }
-
- //Debug
- if(i > 1){
- if((!((Bool_t)nbEntries)) && (nentries > 0)){
- nbEntries = new TH1F("Number of entries","Number of entries"
- ,100,(Int_t)nentries/2,nentries*2);
- nbEntries->SetDirectory(0);
- nbEntriesPerGroup = new TH1F("Number of entries per group","Number of entries per group"
- ,nbins,0,nbins);
- nbEntriesPerGroup->SetDirectory(0);
- nbEntriesPerSp = new TProfile("Number of entries per supermodule","Number of entries per supermodule"
- ,(Int_t)(nbins/18),0,(Int_t)(nbins/18));
- nbEntriesPerSp->SetDirectory(0);
- }
- if(nbEntries){
- if(nentries > 0) nbEntries->Fill(nentries);
- nbEntriesPerGroup->Fill(idect+0.5,nentries);
- nbEntriesPerSp->Fill((idect%((Int_t)(nbins/18)))+0.5,nentries);
- }
- }
-
- //min amd max
- if(nentries > maxentries){
- maxentries = nentries;
- placemax = idect;
- }
- if(idect == 0) {
- minentries = nentries;
- }
- if(nentries < minentries){
- minentries = nentries;
- placemin = idect;
- }
- //nbwe
- if(nentries > 0) {
- nbwe++;
- meanstats += nentries;
- }
- }//calibration groups loop
-
- if(nbwe > 0) meanstats /= nbwe;
- if(counter > 0) meanrelativerror /= counter;
-
- AliInfo(Form("There are %f calibration groups with entries",nbwe));
- AliInfo(Form("The minimum number of entries is %f for the group %f",minentries,placemin));
- AliInfo(Form("The maximum number of entries is %f for the group %f",maxentries,placemax));
- AliInfo(Form("The mean number of entries is %f",meanstats));
- if((i%2) == 1) AliInfo(Form("The mean relative error is %f",meanrelativerror));
-
- info[0] = nbwe;
- info[1] = minentries;
- info[2] = placemin;
- info[3] = maxentries;
- info[4] = placemax;
- info[5] = meanstats;
- info[6] = meanrelativerror;
-
- if(i > 1){
- gStyle->SetPalette(1);
- gStyle->SetOptStat(1111);
- gStyle->SetPadBorderMode(0);
- gStyle->SetCanvasColor(10);
- gStyle->SetPadLeftMargin(0.13);
- gStyle->SetPadRightMargin(0.01);
- TCanvas *stat = new TCanvas("stat","",50,50,600,800);
- stat->Divide(2,1);
- stat->cd(1);
- nbEntries->Draw("");
- stat->cd(2);
- nbEntriesPerSp->SetStats(0);
- nbEntriesPerSp->Draw("");
- TCanvas *stat1 = new TCanvas("stat1","",50,50,600,800);
- stat1->cd();
- nbEntriesPerGroup->SetStats(0);
- nbEntriesPerGroup->Draw("");
- }
-
- return info;
-
-}
-//____________________________________________________________________________
-Double_t *AliTRDCalibraFillHisto::GetMeanMedianRMSNumberCH()
-{
- //
- // Return a Int_t[4] with:
- // 0 Mean number of entries
- // 1 median of number of entries
- // 2 rms of number of entries
- // 3 number of group with entries
- //
-
- Double_t *stat = new Double_t[4];
- stat[3] = 0.0;
-
- Int_t nbofgroups = CalculateTotalNumberOfBins(0);
- Double_t *weight = new Double_t[nbofgroups];
- Int_t *nonul = new Int_t[nbofgroups];
-
- for(Int_t k = 0; k < nbofgroups; k++){
- if(fEntriesCH[k] > 0) {
- weight[k] = 1.0;
- nonul[(Int_t)stat[3]] = fEntriesCH[k];
- stat[3]++;
- }
- else weight[k] = 0.0;
- }
- stat[0] = TMath::Mean(nbofgroups,fEntriesCH,weight);
- stat[1] = TMath::Median(nbofgroups,fEntriesCH,weight);
- stat[2] = TMath::RMS((Int_t)stat[3],nonul);
-
- return stat;
-
-}
-//____________________________________________________________________________
-Double_t *AliTRDCalibraFillHisto::GetMeanMedianRMSNumberLinearFitter() const
-{
- //
- // Return a Int_t[4] with:
- // 0 Mean number of entries
- // 1 median of number of entries
- // 2 rms of number of entries
- // 3 number of group with entries
- //
-
- Double_t *stat = new Double_t[4];
- stat[3] = 0.0;
-
- Int_t nbofgroups = 540;
- Double_t *weight = new Double_t[nbofgroups];
- Int_t *nonul = new Int_t[nbofgroups];
-
- for(Int_t k = 0; k < nbofgroups; k++){
- if(fEntriesLinearFitter[k] > 0) {
- weight[k] = 1.0;
- nonul[(Int_t) stat[3]] = fEntriesLinearFitter[k];
- stat[3]++;
- }
- else weight[k] = 0.0;
- }
- stat[0] = TMath::Mean(nbofgroups,fEntriesLinearFitter,weight);
- stat[1] = TMath::Median(nbofgroups,fEntriesLinearFitter,weight);
- stat[2] = TMath::RMS((Int_t)stat[3],nonul);
-
- return stat;
-
-}
-//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::SetNumberGroupsPRF(Short_t numberGroupsPRF)
-{
- //
- // Should be between 0 and 6
- //
-
- if ((numberGroupsPRF < 0) || (numberGroupsPRF > 6)) {
- AliInfo("The number of groups must be between 0 and 6!");
- }
- else {
- fNgroupprf = numberGroupsPRF;
- }
-
-}
-//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::SetRelativeScale(Float_t RelativeScale)
-{
- //
- // Set the factor that will divide the deposited charge
- // to fit in the histo range [0,300]
- //
-
- if (RelativeScale > 0.0) {
- fRelativeScale = RelativeScale;
- }
- else {
- AliInfo("RelativeScale must be strict positif!");
- }
-
-}
-
-//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::SetNz(Int_t i, Short_t Nz)
-{
- //
- // Set the mode of calibration group in the z direction for the parameter i
- //
-
- if ((Nz >= 0) &&
- (Nz < 5)) {
- fCalibraMode->SetNz(i, Nz);
- }
- else {
- AliInfo("You have to choose between 0 and 4");
- }
-
-}
-
-//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::SetNrphi(Int_t i, Short_t Nrphi)
-{
- //
- // Set the mode of calibration group in the rphi direction for the parameter i
- //
-
- if ((Nrphi >= 0) &&
- (Nrphi < 7)) {
- fCalibraMode->SetNrphi(i ,Nrphi);
- }
- else {
- AliInfo("You have to choose between 0 and 6");
- }
-
-}
-//____________Protected Functions______________________________________________
-//____________Create the 2D histo to be filled online__________________________
-//
-//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::CreatePRF2d(Int_t nn)
-{
- //
- // Create the 2D histos: here we have 2*fNgroupprf bins in tnp of 0.2 amplitude each
- // If fNgroupprf is zero then no binning in tnp
- //
-
- TString name("Nz");
- name += fCalibraMode->GetNz(2);
- name += "Nrphi";
- name += fCalibraMode->GetNrphi(2);
- name += "Ngp";
- name += fNgroupprf;
-
- if(fNgroupprf != 0){
-
- fPRF2d = new TProfile2D("PRF2d",(const Char_t *) name
- ,2*fNgroupprf*fNumberBinPRF,-3.0*fNgroupprf,3.0*fNgroupprf,nn,0,nn);
- fPRF2d->SetYTitle("Det/pad groups");
- fPRF2d->SetXTitle("Position x/W [pad width units]");
- fPRF2d->SetZTitle("Q_{i}/Q_{total}");
- fPRF2d->SetStats(0);
- }
- else{
- fPRF2d = new TProfile2D("PRF2d",(const Char_t *) name
- ,fNumberBinPRF,-1.5,1.5,nn,0,nn);
- fPRF2d->SetYTitle("Det/pad groups");
- fPRF2d->SetXTitle("Position x/W [pad width units]");
- fPRF2d->SetZTitle("Q_{i}/Q_{total}");
- fPRF2d->SetStats(0);
- }
-
-}
-
-//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::CreatePH2d(Int_t nn)
-{
- //
- // Create the 2D histos
- //
-
- TString name("Nz");
- name += fCalibraMode->GetNz(1);
- name += "Nrphi";
- name += fCalibraMode->GetNrphi(1);
-
- fPH2d = new TProfile2D("PH2d",(const Char_t *) name
- ,fTimeMax,-0.5/fSf,(Float_t) (fTimeMax-0.5)/fSf
- ,nn,0,nn);
- fPH2d->SetYTitle("Det/pad groups");
- fPH2d->SetXTitle("time [#mus]");
- fPH2d->SetZTitle("<PH> [a.u.]");
- fPH2d->SetStats(0);
-
-}
-//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::CreateCH2d(Int_t nn)
-{
- //
- // Create the 2D histos
- //
-
- TString name("Nz");
- name += fCalibraMode->GetNz(0);
- name += "Nrphi";
- name += fCalibraMode->GetNrphi(0);
-
- fCH2d = new TH2I("CH2d",(const Char_t *) name
- ,fNumberBinCharge,0,300,nn,0,nn);
- fCH2d->SetYTitle("Det/pad groups");
- fCH2d->SetXTitle("charge deposit [a.u]");
- fCH2d->SetZTitle("counts");
- fCH2d->SetStats(0);
- fCH2d->Sumw2();
-
-}
-
-//____________Offine tracking in the AliTRDtracker_____________________________
-void AliTRDCalibraFillHisto::FillTheInfoOfTheTrackCH()
-{
- //
- // For the offline tracking or mcm tracklets
- // This function will be called in the functions UpdateHistogram...
- // to fill the info of a track for the relativ gain calibration
- //
-
- Int_t nb = 0; // Nombre de zones traversees
- Int_t fd = -1; // Premiere zone non nulle
- Float_t totalcharge = 0.0; // Total charge for the supermodule histo
-
-
-
-
- // See if the track goes through different zones
- for (Int_t k = 0; k < fCalibraMode->GetNfragZ(0)*fCalibraMode->GetNfragRphi(0); k++) {
- if (fAmpTotal[k] > 0.0) {
- totalcharge += fAmpTotal[k];
- nb++;
- if (nb == 1) {
- fd = k;
- }
- }
- }
-
-
- switch (nb)
- {
- case 1:
- fNumberUsedCh[0]++;
- fEntriesCH[fCalibraMode->GetXbins(0)+fd]++;
- if (fHisto2d) {
- FillCH2d(fCalibraMode->GetXbins(0)+fd,fAmpTotal[fd]/fRelativeScale);
- //fCH2d->Fill(fAmpTotal[fd]/fRelativeScale,fCalibraMode->GetXbins(0)+fd+0.5);
- }
- if (fVector2d) {
- fCalibraVector->UpdateVectorCH(fDetectorPreviousTrack,fd,fAmpTotal[fd]/fRelativeScale);
- }
- break;
- case 2:
- if ((fAmpTotal[fd] > 0.0) &&
- (fAmpTotal[fd+1] > 0.0)) {
- // One of the two very big
- if (fAmpTotal[fd] > fProcent*fAmpTotal[fd+1]) {
- if (fHisto2d) {
- FillCH2d(fCalibraMode->GetXbins(0)+fd,fAmpTotal[fd]/fRelativeScale);
- //fCH2d->Fill(fAmpTotal[fd]/fRelativeScale,fCalibraMode->GetXbins(0)+fd+0.5);
- }
- if (fVector2d) {
- fCalibraVector->UpdateVectorCH(fDetectorPreviousTrack,fd,fAmpTotal[fd]/fRelativeScale);
- }
- fNumberUsedCh[1]++;
- fEntriesCH[fCalibraMode->GetXbins(0)+fd]++;
- }
- if (fAmpTotal[fd+1] > fProcent*fAmpTotal[fd]) {
- if (fHisto2d) {
- FillCH2d(fCalibraMode->GetXbins(0)+fd+1,fAmpTotal[fd+1]/fRelativeScale);
- //fCH2d->Fill(fAmpTotal[fd+1]/fRelativeScale,fCalibraMode->GetXbins(0)+fd+1.5);
- }
- if (fVector2d) {
- fCalibraVector->UpdateVectorCH(fDetectorPreviousTrack,fd+1,fAmpTotal[fd+1]/fRelativeScale);
- }
- fNumberUsedCh[1]++;
- fEntriesCH[fCalibraMode->GetXbins(0)+fd+1]++;
- }
- }
- if (fCalibraMode->GetNfragZ(0) > 1) {
- if (fAmpTotal[fd] > 0.0) {
- if ((fd+fCalibraMode->GetNfragZ(0)) < (fCalibraMode->GetNfragZ(0)*fCalibraMode->GetNfragRphi(0))) {
- if (fAmpTotal[fd+fCalibraMode->GetNfragZ(0)] > 0.0) {
- // One of the two very big
- if (fAmpTotal[fd] > fProcent*fAmpTotal[fd+fCalibraMode->GetNfragZ(0)]) {
- if (fHisto2d) {
- FillCH2d(fCalibraMode->GetXbins(0)+fd,fAmpTotal[fd]/fRelativeScale);
- //fCH2d->Fill(fAmpTotal[fd]/fRelativeScale,fCalibraMode->GetXbins(0)+fd+0.5);
- }
- if (fVector2d) {
- fCalibraVector->UpdateVectorCH(fDetectorPreviousTrack,fd,fAmpTotal[fd]/fRelativeScale);
- }
- fNumberUsedCh[1]++;
- fEntriesCH[fCalibraMode->GetXbins(0)+fd]++;
- }
- if (fAmpTotal[fd+fCalibraMode->GetNfragZ(0)] > fProcent*fAmpTotal[fd]) {
- if (fHisto2d) {
- FillCH2d(fCalibraMode->GetXbins(0)+fd+fCalibraMode->GetNfragZ(0),fAmpTotal[fd+fCalibraMode->GetNfragZ(0)]/fRelativeScale);
- //fCH2d->Fill(fAmpTotal[fd+fCalibraMode->GetNfragZ(0)]/fRelativeScale,fCalibraMode->GetXbins(0)+fd+fCalibraMode->GetNfragZ(0)+0.5);
- }
- fNumberUsedCh[1]++;
- fEntriesCH[fCalibraMode->GetXbins(0)+fd+fCalibraMode->GetNfragZ(0)]++;
- if (fVector2d) {
- fCalibraVector->UpdateVectorCH(fDetectorPreviousTrack,fd+fCalibraMode->GetNfragZ(0),fAmpTotal[fd+fCalibraMode->GetNfragZ(0)]/fRelativeScale);
- }
- }
- }
- }
- }
- }
- break;
- default: break;
- }
-}
-//____________Offine tracking in the AliTRDtracker_____________________________
-void AliTRDCalibraFillHisto::FillTheInfoOfTheTrackPH()
-{
- //
- // For the offline tracking or mcm tracklets
- // This function will be called in the functions UpdateHistogram...
- // to fill the info of a track for the drift velocity calibration
- //
-
- Int_t nb = 1; // Nombre de zones traversees 1, 2 ou plus de 3
- Int_t fd1 = -1; // Premiere zone non nulle
- Int_t fd2 = -1; // Deuxieme zone non nulle
- Int_t k1 = -1; // Debut de la premiere zone
- Int_t k2 = -1; // Debut de la seconde zone
-
- // See if the track goes through different zones
- for (Int_t k = 0; k < fTimeMax; k++) {
- if (fPHValue[k] > 0.0) {
- if (fd1 == -1) {
- fd1 = fPHPlace[k];
- k1 = k;
- }
- if (fPHPlace[k] != fd1) {
- if (fd2 == -1) {
- k2 = k;
- fd2 = fPHPlace[k];
- nb = 2;
- }
- if (fPHPlace[k] != fd2) {
- nb = 3;
- }
- }
- }
- }
-
+
+ //printf("nbclusters %d, low limit %d, high limit %d\n",nbclusters,fNumberClusters,fNumberClustersf);
+
+ if(nbclusters < fNumberClusters) return;
+ if(nbclusters > fNumberClustersf) return;
switch(nb)
{
fNumberUsedPh[0]++;
for (Int_t i = 0; i < fTimeMax; i++) {
if (fHisto2d) {
- fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ if(fFillWithZero) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ }
+ //printf("Fill the time bin %d with %f\n",i,fPHValue[i]);
}
if (fVector2d) {
- fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ if(fFillWithZero) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ }
}
}
break;
fNumberUsedPh[1]++;
for (Int_t i = 0; i < fTimeMax; i++) {
if (fHisto2d) {
- fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ if(fFillWithZero) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ }
}
if (fVector2d) {
- fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ if(fFillWithZero) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ }
}
}
}
fNumberUsedPh[1]++;
for (Int_t i = 0; i < fTimeMax; i++) {
if (fHisto2d) {
- fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd2)+0.5,(Float_t) fPHValue[i]);
+ if(fFillWithZero) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd2)+0.5,(Float_t) fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd2)+0.5,(Float_t) fPHValue[i]);
+ }
}
if (fVector2d) {
- fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd2,i,fPHValue[i]);
+ if(fFillWithZero) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd2,i,fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd2,i,fPHValue[i]);
+ }
}
}
}
fNumberUsedPh[1]++;
for (Int_t i = 0; i < fTimeMax; i++) {
if (fHisto2d) {
- fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ if(fFillWithZero) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ }
}
if (fVector2d) {
- fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ if(fFillWithZero) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ }
}
}
}
fNumberUsedPh[1]++;
for (Int_t i = 0; i < fTimeMax; i++) {
if (fHisto2d) {
- fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd2)+0.5,(Float_t) fPHValue[i]);
+ if(fFillWithZero) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd2)+0.5,(Float_t) fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd2)+0.5,(Float_t) fPHValue[i]);
+ }
}
if (fVector2d) {
- fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd2,i,fPHValue[i]);
+ if(fFillWithZero) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd2,i,fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd2,i,fPHValue[i]);
+ }
}
}
}
fNumberUsedPh[1]++;
for (Int_t i = 0; i < fTimeMax; i++) {
if (fHisto2d) {
- fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ if(fFillWithZero) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd1)+0.5,(Float_t) fPHValue[i]);
+ }
}
if (fVector2d) {
- fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ if(fFillWithZero) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd1,i,fPHValue[i]);
+ }
}
}
}
fNumberUsedPh[1]++;
for (Int_t i = 0; i < fTimeMax; i++) {
if (fHisto2d) {
- fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd2)+0.5,(Float_t) fPHValue[i]);
+ if(fFillWithZero) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd2)+0.5,(Float_t) fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fPH2d->Fill((Float_t) i/fSf,(fCalibraMode->GetXbins(1)+fd2)+0.5,(Float_t) fPHValue[i]);
+ }
}
if (fVector2d) {
- fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd2,i,fPHValue[i]);
+ if(fFillWithZero) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd2,i,fPHValue[i]);
+ else {
+ if(((Float_t) fPHValue[i] > 0.0)) fCalibraVector->UpdateVectorPH(fDetectorPreviousTrack,fd2,i,fPHValue[i]);
+ }
}
}
}
default: break;
}
}
-//____________Offine tracking in the AliTRDtracker_____________________________
-Bool_t AliTRDCalibraFillHisto::FindP1TrackPH()
-{
+//////////////////////////////////////////////////////////////////////////////////////////
+// DAQ process functions
+/////////////////////////////////////////////////////////////////////////////////////////
+//_____________________________________________________________________
+Int_t AliTRDCalibraFillHisto::ProcessEventDAQ(AliRawReader *rawReader)
+ { //main
//
- // For the offline tracking
- // This function will be called in the functions UpdateHistogram...
- // to fill the find the parameter P1 of a track for the drift velocity calibration
+ // Event Processing loop - AliTRDrawStream
+ //
+ // 0 timebin problem
+ // 1 no input
+ // 2 input
+ // Same algorithm as TestBeam but different reader
//
-
- //Number of points: if less than 3 return kFALSE
- Int_t npoints = fListClusters->GetEntriesFast();
- if(npoints <= 2) return kFALSE;
+ AliTRDrawStream *rawStream = new AliTRDrawStream(rawReader);
- //Variables
- TLinearFitter linearFitterTracklet = TLinearFitter(2,"pol1"); // TLinearFitter per tracklet
- Double_t snp = 0.0; // sin angle in the plan yx track
- Double_t y = 0.0; // y clusters in the middle of the chamber
- Double_t z = 0.0; // z cluster in the middle of the chamber
- Double_t dydt = 0.0; // dydt tracklet after straight line fit
- Double_t tnp = 0.0; // tan angle in the plan xy track
- Double_t tgl = 0.0; // dz/dl and not dz/dx!
- Double_t errorpar = 0.0; // error after straight line fit on dy/dt
- Double_t pointError = 0.0; // error after straight line fit
- Int_t detector = ((AliTRDcluster *) fListClusters->At(0))->GetDetector(); //detector
- Int_t snpright = 1; // if we took in the middle snp
- Int_t crossrow = 0; // if it crosses a pad row
- Double_t tiltingangle = 0; // tiltingangle of the pad
- Float_t dzdx = 0; // dz/dx now from dz/dl
- Int_t nbli = 0; // number linear fitter points
- AliTRDpadPlane *padplane = fGeo->GetPadPlane(GetPlane(detector),GetChamber(detector));
+ AliTRDdigitsManager *digitsManager = new AliTRDdigitsManager(kTRUE);
+ digitsManager->CreateArrays();
+
+ Int_t withInput = 1;
+
+ Double_t phvalue[16][144][36];
+ for(Int_t k = 0; k < 36; k++){
+ for(Int_t j = 0; j < 16; j++){
+ for(Int_t c = 0; c < 144; c++){
+ phvalue[j][c][k] = 0.0;
+ }
+ }
+ }
+
+ fDetectorPreviousTrack = -1;
+ fMCMPrevious = -1;
+ fROBPrevious = -1;
+
+ Int_t nbtimebin = 0;
+ Int_t baseline = 10;
- linearFitterTracklet.StoreData(kFALSE);
- linearFitterTracklet.ClearPoints();
- //if more than one row
- Int_t rowp = -1; // if it crosses a pad row
+ fTimeMax = 0;
+
+ Int_t det = 0;
+ while ((det = rawStream->NextChamber(digitsManager, NULL, NULL)) >= 0) { //idetector
+
+ if (digitsManager->GetIndexes(det)->HasEntry()) {//QA
+ // printf("there is ADC data on this chamber!\n");
+
+ AliTRDarrayADC *digits = (AliTRDarrayADC *) digitsManager->GetDigits(det); //mod
+ if (digits->HasData()) { //array
+
+ AliTRDSignalIndex *indexes = digitsManager->GetIndexes(det);
+ if (indexes->IsAllocated() == kFALSE) {
+ AliError("Indexes do not exist!");
+ break;
+ }
+ Int_t iRow = 0;
+ Int_t iCol = 0;
+ indexes->ResetCounters();
+
+ while (indexes->NextRCIndex(iRow, iCol)) { //column,row
+ //printf(" det %d \t row %d \t col %d \t digit\n",det,iRow,iCol);
+ //while (rawStream->Next()) {
+
+ Int_t idetector = det; // current detector
+ //Int_t imcm = rawStream->GetMCM(); // current MCM
+ //Int_t irob = rawStream->GetROB(); // current ROB
+
+
+ if((fDetectorPreviousTrack != idetector) && (fDetectorPreviousTrack != -1)) {
+ // Fill
+ withInput = TMath::Max(FillDAQ(phvalue),withInput);
+
+ // reset
+ for(Int_t k = 0; k < 36; k++){
+ for(Int_t j = 0; j < 16; j++){
+ for(Int_t c = 0; c < 144; c++){
+ phvalue[j][c][k] = 0.0;
+ }
+ }
+ }
+ }
+
+ fDetectorPreviousTrack = idetector;
+ //fMCMPrevious = imcm;
+ //fROBPrevious = irob;
+
+ // nbtimebin = rawStream->GetNumberOfTimeBins(); // number of time bins read from data
+ AliTRDdigitsParam *digitParam = (AliTRDdigitsParam *)digitsManager->GetDigitsParam();
+ nbtimebin = digitParam->GetNTimeBins(det); // number of time bins read from data
+ baseline = digitParam->GetADCbaseline(det); // baseline
+
+ if(nbtimebin == 0) return 0;
+ if((fTimeMax != 0) && (nbtimebin != fTimeMax)) return 0;
+ fTimeMax = nbtimebin;
+
+ fNumberClustersf = fTimeMax;
+ fNumberClusters = (Int_t)(fNumberClustersProcent*fTimeMax);
+
+
+ for(Int_t itime = 0; itime < nbtimebin; itime++) {
+ // phvalue[row][col][itime] = signal[itime]-baseline;
+ phvalue[iRow][iCol][itime] = (Short_t)(digits->GetData(iRow,iCol,itime) - baseline);
+ /*if(phvalue[iRow][iCol][itime] >= 20) {
+ printf("----------> phvalue[%d][%d][%d] %d baseline %d \n",
+ iRow,
+ iCol,
+ itime,
+ (Short_t)(digits->GetData(iRow,iCol,itime)),
+ baseline);
+ }*/
+ }
+
+ }//column,row
+
+ // fill the last one
+ if(fDetectorPreviousTrack != -1){
+
+ // Fill
+ withInput = TMath::Max(FillDAQ(phvalue),withInput);
+ // printf("\n ---> withinput %d\n\n",withInput);
+ // reset
+ for(Int_t k = 0; k < 36; k++){
+ for(Int_t j = 0; j < 16; j++){
+ for(Int_t c = 0; c < 144; c++){
+ phvalue[j][c][k] = 0.0;
+ }
+ }
+ }
+ }
+
+ }//array
+ }//QA
+ digitsManager->ClearArrays(det);
+ }//idetector
+ delete digitsManager;
+
+ delete rawStream;
+ return withInput;
+ }//main
+//_____________________________________________________________________
+//////////////////////////////////////////////////////////////////////////////
+// Routine inside the DAQ process
+/////////////////////////////////////////////////////////////////////////////
+//_______________________________________________________________________
+Int_t AliTRDCalibraFillHisto::FillDAQ(Double_t phvalue[16][144][36]){
- //tiltingangle
- tiltingangle = padplane->GetTiltingAngle();
- Float_t tnt = TMath::Tan(tiltingangle/180.*TMath::Pi()); // tan tiltingangle
+ //
+ // Look for the maximum by collapsing over the time
+ // Sum over four pad col and two pad row
+ //
- //Fill with points
- for(Int_t k = 0; k < npoints; k++){
-
- AliTRDcluster *cl = (AliTRDcluster *) fListClusters->At(k);
- Double_t ycluster = cl->GetY();
- Int_t time = cl->GetLocalTimeBin();
- Double_t timeis = time/fSf;
- //See if cross two pad rows
- Int_t row = padplane->GetPadRowNumber(cl->GetZ());
- if(k==0) rowp = row;
- if(row != rowp) crossrow = 1;
- //Take in the middle of the chamber
- //FollowBack
- if(time > (Int_t) 10) {
- //Follow
- //if(time < (Int_t) 11) {
- z = cl->GetZ();
- y = cl->GetY();
- snp = fPar2[time];
- tgl = fPar3[time];
- }
- linearFitterTracklet.AddPoint(&timeis,ycluster,1);
- nbli++;
+ Int_t used = 0;
+
+
+ Int_t idect = fDetectorPreviousTrack;
+ //printf("Enter Detector %d\n",fDetectorPreviousTrack);
+ Double_t sum[36];
+ for(Int_t tb = 0; tb < 36; tb++){
+ sum[tb] = 0.0;
}
- //FollowBack
- if(((AliTRDcluster *) fListClusters->At(0))->GetLocalTimeBin() < 10) snpright = 0;
- //Follow
- //if(((AliTRDcluster *) fListClusters->At(0))->GetLocalTimeBin() >= 11) snpright = 0;
- if(nbli <= 2) return kFALSE;
+
+ //fGoodTracklet = kTRUE;
+ //fDetectorPreviousTrack = 0;
+
+
+ ///////////////////////////
+ // look for maximum
+ /////////////////////////
+
+ Int_t imaxRow = 0;
+ Int_t imaxCol = 0;
+ Double_t integralMax = -1;
- // Do the straight line fit now
- TVectorD pars;
- linearFitterTracklet.Eval();
- linearFitterTracklet.GetParameters(pars);
- pointError = TMath::Sqrt(linearFitterTracklet.GetChisquare()/nbli);
- errorpar = linearFitterTracklet.GetParError(1)*pointError;
- dydt = pars[1];
-
- if( TMath::Abs(snp) < 1.){
- tnp = snp / (TMath::Sqrt(1-(snp*snp)));
- }
- dzdx = tgl*TMath::Sqrt(1+tnp*tnp);
+ for (Int_t ir = 1; ir <= 15; ir++)
+ {
+ for (Int_t ic = 2; ic <= 142; ic++)
+ {
+ Double_t integral = 0;
+ for (Int_t ishiftR = 0; ishiftR < fNumberRowDAQ; ishiftR++)
+ {
+ for (Int_t ishiftC = -fNumberColDAQ; ishiftC < fNumberColDAQ; ishiftC++)
+ {
+ if (ir + ishiftR >= 1 && ir + ishiftR <= 16 &&
+ ic + ishiftC >= 1 && ic + ishiftC <= 144)
+ {
+
+ for(Int_t tb = 0; tb< fTimeMax; tb++){
+ integral += phvalue[ir + ishiftR-1][ic + ishiftC-1][tb];
+ }// addtb
+ } //addsignal
+ } //shiftC
+ } // shiftR
+ if (integralMax < integral)
+ {
+ imaxRow = ir;
+ imaxCol = ic;
+ integralMax = integral;
+
+ } // check max integral
+ } //ic
+ } // ir
+
+ // printf("imaxRow %d, imaxCol %d, fTimeMax %d, integralMax %f\n",imaxRow,imaxCol,fTimeMax, integralMax);
+ //if((imaxRow == 0) || (imaxRow >= 15) || (imaxCol <= 3) || (imaxCol >= 140)) {
+ // used=1;
+ // return used;
+ // }
+
+ if(((imaxRow + fNumberRowDAQ) > 16) || (imaxRow == 0) || ((imaxCol - fNumberColDAQ) <= 1) || ((imaxCol + fNumberColDAQ) >= 144)) {
+ used=1;
+ return used;
+ }
+ //CheckGoodTrackletV0(fDetectorPreviousTrack,imaxRow,imaxCol);
+ //if(!fGoodTracklet) used = 1;;
+
+ // /////////////////////////////////////////////////////
+ // sum ober 2 row and 4 pad cols for each time bins
+ // ////////////////////////////////////////////////////
+
+
+
+ for (Int_t ishiftR = 0; ishiftR < fNumberRowDAQ; ishiftR++)
+ {
+ for (Int_t ishiftC = -fNumberColDAQ; ishiftC < fNumberColDAQ; ishiftC++)
+ {
+ if (imaxRow + ishiftR >= 1 && imaxRow + ishiftR <= 16 &&
+ imaxCol + ishiftC >= 1 && imaxCol + ishiftC <= 144)
+ {
+ for(Int_t it = 0; it < fTimeMax; it++){
+ sum[it] += phvalue[imaxRow + ishiftR-1][imaxCol + ishiftC-1][it];
+ }
+ }
+ } // col shift
+ }// row shift
+
+ Int_t nbcl = 0;
+ Double_t sumcharge = 0.0;
+ for(Int_t it = 0; it < fTimeMax; it++){
+ sumcharge += sum[it];
+ if(sum[it] > fThresholdClustersDAQ) nbcl++;
+ }
+
+ /////////////////////////////////////////////////////////
+ // Debug
+ ////////////////////////////////////////////////////////
if(fDebugLevel > 0){
if ( !fDebugStreamer ) {
//debug stream
TDirectory *backup = gDirectory;
fDebugStreamer = new TTreeSRedirector("TRDdebugCalibraFill.root");
if ( backup ) backup->cd(); //we don't want to be cd'd to the debug streamer
- }
-
- (* fDebugStreamer) << "VDRIFT0"<<
- "npoints="<<npoints<<
+ }
+
+ Double_t amph0 = sum[0];
+ Double_t amphlast = sum[fTimeMax-1];
+ Double_t rms = TMath::RMS(fTimeMax,sum);
+ Int_t goodtracklet = (Int_t) fGoodTracklet;
+ for(Int_t it = 0; it < fTimeMax; it++){
+ Double_t clustera = sum[it];
+
+ (* fDebugStreamer) << "FillDAQa"<<
+ "ampTotal="<<sumcharge<<
+ "row="<<imaxRow<<
+ "col="<<imaxCol<<
+ "detector="<<idect<<
+ "amph0="<<amph0<<
+ "amphlast="<<amphlast<<
+ "goodtracklet="<<goodtracklet<<
+ "clustera="<<clustera<<
+ "it="<<it<<
+ "rms="<<rms<<
+ "nbcl="<<nbcl<<
"\n";
-
+ }
+ }
+
+ ////////////////////////////////////////////////////////
+ // fill
+ ///////////////////////////////////////////////////////
+ //printf("fNumberClusters %d, fNumberClustersf %d\n",fNumberClusters,fNumberClustersf);
+ if(sum[0] > 100.0) used = 1;
+ if(nbcl < fNumberClusters) used = 1;
+ if(nbcl > fNumberClustersf) used = 1;
+
+ //if(fDetectorPreviousTrack == 15){
+ // printf("rms %f and first time bin %f\n",TMath::RMS(fTimeMax,sum),sum[0]);
+ //}
+ //if((TMath::RMS(fTimeMax,sum) <= 10.0) && (sum[0] > 200.0)) return 1;
+ if(used == 0){
+ for(Int_t it = 0; it < fTimeMax; it++){
+ if(fFillWithZero) UpdateDAQ(fDetectorPreviousTrack,0,0,it,sum[it],fTimeMax);
+ else{
+ if(sum[it] > 0.0) UpdateDAQ(fDetectorPreviousTrack,0,0,it,sum[it],fTimeMax);
+ }
+ //if(fFillWithZero) UpdateDAQ(0,0,0,it,sum[it],fTimeMax);
+ //else{
+ // if(sum[it] > 0.0) UpdateDAQ(0,0,0,it,sum[it],fTimeMax);
+ //}
+ }
- (* fDebugStreamer) << "VDRIFT"<<
- "snpright="<<snpright<<
- "npoints="<<npoints<<
- "nbli="<<nbli<<
- "detector="<<detector<<
- "snp="<<snp<<
- "tnp="<<tnp<<
- "tgl="<<tgl<<
- "tnt="<<tnt<<
- "y="<<y<<
- "z="<<z<<
- "dydt="<<dydt<<
- "dzdx="<<dzdx<<
- "crossrow="<<crossrow<<
- "errorpar="<<errorpar<<
- "pointError="<<pointError<<
- "\n";
+
+ //((TH2I *)GetCH2d()->Fill(sumcharge/30.0,fDetectorPreviousTrack));
+ used = 2;
+ //printf("Pass Detector %d\n",fDetectorPreviousTrack);
+
+ }
+
+ return used;
+
+}
+//____________Online trackling in AliTRDtrigger________________________________
+Bool_t AliTRDCalibraFillHisto::UpdateDAQ(Int_t det, Int_t /*row*/, Int_t /*col*/, Int_t timebin, Float_t signal, Int_t nbtimebins)
+{
+ //
+ // For the DAQ
+ // Fill a simple average pulse height
+ //
+
+
+ ((TProfile2D *)GetPH2d(nbtimebins,fSf))->Fill((Float_t) timebin/fSf,det+0.5,(Float_t) signal);
+
+ return kTRUE;
+
+}
+//____________Write_____________________________________________________
+//_____________________________________________________________________
+void AliTRDCalibraFillHisto::Write2d(const Char_t *filename, Bool_t append)
+{
+ //
+ // Write infos to file
+ //
+
+ //For debugging
+ if ( fDebugStreamer ) {
+ delete fDebugStreamer;
+ fDebugStreamer = 0x0;
}
+
+ AliInfo(Form("Numbertrack: %d Numberusedch[0]: %d, Numberusedch[1]: %d Numberusedph[0]: %d, Numberusedph[1]: %d"
+ ,fNumberTrack
+ ,fNumberUsedCh[0]
+ ,fNumberUsedCh[1]
+ ,fNumberUsedPh[0]
+ ,fNumberUsedPh[1]));
- if(npoints < fNumberClusters) return kFALSE;
- if(snpright == 0) return kFALSE;
- if(pointError >= 0.1) return kFALSE;
- if(crossrow == 1) return kFALSE;
+ TDirectory *backup = gDirectory;
+ TString option;
- if(fLinearFitterOn){
- //Add to the linear fitter of the detector
- if( TMath::Abs(snp) < 1.){
- Double_t x = tnp-dzdx*tnt;
- (GetLinearFitter(detector,kTRUE))->AddPoint(&x,dydt);
- if(fLinearFitterDebugOn) {
- fLinearVdriftFit->Update(detector,x,pars[1]);
- }
- fEntriesLinearFitter[detector]++;
- }
+ if ( append )
+ option = "update";
+ else
+ option = "recreate";
+
+ TFile f(filename,option.Data());
+
+ TStopwatch stopwatch;
+ stopwatch.Start();
+ if(fVector2d) {
+ f.WriteTObject(fCalibraVector);
}
- //AliInfo("End of FindP1TrackPH with success!")
- return kTRUE;
+ if (fCH2dOn ) {
+ if (fHisto2d) {
+ f.WriteTObject(fCH2d);
+ }
+ }
+ if (fPH2dOn ) {
+ if (fHisto2d) {
+ f.WriteTObject(fPH2d);
+ }
+ }
+ if (fPRF2dOn) {
+ if (fHisto2d) {
+ f.WriteTObject(fPRF2d);
+ }
+ }
+ if(fLinearFitterOn){
+ if(fLinearFitterDebugOn) AnalyseLinearFitter();
+ f.WriteTObject(fLinearVdriftFit);
+ }
+
+ f.Close();
+
+ if ( backup ) backup->cd();
+
+ AliInfo(Form("Execution time Write2d: R:%.2fs C:%.2fs"
+ ,stopwatch.RealTime(),stopwatch.CpuTime()));
}
-//____________Offine tracking in the AliTRDtracker_____________________________
-Bool_t AliTRDCalibraFillHisto::HandlePRF()
+//////////////////////////////////////////////////////////////////////////////////////////////////////////////
+// Stats stuff
+//////////////////////////////////////////////////////////////////////////////////////////////////////////////
+//___________________________________________probe the histos__________________________________________________
+Double_t *AliTRDCalibraFillHisto::StatH(TH2 *h, Int_t i)
{
//
- // For the offline tracking
- // Fit the tracklet with a line and take the position as reference for the PRF
+ // Check the number of stats in h, 0 is TH2I 1 is TProfile2D
+ // debug mode with 2 for TH2I and 3 for TProfile2D
+ // It gives a pointer to a Double_t[7] with the info following...
+ // [0] : number of calibration groups with entries
+ // [1] : minimal number of entries found
+ // [2] : calibration group number of the min
+ // [3] : maximal number of entries found
+ // [4] : calibration group number of the max
+ // [5] : mean number of entries found
+ // [6] : mean relative error
//
- //Number of points
- Int_t npoints = fListClusters->GetEntriesFast(); // number of total points
- Int_t nb3pc = 0; // number of three pads clusters used for fit
- Int_t detector = ((AliTRDcluster *) fListClusters->At(0))->GetDetector(); // detector
-
-
- // To see the difference due to the fit
- Double_t *padPositions;
- padPositions = new Double_t[npoints];
- for(Int_t k = 0; k < npoints; k++){
- padPositions[k] = 0.0;
- }
-
-
- //Find the position by a fit
- TLinearFitter fitter(2,"pol1");
- fitter.StoreData(kFALSE);
- fitter.ClearPoints();
- for(Int_t k = 0; k < npoints; k++){
- //Take the cluster
- AliTRDcluster *cl = (AliTRDcluster *) fListClusters->At(k);
- Short_t *signals = cl->GetSignals();
- Double_t time = cl->GetLocalTimeBin();
- //Calculate x if possible
- Float_t xcenter = 0.0;
- Bool_t echec = kTRUE;
- if((time<=7) || (time>=21)) continue;
- // Center 3 balanced: position with the center of the pad
- if ((((Float_t) signals[3]) > 0.0) &&
- (((Float_t) signals[2]) > 0.0) &&
- (((Float_t) signals[4]) > 0.0)) {
- echec = kFALSE;
- // Security if the denomiateur is 0
- if ((((Float_t) (((Float_t) signals[3]) * ((Float_t) signals[3]))) /
- ((Float_t) (((Float_t) signals[2]) * ((Float_t) signals[4])))) != 1.0) {
- xcenter = 0.5 * (TMath::Log((Float_t) (((Float_t) signals[4]) / ((Float_t) signals[2]))))
- / (TMath::Log(((Float_t) (((Float_t) signals[3]) * ((Float_t) signals[3])))
- / ((Float_t) (((Float_t) signals[2]) * ((Float_t) signals[4])))));
- }
- else {
- echec = kTRUE;
- }
- }
- if(TMath::Abs(xcenter) > 0.5) echec = kTRUE;
- if(echec) continue;
- //if no echec: calculate with the position of the pad
- // Position of the cluster
- Double_t padPosition = xcenter + cl->GetPadCol();
- padPositions[k] = padPosition;
- nb3pc++;
- fitter.AddPoint(&time, padPosition,1);
- }//clusters loop
-
- //printf("nb3pc %d, npoints %d\n",nb3pc,npoints);
- if(nb3pc < 3) return kFALSE;
- fitter.Eval();
- TVectorD line(2);
- fitter.GetParameters(line);
- Float_t pointError = -1.0;
- pointError = TMath::Sqrt(fitter.GetChisquare()/nb3pc);
-
+ Double_t *info = new Double_t[7];
+
+ // Number of Xbins (detectors or groups of pads)
+ Int_t nbins = h->GetNbinsY(); //number of calibration groups
+ Int_t nxbins = h->GetNbinsX(); //number of bins per histo
- // Now fill the PRF
- for(Int_t k = 0; k < npoints; k++){
- //Take the cluster
- AliTRDcluster *cl = (AliTRDcluster *) fListClusters->At(k);
- Short_t *signals = cl->GetSignals(); // signal
- Double_t time = cl->GetLocalTimeBin(); // time bin
- Float_t padPosTracklet = line[0]+line[1]*time; // reconstruct position from fit
- Float_t padPos = cl->GetPadCol(); // middle pad
- Double_t dpad = padPosTracklet - padPos; // reconstruct position relative to middle pad from fit
- Float_t ycenter = 0.0; // relative center charge
- Float_t ymin = 0.0; // relative left charge
- Float_t ymax = 0.0; // relative right charge
- Double_t tgl = fPar3[(Int_t)time]; // dz/dl and not dz/dx
- Double_t pt = fPar4[(Int_t)time]; // pt
- Float_t dzdx = 0.0; // dzdx
+ // Initialise
+ Double_t nbwe = 0; //number of calibration groups with entries
+ Double_t minentries = 0; //minimal number of entries found
+ Double_t maxentries = 0; //maximal number of entries found
+ Double_t placemin = 0; //calibration group number of the min
+ Double_t placemax = -1; //calibration group number of the max
+ Double_t meanstats = 0.0; //mean number of entries over the calibration group with at least ome entry
+ Double_t meanrelativerror = 0.0; //mean relativ error in the TProfile2D
+ Double_t counter = 0;
- //Requiere simply two pads clusters at least
- if(((((Float_t) signals[3]) > 0.0) && (((Float_t) signals[2]) > 0.0)) ||
- ((((Float_t) signals[3]) > 0.0) && (((Float_t) signals[4]) > 0.0))){
- Float_t sum = ((Float_t) signals[2]) + ((Float_t) signals[3]) + ((Float_t) signals[4]);
- if(sum > 0.0) ycenter = ((Float_t) signals[3])/ sum;
- if(sum > 0.0) ymin = ((Float_t) signals[2])/ sum;
- if(sum > 0.0) ymax = ((Float_t) signals[4])/ sum;
- }
+ //Debug
+ TH1F *nbEntries = 0x0;//distribution of the number of entries
+ TH1F *nbEntriesPerGroup = 0x0;//Number of entries per group
+ TProfile *nbEntriesPerSp = 0x0;//Number of entries for one supermodule
- //calibration group
- Int_t *rowcol = CalculateRowCol(cl); // calcul col and row pad of the cluster
- Int_t grouplocal = CalculateCalibrationGroup(2,rowcol); // calcul the corresponding group
- Int_t caligroup = fCalibraMode->GetXbins(2)+ grouplocal; // calcul the corresponding group
- Double_t snp = fPar2[(Int_t)time]; // sin angle in xy plan
- Float_t xcl = cl->GetY(); // y cluster
- Float_t qcl = cl->GetQ(); // charge cluster
- Int_t plane = GetPlane(detector); // plane
- Int_t chamber = GetChamber(detector); // chamber
- Double_t xdiff = dpad; // reconstructed position constant
- Double_t x = dpad; // reconstructed position moved
- Float_t ep = pointError; // error of fit
- Float_t signal1 = (Float_t)signals[1]; // signal at the border
- Float_t signal3 = (Float_t)signals[3]; // signal
- Float_t signal2 = (Float_t)signals[2]; // signal
- Float_t signal4 = (Float_t)signals[4]; // signal
- Float_t signal5 = (Float_t)signals[5]; // signal at the border
- Float_t tnp = 0.0;
- if(TMath::Abs(snp) < 1.0){
- tnp = snp / (TMath::Sqrt(1-snp*snp));
- dzdx = tgl*TMath::Sqrt(1+tnp*tnp);
- }
-
+ // Beginning of the loop over the calibration groups
+ for (Int_t idect = 0; idect < nbins; idect++) {
- if(fDebugLevel > 0){
- if ( !fDebugStreamer ) {
- //debug stream
- TDirectory *backup = gDirectory;
- fDebugStreamer = new TTreeSRedirector("TRDdebugCalibraFill.root");
- if ( backup ) backup->cd(); //we don't want to be cd'd to the debug streamer
- }
-
- (* fDebugStreamer) << "PRF0"<<
- "caligroup="<<caligroup<<
- "detector="<<detector<<
- "plane="<<plane<<
- "chamber="<<chamber<<
- "npoints="<<npoints<<
- "Np="<<nb3pc<<
- "ep="<<ep<<
- "snp="<<snp<<
- "tnp="<<tnp<<
- "tgl="<<tgl<<
- "dzdx="<<dzdx<<
- "pt="<<pt<<
- "padPos="<<padPos<<
- "padPosition="<<padPositions[k]<<
- "padPosTracklet="<<padPosTracklet<<
- "x="<<x<<
- "ycenter="<<ycenter<<
- "ymin="<<ymin<<
- "ymax="<<ymax<<
- "xcl="<<xcl<<
- "qcl="<<qcl<<
- "signal1="<<signal1<<
- "signal2="<<signal2<<
- "signal3="<<signal3<<
- "signal4="<<signal4<<
- "signal5="<<signal5<<
- "time="<<time<<
- "\n";
- x = xdiff;
- Int_t type=0;
- Float_t y = ycenter;
- (* fDebugStreamer) << "PRFALL"<<
- "caligroup="<<caligroup<<
- "detector="<<detector<<
- "plane="<<plane<<
- "chamber="<<chamber<<
- "npoints="<<npoints<<
- "Np="<<nb3pc<<
- "ep="<<ep<<
- "type="<<type<<
- "snp="<<snp<<
- "tnp="<<tnp<<
- "tgl="<<tgl<<
- "dzdx="<<dzdx<<
- "pt="<<pt<<
- "padPos="<<padPos<<
- "padPosition="<<padPositions[k]<<
- "padPosTracklet="<<padPosTracklet<<
- "x="<<x<<
- "y="<<y<<
- "xcl="<<xcl<<
- "qcl="<<qcl<<
- "signal1="<<signal1<<
- "signal2="<<signal2<<
- "signal3="<<signal3<<
- "signal4="<<signal4<<
- "signal5="<<signal5<<
- "time="<<time<<
- "\n";
- x=-(xdiff+1);
- y = ymin;
- type=-1;
- (* fDebugStreamer) << "PRFALL"<<
- "caligroup="<<caligroup<<
- "detector="<<detector<<
- "plane="<<plane<<
- "chamber="<<chamber<<
- "npoints="<<npoints<<
- "Np="<<nb3pc<<
- "ep="<<ep<<
- "type="<<type<<
- "snp="<<snp<<
- "tnp="<<tnp<<
- "tgl="<<tgl<<
- "dzdx="<<dzdx<<
- "pt="<<pt<<
- "padPos="<<padPos<<
- "padPosition="<<padPositions[k]<<
- "padPosTracklet="<<padPosTracklet<<
- "x="<<x<<
- "y="<<y<<
- "xcl="<<xcl<<
- "qcl="<<qcl<<
- "signal1="<<signal1<<
- "signal2="<<signal2<<
- "signal3="<<signal3<<
- "signal4="<<signal4<<
- "signal5="<<signal5<<
- "time="<<time<<
- "\n";
- x=1-xdiff;
- y = ymax;
- type=1;
-
- (* fDebugStreamer) << "PRFALL"<<
- "caligroup="<<caligroup<<
- "detector="<<detector<<
- "plane="<<plane<<
- "chamber="<<chamber<<
- "npoints="<<npoints<<
- "Np="<<nb3pc<<
- "ep="<<ep<<
- "type="<<type<<
- "snp="<<snp<<
- "tnp="<<tnp<<
- "tgl="<<tgl<<
- "dzdx="<<dzdx<<
- "pt="<<pt<<
- "padPos="<<padPos<<
- "padPosition="<<padPositions[k]<<
- "padPosTracklet="<<padPosTracklet<<
- "x="<<x<<
- "y="<<y<<
- "xcl="<<xcl<<
- "qcl="<<qcl<<
- "signal1="<<signal1<<
- "signal2="<<signal2<<
- "signal3="<<signal3<<
- "signal4="<<signal4<<
- "signal5="<<signal5<<
- "time="<<time<<
- "\n";
-
- }
-
- // some cuts
- if(npoints < fNumberClusters) continue;
- if(nb3pc <= 5) continue;
- if((time >= 21) || (time < 7)) continue;
- if(TMath::Abs(snp) >= 1.0) continue;
- if(qcl < 80) continue;
+ TH1I *projch = (TH1I *) h->ProjectionX("projch",idect+1,idect+1,(Option_t *)"e");
+ projch->SetDirectory(0);
- Bool_t echec = kFALSE;
- Double_t shift = 0.0;
- //Calculate the shift in x coresponding to this tnp
- if(fNgroupprf != 0.0){
- shift = -3.0*(fNgroupprf-1)-1.5;
- Double_t limithigh = -0.2*(fNgroupprf-1);
- if((tnp < (-0.2*fNgroupprf)) || (tnp > (0.2*fNgroupprf))) echec = kTRUE;
- else{
- while(tnp > limithigh){
- limithigh += 0.2;
- shift += 3.0;
- }
- }
- }
- if (fHisto2d && !echec) {
- if(TMath::Abs(dpad) < 1.5) {
- fPRF2d->Fill(shift+dpad,(caligroup+0.5),ycenter);
- fPRF2d->Fill(shift-dpad,(caligroup+0.5),ycenter);
- }
- if((ymin > 0.0) && (TMath::Abs(dpad+1.0) < 1.5)) {
- fPRF2d->Fill(shift-(dpad+1.0),(caligroup+0.5),ymin);
- fPRF2d->Fill(shift+(dpad+1.0),(caligroup+0.5),ymin);
- }
- if((ymax > 0.0) && (TMath::Abs(dpad-1.0) < 1.5)) {
- fPRF2d->Fill(shift+1.0-dpad,(caligroup+0.5),ymax);
- fPRF2d->Fill(shift-1.0+dpad,(caligroup+0.5),ymax);
+ // Number of entries for this calibration group
+ Double_t nentries = 0.0;
+ if((i%2) == 0){
+ for (Int_t k = 0; k < nxbins; k++) {
+ nentries += h->GetBinContent(h->GetBin(k+1,idect+1));
}
}
- //Not equivalent anymore here!
- if (fVector2d && !echec) {
- if(TMath::Abs(dpad) < 1.5) {
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift+dpad,ycenter);
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift-dpad,ycenter);
- }
- if((ymin > 0.0) && (TMath::Abs(dpad+1.0) < 1.5)) {
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift-(dpad+1.0),ymin);
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift+(dpad+1.0),ymin);
+ else{
+ for (Int_t k = 0; k < nxbins; k++) {
+ nentries += ((TProfile2D *)h)->GetBinEntries(h->GetBin(k+1,idect+1));
+ if(h->GetBinContent(h->GetBin(k+1,idect+1)) != 0) {
+ meanrelativerror += (h->GetBinError(h->GetBin(k+1,idect+1))/(TMath::Abs(h->GetBinContent(h->GetBin(k+1,idect+1)))));
+ counter++;
+ }
}
- if((ymax > 0.0) && (TMath::Abs(dpad-1.0) < 1.5)) {
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift+1.0-dpad,ymax);
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift-1.0+dpad,ymax);
+ }
+
+ //Debug
+ if(i > 1){
+ if(nentries > 0){
+ if(!((Bool_t)nbEntries)) nbEntries = new TH1F("Number of entries","Number of entries",100,(Int_t)nentries/2,nentries*2);
+ nbEntries->SetDirectory(0);
+ nbEntries->Fill(nentries);
+ if(!((Bool_t)nbEntriesPerGroup)) nbEntriesPerGroup = new TH1F("Number of entries per group","Number of entries per group",nbins,0,nbins);
+ nbEntriesPerGroup->SetDirectory(0);
+ nbEntriesPerGroup->Fill(idect+0.5,nentries);
+ if(!((Bool_t)nbEntriesPerSp)) nbEntriesPerSp = new TProfile("Number of entries per supermodule","Number of entries per supermodule",(Int_t)(nbins/18),0,(Int_t)(nbins/18));
+ nbEntriesPerSp->SetDirectory(0);
+ nbEntriesPerSp->Fill((idect%((Int_t)(nbins/18)))+0.5,nentries);
}
}
- }
- return kTRUE;
+
+ //min amd max
+ if(nentries > maxentries){
+ maxentries = nentries;
+ placemax = idect;
+ }
+ if(idect == 0) {
+ minentries = nentries;
+ }
+ if(nentries < minentries){
+ minentries = nentries;
+ placemin = idect;
+ }
+ //nbwe
+ if(nentries > 0) {
+ nbwe++;
+ meanstats += nentries;
+ }
+ }//calibration groups loop
+ if(nbwe > 0) meanstats /= nbwe;
+ if(counter > 0) meanrelativerror /= counter;
+
+ AliInfo(Form("There are %f calibration groups with entries",nbwe));
+ AliInfo(Form("The minimum number of entries is %f for the group %f",minentries,placemin));
+ AliInfo(Form("The maximum number of entries is %f for the group %f",maxentries,placemax));
+ AliInfo(Form("The mean number of entries is %f",meanstats));
+ if((i%2) == 1) AliInfo(Form("The mean relative error is %f",meanrelativerror));
+
+ info[0] = nbwe;
+ info[1] = minentries;
+ info[2] = placemin;
+ info[3] = maxentries;
+ info[4] = placemax;
+ info[5] = meanstats;
+ info[6] = meanrelativerror;
+
+ if(nbEntries && nbEntriesPerSp && nbEntriesPerGroup){
+ gStyle->SetPalette(1);
+ gStyle->SetOptStat(1111);
+ gStyle->SetPadBorderMode(0);
+ gStyle->SetCanvasColor(10);
+ gStyle->SetPadLeftMargin(0.13);
+ gStyle->SetPadRightMargin(0.01);
+ TCanvas *stat = new TCanvas("stat","",50,50,600,800);
+ stat->Divide(2,1);
+ stat->cd(1);
+ nbEntries->Draw("");
+ stat->cd(2);
+ nbEntriesPerSp->SetStats(0);
+ nbEntriesPerSp->Draw("");
+ TCanvas *stat1 = new TCanvas("stat1","",50,50,600,800);
+ stat1->cd();
+ nbEntriesPerGroup->SetStats(0);
+ nbEntriesPerGroup->Draw("");
+ }
+
+ return info;
+
}
-//____________Offine tracking in the AliTRDtracker_____________________________
-Bool_t AliTRDCalibraFillHisto::FindP1TrackPHtrack(AliTRDtrack *t, Int_t index0, Int_t index1)
+//____________________________________________________________________________
+Double_t *AliTRDCalibraFillHisto::GetMeanMedianRMSNumberCH()
{
//
- // For the offline tracking
- // This function will be called in the functions UpdateHistogram...
- // to fill the find the parameter P1 of a track for the drift velocity calibration
+ // Return a Int_t[4] with:
+ // 0 Mean number of entries
+ // 1 median of number of entries
+ // 2 rms of number of entries
+ // 3 number of group with entries
//
-
- //Number of points: if less than 3 return kFALSE
- Int_t npoints = index1-index0;
- if(npoints <= 2) return kFALSE;
-
- //Variables
- TLinearFitter linearFitterTracklet = TLinearFitter(2,"pol1"); // TLinearFitter per tracklet
- Double_t snp = 0.0; // sin angle in the plan yx track
- Double_t y = 0.0; // y clusters in the middle of the chamber
- Double_t z = 0.0; // z cluster in the middle of the chamber
- Double_t dydt = 0.0; // dydt tracklet after straight line fit
- Double_t tnp = 0.0; // tan angle in the plan xy track
- Double_t tgl = 0.0; // dz/dl and not dz/dx!
- Double_t errorpar = 0.0; // error after straight line fit on dy/dt
- Double_t pointError = 0.0; // error after straight line fit
- Int_t detector = ((AliTRDcluster *) t->GetCluster(index0))->GetDetector(); //detector
- //Int_t snpright = 1; // if we took in the middle snp
- Int_t crossrow = 0; // if it crosses a pad row
- Double_t tiltingangle = 0; // tiltingangle of the pad
- Float_t dzdx = 0; // dz/dx now from dz/dl
- Int_t nbli = 0; // number linear fitter points
- AliTRDpadPlane *padplane = fGeo->GetPadPlane(GetPlane(detector),GetChamber(detector));
+ Double_t *stat = new Double_t[4];
+ stat[3] = 0.0;
- linearFitterTracklet.StoreData(kFALSE);
- linearFitterTracklet.ClearPoints();
+ Int_t nbofgroups = CalculateTotalNumberOfBins(0);
- //if more than one row
- Int_t rowp = -1; // if it crosses a pad row
+ Double_t *weight = new Double_t[nbofgroups];
+ Double_t *nonul = new Double_t[nbofgroups];
+
+ for(Int_t k = 0; k < nbofgroups; k++){
+ if(fEntriesCH[k] > 0) {
+ weight[k] = 1.0;
+ nonul[(Int_t)stat[3]] = fEntriesCH[k];
+ stat[3]++;
+ }
+ else weight[k] = 0.0;
+ }
+ stat[0] = TMath::Mean(nbofgroups,fEntriesCH,weight);
+ stat[1] = TMath::Median(nbofgroups,fEntriesCH,weight);
+ stat[2] = TMath::RMS((Int_t)stat[3],nonul);
- //tiltingangle
- tiltingangle = padplane->GetTiltingAngle();
- Float_t tnt = TMath::Tan(tiltingangle/180.*TMath::Pi()); // tan tiltingangle
+ delete [] weight;
+ delete [] nonul;
- //Fill with points
- for(Int_t k = 0; k < npoints; k++){
-
- AliTRDcluster *cl = (AliTRDcluster *) t->GetCluster(k+index0);
- Double_t ycluster = cl->GetY();
- Int_t time = cl->GetLocalTimeBin();
- Double_t timeis = time/fSf;
- //See if cross two pad rows
- Int_t row = padplane->GetPadRowNumber(cl->GetZ());
- if(k==0) rowp = row;
- if(row != rowp) crossrow = 1;
- //Take in the middle of the chamber
- //FollowBack
- //if(time > (Int_t) 10) {
- //Follow
- if(time < (Int_t) 11) {
- z = cl->GetZ();
- y = cl->GetY();
+ return stat;
+
+}
+//____________________________________________________________________________
+Double_t *AliTRDCalibraFillHisto::GetMeanMedianRMSNumberLinearFitter() const
+{
+ //
+ // Return a Int_t[4] with:
+ // 0 Mean number of entries
+ // 1 median of number of entries
+ // 2 rms of number of entries
+ // 3 number of group with entries
+ //
+
+ Double_t *stat = new Double_t[4];
+ stat[3] = 0.0;
+
+ Int_t nbofgroups = 540;
+ Double_t *weight = new Double_t[nbofgroups];
+ Int_t *nonul = new Int_t[nbofgroups];
+
+ for(Int_t k = 0; k < nbofgroups; k++){
+ if(fEntriesLinearFitter[k] > 0) {
+ weight[k] = 1.0;
+ nonul[(Int_t) stat[3]] = fEntriesLinearFitter[k];
+ stat[3]++;
}
- linearFitterTracklet.AddPoint(&timeis,ycluster,1);
- nbli++;
+ else weight[k] = 0.0;
}
+ stat[0] = TMath::Mean(nbofgroups,fEntriesLinearFitter,weight);
+ stat[1] = TMath::Median(nbofgroups,fEntriesLinearFitter,weight);
+ stat[2] = TMath::RMS((Int_t)stat[3],nonul);
- // take now the snp, tnp and tgl from the track
- snp = t->GetSnpPlane(GetPlane(detector));
- tgl = t->GetTglPlane(GetPlane(detector));
+ delete [] weight;
+ delete [] nonul;
- //FollowBack
- //if(((AliTRDcluster *) t->GetCluster(index0))->GetLocalTimeBin() < 10) snpright = 0;
- //Follow
- //if(((AliTRDcluster *) t->GetCluster(index0))->GetLocalTimeBin() >= 11) snpright = 0;
- if(nbli <= 2) return kFALSE;
-
- // Do the straight line fit now
- TVectorD pars;
- linearFitterTracklet.Eval();
- linearFitterTracklet.GetParameters(pars);
- pointError = TMath::Sqrt(linearFitterTracklet.GetChisquare()/nbli);
- errorpar = linearFitterTracklet.GetParError(1)*pointError;
- dydt = pars[1];
-
- if( TMath::Abs(snp) < 1.){
- tnp = snp / (TMath::Sqrt(1-(snp*snp)));
- }
- dzdx = tgl*TMath::Sqrt(1+tnp*tnp);
+ return stat;
- if(fDebugLevel > 0){
- if ( !fDebugStreamer ) {
- //debug stream
- TDirectory *backup = gDirectory;
- fDebugStreamer = new TTreeSRedirector("TRDdebugCalibraFill.root");
- if ( backup ) backup->cd(); //we don't want to be cd'd to the debug streamer
- }
-
-
- (* fDebugStreamer) << "VDRIFT"<<
- //"snpright="<<snpright<<
- "npoints="<<npoints<<
- "nbli="<<nbli<<
- "detector="<<detector<<
- "snp="<<snp<<
- "tnp="<<tnp<<
- "tgl="<<tgl<<
- "tnt="<<tnt<<
- "y="<<y<<
- "z="<<z<<
- "dydt="<<dydt<<
- "dzdx="<<dzdx<<
- "crossrow="<<crossrow<<
- "errorpar="<<errorpar<<
- "pointError="<<pointError<<
- "\n";
+}
+//////////////////////////////////////////////////////////////////////////////////////
+// Create Histos
+//////////////////////////////////////////////////////////////////////////////////////
+//_____________________________________________________________________________
+void AliTRDCalibraFillHisto::CreatePRF2d(Int_t nn)
+{
+ //
+ // Create the 2D histos: here we have 2*fNgroupprf bins in tnp of 0.2 amplitude each
+ // If fNgroupprf is zero then no binning in tnp
+ //
+
+ TString name("Nz");
+ name += fCalibraMode->GetNz(2);
+ name += "Nrphi";
+ name += fCalibraMode->GetNrphi(2);
+ name += "Ngp";
+ name += fNgroupprf;
+ if(fNgroupprf != 0){
+
+ fPRF2d = new TProfile2D("PRF2d",(const Char_t *) name
+ ,2*fNgroupprf*fNumberBinPRF,-3.0*fNgroupprf,3.0*fNgroupprf,nn,0,nn);
+ fPRF2d->SetYTitle("Det/pad groups");
+ fPRF2d->SetXTitle("Position x/W [pad width units]");
+ fPRF2d->SetZTitle("Q_{i}/Q_{total}");
+ fPRF2d->SetStats(0);
}
-
- if(npoints < fNumberClusters) return kFALSE;
- //if(snpright == 0) return kFALSE;
- if(pointError >= 0.1) return kFALSE;
- if(crossrow == 1) return kFALSE;
-
- if(fLinearFitterOn){
- //Add to the linear fitter of the detector
- if( TMath::Abs(snp) < 1.){
- Double_t x = tnp-dzdx*tnt;
- (GetLinearFitter(detector,kTRUE))->AddPoint(&x,dydt);
- if(fLinearFitterDebugOn) {
- fLinearVdriftFit->Update(detector,x,pars[1]);
- }
- fEntriesLinearFitter[detector]++;
- }
+ else{
+ fPRF2d = new TProfile2D("PRF2d",(const Char_t *) name
+ ,fNumberBinPRF,-1.5,1.5,nn,0,nn);
+ fPRF2d->SetYTitle("Det/pad groups");
+ fPRF2d->SetXTitle("Position x/W [pad width units]");
+ fPRF2d->SetZTitle("Q_{i}/Q_{total}");
+ fPRF2d->SetStats(0);
}
- //AliInfo("End of FindP1TrackPH with success!")
- return kTRUE;
}
-//____________Offine tracking in the AliTRDtracker_____________________________
-Bool_t AliTRDCalibraFillHisto::HandlePRFtrack(AliTRDtrack *t, Int_t index0, Int_t index1)
+
+//_____________________________________________________________________________
+void AliTRDCalibraFillHisto::CreatePH2d(Int_t nn)
+{
+ //
+ // Create the 2D histos
+ //
+
+ TString name("Ver");
+ name += fVersionVdriftUsed;
+ name += "Subver";
+ name += fSubVersionVdriftUsed;
+ name += "FirstRun";
+ name += fFirstRunVdrift;
+ name += "Nz";
+ name += fCalibraMode->GetNz(1);
+ name += "Nrphi";
+ name += fCalibraMode->GetNrphi(1);
+
+ fPH2d = new TProfile2D("PH2d",(const Char_t *) name
+ ,fTimeMax,-0.5/fSf,(Float_t) (fTimeMax-0.5)/fSf
+ ,nn,0,nn);
+ fPH2d->SetYTitle("Det/pad groups");
+ fPH2d->SetXTitle("time [#mus]");
+ fPH2d->SetZTitle("<PH> [a.u.]");
+ fPH2d->SetStats(0);
+
+}
+//_____________________________________________________________________________
+void AliTRDCalibraFillHisto::CreateCH2d(Int_t nn)
+{
+ //
+ // Create the 2D histos
+ //
+
+ TString name("Ver");
+ name += fVersionGainUsed;
+ name += "Subver";
+ name += fSubVersionGainUsed;
+ name += "Nz";
+ name += fCalibraMode->GetNz(0);
+ name += "Nrphi";
+ name += fCalibraMode->GetNrphi(0);
+
+ fCH2d = new TH2I("CH2d",(const Char_t *) name
+ ,fNumberBinCharge,0,300,nn,0,nn);
+ fCH2d->SetYTitle("Det/pad groups");
+ fCH2d->SetXTitle("charge deposit [a.u]");
+ fCH2d->SetZTitle("counts");
+ fCH2d->SetStats(0);
+ fCH2d->Sumw2();
+
+}
+//////////////////////////////////////////////////////////////////////////////////
+// Set relative scale
+/////////////////////////////////////////////////////////////////////////////////
+//_____________________________________________________________________________
+void AliTRDCalibraFillHisto::SetRelativeScale(Float_t RelativeScale)
{
//
- // For the offline tracking
- // Fit the tracklet with a line and take the position as reference for the PRF
+ // Set the factor that will divide the deposited charge
+ // to fit in the histo range [0,300]
//
-
- //Number of points
- Int_t npoints = index1-index0; // number of total points
- Int_t nb3pc = 0; // number of three pads clusters used for fit
- Int_t detector = ((AliTRDcluster *) t->GetCluster(index0))->GetDetector(); // detector
-
- // To see the difference due to the fit
- Double_t *padPositions;
- padPositions = new Double_t[npoints];
- for(Int_t k = 0; k < npoints; k++){
- padPositions[k] = 0.0;
+ if (RelativeScale > 0.0) {
+ fRelativeScale = RelativeScale;
}
-
-
- //Find the position by a fit
- TLinearFitter fitter(2,"pol1");
- fitter.StoreData(kFALSE);
- fitter.ClearPoints();
- for(Int_t k = 0; k < npoints; k++){
- //Take the cluster
- AliTRDcluster *cl = (AliTRDcluster *) t->GetCluster(k+index0);
- Short_t *signals = cl->GetSignals();
- Double_t time = cl->GetLocalTimeBin();
- //Calculate x if possible
- Float_t xcenter = 0.0;
- Bool_t echec = kTRUE;
- if((time<=7) || (time>=21)) continue;
- // Center 3 balanced: position with the center of the pad
- if ((((Float_t) signals[3]) > 0.0) &&
- (((Float_t) signals[2]) > 0.0) &&
- (((Float_t) signals[4]) > 0.0)) {
- echec = kFALSE;
- // Security if the denomiateur is 0
- if ((((Float_t) (((Float_t) signals[3]) * ((Float_t) signals[3]))) /
- ((Float_t) (((Float_t) signals[2]) * ((Float_t) signals[4])))) != 1.0) {
- xcenter = 0.5 * (TMath::Log((Float_t) (((Float_t) signals[4]) / ((Float_t) signals[2]))))
- / (TMath::Log(((Float_t) (((Float_t) signals[3]) * ((Float_t) signals[3])))
- / ((Float_t) (((Float_t) signals[2]) * ((Float_t) signals[4])))));
- }
- else {
- echec = kTRUE;
- }
- }
- if(TMath::Abs(xcenter) > 0.5) echec = kTRUE;
- if(echec) continue;
- //if no echec: calculate with the position of the pad
- // Position of the cluster
- Double_t padPosition = xcenter + cl->GetPadCol();
- padPositions[k] = padPosition;
- nb3pc++;
- fitter.AddPoint(&time, padPosition,1);
- }//clusters loop
-
- //printf("nb3pc %d, npoints %d\n",nb3pc,npoints);
- if(nb3pc < 3) return kFALSE;
- fitter.Eval();
- TVectorD line(2);
- fitter.GetParameters(line);
- Float_t pointError = -1.0;
- pointError = TMath::Sqrt(fitter.GetChisquare()/nb3pc);
-
- // Take the tgl and snp with the track t now
- Double_t tgl = t->GetTglPlane(GetPlane(detector)); //dz/dl and not dz/dx
- Double_t snp = t->GetSnpPlane(GetPlane(detector)); // sin angle in xy plan
- Float_t dzdx = 0.0; // dzdx
- Float_t tnp = 0.0;
- if(TMath::Abs(snp) < 1.0){
- tnp = snp / (TMath::Sqrt(1-snp*snp));
- dzdx = tgl*TMath::Sqrt(1+tnp*tnp);
+ else {
+ AliInfo("RelativeScale must be strict positif!");
}
-
- // Now fill the PRF
- for(Int_t k = 0; k < npoints; k++){
- //Take the cluster
- AliTRDcluster *cl = (AliTRDcluster *) t->GetCluster(k+index0);
- Short_t *signals = cl->GetSignals(); // signal
- Double_t time = cl->GetLocalTimeBin(); // time bin
- Float_t padPosTracklet = line[0]+line[1]*time; // reconstruct position from fit
- Float_t padPos = cl->GetPadCol(); // middle pad
- Double_t dpad = padPosTracklet - padPos; // reconstruct position relative to middle pad from fit
- Float_t ycenter = 0.0; // relative center charge
- Float_t ymin = 0.0; // relative left charge
- Float_t ymax = 0.0; // relative right charge
+}
+//////////////////////////////////////////////////////////////////////////////////
+// Quick way to fill a histo
+//////////////////////////////////////////////////////////////////////////////////
+//_____________________________________________________________________
+void AliTRDCalibraFillHisto::FillCH2d(Int_t x, Float_t y)
+{
+ //
+ // FillCH2d: Marian style
+ //
-
-
- //Requiere simply two pads clusters at least
- if(((((Float_t) signals[3]) > 0.0) && (((Float_t) signals[2]) > 0.0)) ||
- ((((Float_t) signals[3]) > 0.0) && (((Float_t) signals[4]) > 0.0))){
- Float_t sum = ((Float_t) signals[2]) + ((Float_t) signals[3]) + ((Float_t) signals[4]);
- if(sum > 0.0) ycenter = ((Float_t) signals[3])/ sum;
- if(sum > 0.0) ymin = ((Float_t) signals[2])/ sum;
- if(sum > 0.0) ymax = ((Float_t) signals[4])/ sum;
- }
-
- //calibration group
- Int_t *rowcol = CalculateRowCol(cl); // calcul col and row pad of the cluster
- Int_t grouplocal = CalculateCalibrationGroup(2,rowcol); // calcul the corresponding group
- Int_t caligroup = fCalibraMode->GetXbins(2)+ grouplocal; // calcul the corresponding group
- Float_t xcl = cl->GetY(); // y cluster
- Float_t qcl = cl->GetQ(); // charge cluster
- Int_t plane = GetPlane(detector); // plane
- Int_t chamber = GetChamber(detector); // chamber
- Double_t xdiff = dpad; // reconstructed position constant
- Double_t x = dpad; // reconstructed position moved
- Float_t ep = pointError; // error of fit
- Float_t signal1 = (Float_t)signals[1]; // signal at the border
- Float_t signal3 = (Float_t)signals[3]; // signal
- Float_t signal2 = (Float_t)signals[2]; // signal
- Float_t signal4 = (Float_t)signals[4]; // signal
- Float_t signal5 = (Float_t)signals[5]; // signal at the border
-
-
-
- if(fDebugLevel > 0){
- if ( !fDebugStreamer ) {
- //debug stream
- TDirectory *backup = gDirectory;
- fDebugStreamer = new TTreeSRedirector("TRDdebugCalibraFill.root");
- if ( backup ) backup->cd(); //we don't want to be cd'd to the debug streamer
- }
-
- (* fDebugStreamer) << "PRF0"<<
- "caligroup="<<caligroup<<
- "detector="<<detector<<
- "plane="<<plane<<
- "chamber="<<chamber<<
- "npoints="<<npoints<<
- "Np="<<nb3pc<<
- "ep="<<ep<<
- "snp="<<snp<<
- "tnp="<<tnp<<
- "tgl="<<tgl<<
- "dzdx="<<dzdx<<
- "padPos="<<padPos<<
- "padPosition="<<padPositions[k]<<
- "padPosTracklet="<<padPosTracklet<<
- "x="<<x<<
- "ycenter="<<ycenter<<
- "ymin="<<ymin<<
- "ymax="<<ymax<<
- "xcl="<<xcl<<
- "qcl="<<qcl<<
- "signal1="<<signal1<<
- "signal2="<<signal2<<
- "signal3="<<signal3<<
- "signal4="<<signal4<<
- "signal5="<<signal5<<
- "time="<<time<<
- "\n";
- x = xdiff;
- Int_t type=0;
- Float_t y = ycenter;
- (* fDebugStreamer) << "PRFALL"<<
- "caligroup="<<caligroup<<
- "detector="<<detector<<
- "plane="<<plane<<
- "chamber="<<chamber<<
- "npoints="<<npoints<<
- "Np="<<nb3pc<<
- "ep="<<ep<<
- "type="<<type<<
- "snp="<<snp<<
- "tnp="<<tnp<<
- "tgl="<<tgl<<
- "dzdx="<<dzdx<<
- "padPos="<<padPos<<
- "padPosition="<<padPositions[k]<<
- "padPosTracklet="<<padPosTracklet<<
- "x="<<x<<
- "y="<<y<<
- "xcl="<<xcl<<
- "qcl="<<qcl<<
- "signal1="<<signal1<<
- "signal2="<<signal2<<
- "signal3="<<signal3<<
- "signal4="<<signal4<<
- "signal5="<<signal5<<
- "time="<<time<<
- "\n";
- x=-(xdiff+1);
- y = ymin;
- type=-1;
- (* fDebugStreamer) << "PRFALL"<<
- "caligroup="<<caligroup<<
- "detector="<<detector<<
- "plane="<<plane<<
- "chamber="<<chamber<<
- "npoints="<<npoints<<
- "Np="<<nb3pc<<
- "ep="<<ep<<
- "type="<<type<<
- "snp="<<snp<<
- "tnp="<<tnp<<
- "tgl="<<tgl<<
- "dzdx="<<dzdx<<
- "padPos="<<padPos<<
- "padPosition="<<padPositions[k]<<
- "padPosTracklet="<<padPosTracklet<<
- "x="<<x<<
- "y="<<y<<
- "xcl="<<xcl<<
- "qcl="<<qcl<<
- "signal1="<<signal1<<
- "signal2="<<signal2<<
- "signal3="<<signal3<<
- "signal4="<<signal4<<
- "signal5="<<signal5<<
- "time="<<time<<
- "\n";
- x=1-xdiff;
- y = ymax;
- type=1;
-
- (* fDebugStreamer) << "PRFALL"<<
- "caligroup="<<caligroup<<
- "detector="<<detector<<
- "plane="<<plane<<
- "chamber="<<chamber<<
- "npoints="<<npoints<<
- "Np="<<nb3pc<<
- "ep="<<ep<<
- "type="<<type<<
- "snp="<<snp<<
- "tnp="<<tnp<<
- "tgl="<<tgl<<
- "dzdx="<<dzdx<<
- "padPos="<<padPos<<
- "padPosition="<<padPositions[k]<<
- "padPosTracklet="<<padPosTracklet<<
- "x="<<x<<
- "y="<<y<<
- "xcl="<<xcl<<
- "qcl="<<qcl<<
- "signal1="<<signal1<<
- "signal2="<<signal2<<
- "signal3="<<signal3<<
- "signal4="<<signal4<<
- "signal5="<<signal5<<
- "time="<<time<<
- "\n";
-
- }
-
- // some cuts
- if(npoints < fNumberClusters) continue;
- if(nb3pc <= 5) continue;
- if((time >= 21) || (time < 7)) continue;
- if(TMath::Abs(snp) >= 1.0) continue;
- if(qcl < 80) continue;
-
- Bool_t echec = kFALSE;
- Double_t shift = 0.0;
- //Calculate the shift in x coresponding to this tnp
- if(fNgroupprf != 0.0){
- shift = -3.0*(fNgroupprf-1)-1.5;
- Double_t limithigh = -0.2*(fNgroupprf-1);
- if((tnp < (-0.2*fNgroupprf)) || (tnp > (0.2*fNgroupprf))) echec = kTRUE;
- else{
- while(tnp > limithigh){
- limithigh += 0.2;
- shift += 3.0;
- }
- }
- }
- if (fHisto2d && !echec) {
- if(TMath::Abs(dpad) < 1.5) {
- fPRF2d->Fill(shift+dpad,(caligroup+0.5),ycenter);
- fPRF2d->Fill(shift-dpad,(caligroup+0.5),ycenter);
- }
- if((ymin > 0.0) && (TMath::Abs(dpad+1.0) < 1.5)) {
- fPRF2d->Fill(shift-(dpad+1.0),(caligroup+0.5),ymin);
- fPRF2d->Fill(shift+(dpad+1.0),(caligroup+0.5),ymin);
- }
- if((ymax > 0.0) && (TMath::Abs(dpad-1.0) < 1.5)) {
- fPRF2d->Fill(shift+1.0-dpad,(caligroup+0.5),ymax);
- fPRF2d->Fill(shift-1.0+dpad,(caligroup+0.5),ymax);
- }
- }
- //Not equivalent anymore here!
- if (fVector2d && !echec) {
- if(TMath::Abs(dpad) < 1.5) {
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift+dpad,ycenter);
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift-dpad,ycenter);
- }
- if((ymin > 0.0) && (TMath::Abs(dpad+1.0) < 1.5)) {
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift-(dpad+1.0),ymin);
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift+(dpad+1.0),ymin);
- }
- if((ymax > 0.0) && (TMath::Abs(dpad-1.0) < 1.5)) {
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift+1.0-dpad,ymax);
- fCalibraVector->UpdateVectorPRF(fDetectorPreviousTrack,grouplocal,shift-1.0+dpad,ymax);
- }
- }
- }
- return kTRUE;
+ //skip simply the value out of range
+ if((y>=300.0) || (y<0.0)) return;
+
+ //Calcul the y place
+ Int_t yplace = (Int_t) (fNumberBinCharge*y/300.0)+1;
+ Int_t place = (fNumberBinCharge+2)*(x+1)+yplace;
+ //Fill
+ fCH2d->GetArray()[place]++;
+
}
-//
-//____________Some basic geometry function_____________________________________
-//
+
+//////////////////////////////////////////////////////////////////////////////////
+// Geometrical functions
+///////////////////////////////////////////////////////////////////////////////////
//_____________________________________________________________________________
-Int_t AliTRDCalibraFillHisto::GetPlane(Int_t d) const
+Int_t AliTRDCalibraFillHisto::GetLayer(Int_t d) const
{
//
- // Reconstruct the plane number from the detector number
+ // Reconstruct the layer number from the detector number
//
return ((Int_t) (d % 6));
}
//_____________________________________________________________________________
-Int_t AliTRDCalibraFillHisto::GetChamber(Int_t d) const
+Int_t AliTRDCalibraFillHisto::GetStack(Int_t d) const
{
//
- // Reconstruct the chamber number from the detector number
+ // Reconstruct the stack number from the detector number
//
- Int_t fgkNplan = 6;
+ const Int_t kNlayer = 6;
- return ((Int_t) (d % 30) / fgkNplan);
+ return ((Int_t) (d % 30) / kNlayer);
}
return ((Int_t) (d / fg));
}
+///////////////////////////////////////////////////////////////////////////////////
+// Getter functions for DAQ of the CH2d and the PH2d
+//////////////////////////////////////////////////////////////////////////////////
//_____________________________________________________________________
TProfile2D* AliTRDCalibraFillHisto::GetPH2d(Int_t nbtimebin, Float_t samplefrequency)
{
fTimeMax = nbtimebin;
fSf = samplefrequency;
- /*
- AliInfo(Form("The pad calibration mode for the drift velocity calibration: Nz %d, and Nrphi %d"
- ,fCalibraMode->GetNz(1)
- ,fCalibraMode->GetNrphi(1)));
-
- // Calcul the number of Xbins
- Int_t ntotal1 = 0;
- fCalibraMode->ModePadCalibration(2,1);
- fCalibraMode->ModePadFragmentation(0,2,0,1);
- fCalibraMode->SetDetChamb2(1);
- ntotal1 += 6 * 18 * fCalibraMode->GetDetChamb2(1);
- fCalibraMode->ModePadCalibration(0,1);
- fCalibraMode->ModePadFragmentation(0,0,0,1);
- fCalibraMode->SetDetChamb0(1);
- ntotal1 += 6 * 4 * 18 * fCalibraMode->GetDetChamb0(1);
- AliInfo(Form("Total number of Xbins: %d",ntotal1));
-
- CreatePH2d(ntotal1);
- */
-
CreatePH2d(540);
return fPH2d;
}
//_____________________________________________________________________
+TH2I* AliTRDCalibraFillHisto::GetCH2d()
+{
+ //
+ // return pointer to fCH2d TH2I
+ // create a new TH2I if it doesn't exist allready
+ //
+ if ( fCH2d )
+ return fCH2d;
+
+ CreateCH2d(540);
+
+ return fCH2d;
+}
+////////////////////////////////////////////////////////////////////////////////////////////
+// Drift velocity calibration
+///////////////////////////////////////////////////////////////////////////////////////////
+//_____________________________________________________________________
TLinearFitter* AliTRDCalibraFillHisto::GetLinearFitter(Int_t detector, Bool_t force)
{
//
return linearfitter;
}
-//_____________________________________________________________________
-void AliTRDCalibraFillHisto::FillCH2d(Int_t x, Float_t y)
-{
- //
- // FillCH2d: Marian style
- //
-
- //skip simply the value out of range
- if((y>=300.0) || (y<0.0)) return;
-
- //Calcul the y place
- Int_t yplace = (Int_t) (fNumberBinCharge*y/300.0)+1;
- Int_t place = (fNumberBinCharge+2)*(x+1)+yplace;
-
- //Fill
- fCH2d->GetArray()[place]++;
-
-}
-
//____________________________________________________________________________
void AliTRDCalibraFillHisto::AnalyseLinearFitter()
{
TVectorD *par = new TVectorD(2);
TVectorD pare = TVectorD(2);
TVectorD *parE = new TVectorD(3);
- linearfitter->Eval();
- linearfitter->GetParameters(*par);
- linearfitter->GetErrors(pare);
- Float_t ppointError = TMath::Sqrt(TMath::Abs(linearfitter->GetChisquare())/fEntriesLinearFitter[k]);
- (*parE)[0] = pare[0]*ppointError;
- (*parE)[1] = pare[1]*ppointError;
- (*parE)[2] = (Double_t) fEntriesLinearFitter[k];
- ((TObjArray *)fLinearVdriftFit->GetPArray())->AddAt(par,k);
- ((TObjArray *)fLinearVdriftFit->GetEArray())->AddAt(parE,k);
+ if((linearfitter->EvalRobust(0.8)==0)) {
+ //linearfitter->Eval();
+ linearfitter->GetParameters(*par);
+ //linearfitter->GetErrors(pare);
+ //Float_t ppointError = TMath::Sqrt(TMath::Abs(linearfitter->GetChisquare())/fEntriesLinearFitter[k]);
+ //(*parE)[0] = pare[0]*ppointError;
+ //(*parE)[1] = pare[1]*ppointError;
+
+ (*parE)[0] = 0.0;
+ (*parE)[1] = 0.0;
+ (*parE)[2] = (Double_t) fEntriesLinearFitter[k];
+ ((TObjArray *)fLinearVdriftFit->GetPArray())->AddAt(par,k);
+ ((TObjArray *)fLinearVdriftFit->GetEArray())->AddAt(parE,k);
+ }
}
}
}
-//________________________________________________________________________________
-Int_t AliTRDCalibraFillHisto::Arrondi(Double_t x) const
-{
- // Partie entiere of the (x+0.5)
-
- int i;
- if (x >= (-0.5)) {
- i = int(x + 0.5);
- //if (x + 0.5 == Float_t(i) && i & 1) i--;
- } else {
- i = int(x - 0.5);
- //if (x - 0.5 == Float_t(i) && i & 1) i++;
- if((x-0.5)==i) i++;
- }
- return i;
-}
+
+