// 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 "AliTRDcluster.h"
#include "AliTRDtrack.h"
#include "AliTRDtrackV1.h"
-#include "AliTRDrawStreamBase.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)
+ ,fCalibDB(0)
,fIsHLT(kFALSE)
,fCH2dOn(kFALSE)
,fPH2dOn(kFALSE)
,fNormalizeNbOfCluster(kFALSE)
,fMaxCluster(0)
,fNbMaxCluster(0)
+ ,fVersionGainUsed(0)
+ ,fSubVersionGainUsed(0)
+ ,fVersionGainLocalUsed(0)
+ ,fSubVersionGainLocalUsed(0)
+ ,fVersionVdriftUsed(0)
+ ,fSubVersionVdriftUsed(0)
,fCalibraMode(new AliTRDCalibraMode())
,fDebugStreamer(0)
,fDebugLevel(0)
,fROBPrevious(-1)
,fNumberClusters(1)
,fNumberClustersf(30)
+ ,fNumberClustersProcent(0.5)
+ ,fThresholdClustersDAQ(120.0)
+ ,fNumberRowDAQ(2)
+ ,fNumberColDAQ(4)
,fProcent(6.0)
,fDifference(17)
,fNumberTrack(0)
fNumberUsedPh[1] = 0;
fGeo = new AliTRDgeometry();
-
+ fCalibDB = AliTRDcalibDB::Instance();
}
//______________________________________________________________________________________
AliTRDCalibraFillHisto::AliTRDCalibraFillHisto(const AliTRDCalibraFillHisto &c)
:TObject(c)
,fGeo(0)
+ ,fCalibDB(0)
,fIsHLT(c.fIsHLT)
,fCH2dOn(c.fCH2dOn)
,fPH2dOn(c.fPH2dOn)
,fNormalizeNbOfCluster(c.fNormalizeNbOfCluster)
,fMaxCluster(c.fMaxCluster)
,fNbMaxCluster(c.fNbMaxCluster)
+ ,fVersionGainUsed(c.fVersionGainUsed)
+ ,fSubVersionGainUsed(c.fSubVersionGainUsed)
+ ,fVersionGainLocalUsed(c.fVersionGainLocalUsed)
+ ,fSubVersionGainLocalUsed(c.fSubVersionGainLocalUsed)
+ ,fVersionVdriftUsed(c.fVersionVdriftUsed)
+ ,fSubVersionVdriftUsed(c.fSubVersionVdriftUsed)
,fCalibraMode(0x0)
,fDebugStreamer(0)
,fDebugLevel(c.fDebugLevel)
,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)
delete fGeo;
}
fGeo = new AliTRDgeometry();
+ fCalibDB = AliTRDcalibDB::Instance();
+
+ fNumberUsedCh[0] = 0;
+ fNumberUsedCh[1] = 0;
+ fNumberUsedPh[0] = 0;
+ fNumberUsedPh[1] = 0;
+
}
//____________________________________________________________________________________
TLinearFitter *f = (TLinearFitter*)fLinearFitterArray.At(idet);
if(f) { delete f;}
}
+ if(fLinearVdriftFit) delete fLinearVdriftFit;
if (fGeo) {
delete fGeo;
}
// calibration with AliTRDtrackV1: Init, Update
//////////////////////////////////////////////////////////////////////////////////
//____________Functions for initialising the AliTRDCalibraFillHisto in the code_________
-Bool_t AliTRDCalibraFillHisto::Init2Dhistos()
+Bool_t AliTRDCalibraFillHisto::Init2Dhistos(Int_t nboftimebin)
{
//
// Init the histograms and stuff to be filled
}
// Some parameters
- fTimeMax = cal->GetNumberOfTimeBins();
+ 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)(0.5*fTimeMax);
+ fNumberClusters = (Int_t)(fNumberClustersProcent*fTimeMax);
// Init linear fitter
if(!fLinearFitterTracklet) {
fLinearFitterTracklet->StoreData(kTRUE);
}
- //calib object from database used for reconstruction
- if( fCalDetGain ){
- fCalDetGain->~AliTRDCalDet();
- new(fCalDetGain) AliTRDCalDet(*(cal->GetGainFactorDet()));
- }else fCalDetGain = new AliTRDCalDet(*(cal->GetGainFactorDet()));
-
// Calcul Xbins Chambd0, Chamb2
Int_t ntotal0 = CalculateTotalNumberOfBins(0);
Int_t ntotal1 = CalculateTotalNumberOfBins(1);
}
}
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;
+
+}
+///////////////////////////////////////////////////////////////////////////////////////////////////////////////
+Bool_t AliTRDCalibraFillHisto::InitCalDet()
+{
+ //
+ // Init the Gain Cal Det
+ //
+
+ // DB Setting
+ // Get cal
+ AliCDBEntry *entry = AliCDBManager::Instance()->Get("TRD/Calib/ChamberGainFactor",AliCDBManager::Instance()->GetRun(),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));
+
+
+ // title CH2d
+ TString name("Ver");
+ name += fVersionGainUsed;
+ name += "Subver";
+ name += fSubVersionGainUsed;
+ name += "Nz";
+ name += fCalibraMode->GetNz(0);
+ name += "Nrphi";
+ name += fCalibraMode->GetNrphi(0);
+
+ fCH2d->SetTitle(name);
+
+ // title PH2d
+ TString namee("Ver");
+ namee += fVersionVdriftUsed;
+ namee += "Subver";
+ namee += fSubVersionVdriftUsed;
+ namee += "Nz";
+ namee += fCalibraMode->GetNz(1);
+ namee += "Nrphi";
+ namee += fCalibraMode->GetNrphi(1);
+
+ fPH2d->SetTitle(namee);
+
+
+ return kTRUE;
+
+}
+///////////////////////////////////////////////////////////////////////////////////////////////////////////////
+Bool_t AliTRDCalibraFillHisto::InitCalPad(Int_t detector)
+{
+ //
+ // Init the Gain Cal Pad
+ //
+
+ // 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;
+ }
+ 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::UpdateHistograms(const AliTRDtrack *t)
{
//
// Use AliTRDtrack for the calibration
}
// Get calib objects
- if( fCalROCGain ){
- if(!fIsHLT){
- fCalROCGain->~AliTRDCalROC();
- new(fCalROCGain) AliTRDCalROC(*(cal->GetGainFactorROC(detector)));
- }
- }else fCalROCGain = new AliTRDCalROC(*(cal->GetGainFactorROC(detector)));
+ if(!fIsHLT) InitCalPad(detector);
}
}
//____________Offline tracking in the AliTRDtracker____________________________
-Bool_t AliTRDCalibraFillHisto::UpdateHistogramsV1(AliTRDtrackV1 *t)
+Bool_t AliTRDCalibraFillHisto::UpdateHistogramsV1(const AliTRDtrackV1 *t)
{
//
// Use AliTRDtrackV1 for the calibration
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
// Get cal
- AliTRDcalibDB *cal = AliTRDcalibDB::Instance();
+ // 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 tracklet
//Localise the detector bin
LocalisationDetectorXbins(detector);
// Get calib objects
- if( fCalROCGain ){
- if(!fIsHLT){
- fCalROCGain->~AliTRDCalROC();
- new(fCalROCGain) AliTRDCalROC(*(cal->GetGainFactorROC(detector)));
- }
- }else fCalROCGain = new AliTRDCalROC(*(cal->GetGainFactorROC(detector)));
-
+ if(!fIsHLT) InitCalPad(detector);
+
// reset
fDetectorPreviousTrack = detector;
}
Int_t group[2] = {0,0};
if(fCH2dOn) group[0] = CalculateCalibrationGroup(0,row,col);
if(fPH2dOn) group[1] = CalculateCalibrationGroup(1,row,col);
- StoreInfoCHPHtrack(cl, tracklet->GetdQdl(jc),group,row,col);
+ // Add the charge if shared cluster
+ cls = tracklet->GetClusters(jc+AliTRDseedV1::kNtb);
+ //
+ StoreInfoCHPHtrack(cl, tracklet->GetdQdl(jc),group,row,col,cls);
}
////////////////////////////////////////
// Routine inside the update with AliTRDtrack
///////////////////////////////////////////////////////////////////////////////////
//____________Offine tracking in the AliTRDtracker_____________________________
-Bool_t AliTRDCalibraFillHisto::FindP1TrackPHtracklet(AliTRDtrack *t, Int_t index0, Int_t index1)
+Bool_t AliTRDCalibraFillHisto::FindP1TrackPHtracklet(const AliTRDtrack *t, Int_t index0, Int_t index1)
{
//
// Drift velocity calibration:
if(npoints < fNumberClusters) return kFALSE;
if(npoints > fNumberClustersf) return kFALSE;
if(pointError >= 0.1) return kFALSE;
- if(crossrow == 1) return kFALSE;
+ if(crossrow == 1) return kTRUE;
////////////////////////////
// fill
//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]);
+ (GetLinearFitter(detector,kTRUE))->AddPoint(&x,dydt);
+ fEntriesLinearFitter[detector]++;
}
- fEntriesLinearFitter[detector]++;
+ fLinearVdriftFit->Update(detector,x,pars[1]);
}
}
////////////////////////////
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;
fLinearFitterTracklet->AddPoint(&timeis,ycluster,1);
nbli++;
- //////////////////////////////
- // Check no shared clusters
- //////////////////////////////
- for(int icc=AliTRDseedV1::kNtb; icc<AliTRDseedV1::kNclusters; icc++){
- if((cl = tracklet->GetClusters(icc))) crossrow = 1;
- }
+
}
////////////////////////////////////
/////////////////////////
// Cuts quality
////////////////////////
-
+
if(nbclusters < fNumberClusters) return kFALSE;
if(nbclusters > fNumberClustersf) return kFALSE;
if(pointError >= 0.3) return kFALSE;
- if(crossrow == 1) return kFALSE;
+ if(crossrow == 1) return kTRUE;
///////////////////////
// Fill
//Add to the linear fitter of the detector
if( TMath::Abs(snp) < 1.){
Double_t x = tnp-dzdx*tnt;
- (GetLinearFitter(fDetectorPreviousTrack,kTRUE))->AddPoint(&x,dydt);
if(fLinearFitterDebugOn) {
- fLinearVdriftFit->Update(fDetectorPreviousTrack,x,pars[1]);
+ (GetLinearFitter(fDetectorPreviousTrack,kTRUE))->AddPoint(&x,dydt);
+ fEntriesLinearFitter[fDetectorPreviousTrack]++;
}
- fEntriesLinearFitter[fDetectorPreviousTrack]++;
+ fLinearVdriftFit->Update(fDetectorPreviousTrack,x,pars[1]);
}
}
return kTRUE;
}
//____________Offine tracking in the AliTRDtracker_____________________________
-Bool_t AliTRDCalibraFillHisto::HandlePRFtracklet(AliTRDtrack *t, Int_t index0, Int_t index1)
+Bool_t AliTRDCalibraFillHisto::HandlePRFtracklet(const AliTRDtrack *t, Int_t index0, Int_t index1)
{
//
// PRF width calibration
for(int ic=0; ic<AliTRDseedV1::kNtb; ic++){
// reject shared clusters on pad row
if((ic+AliTRDseedV1::kNtb) < AliTRDseedV1::kNclusters) {
- if((cl = tracklet->GetClusters(ic+AliTRDseedV1::kNtb))) continue;
+ cl = tracklet->GetClusters(ic+AliTRDseedV1::kNtb);
+ if(cl) continue;
}
- if(!(cl = tracklet->GetClusters(ic))) continue;
+ cl = tracklet->GetClusters(ic);
+ if(!cl) continue;
Double_t time = cl->GetPadTime();
if((time<=7) || (time>=21)) continue;
Short_t *signals = cl->GetSignals();
//////////////////////////////////////////////
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))) continue;
+ cl = tracklet->GetClusters(ic+AliTRDseedV1::kNtb);
+ if(((ic+AliTRDseedV1::kNtb) < AliTRDseedV1::kNclusters) && (cl)) continue;
//
- if(!(cl = tracklet->GetClusters(ic))) continue;
+ cl = tracklet->GetClusters(ic);
+ if(!cl) continue;
Short_t *signals = cl->GetSignals(); // signal
Double_t time = cl->GetPadTime(); // time bin
// Pad row col stuff: see if masked or not
///////////////////////////////////////////////////////////////////////////////////////
//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::CheckGoodTrackletV1(AliTRDcluster *cl)
+void AliTRDCalibraFillHisto::CheckGoodTrackletV1(const AliTRDcluster *cl)
{
//
// See if we are not near a masked pad
}
//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::CheckGoodTrackletV0(Int_t detector, Int_t row, Int_t col)
+void AliTRDCalibraFillHisto::CheckGoodTrackletV0(const Int_t detector,const Int_t row,const Int_t col)
{
//
// See if we are not near a masked pad
// Per tracklet: store or reset the info, fill the histos with the info
//////////////////////////////////////////////////////////////////////////////////////////
//_____________________________________________________________________________
-void AliTRDCalibraFillHisto::StoreInfoCHPHtrack(AliTRDcluster *cl, Double_t dqdl, Int_t *group, Int_t row, Int_t col)
+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
//
+ //printf("StoreInfoCHPHtrack\n");
+
// 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");
+ }
//printf("Store::time %d, amplitude %f\n",time,dqdl);
// DAQ process functions
/////////////////////////////////////////////////////////////////////////////////////////
//_____________________________________________________________________
-Int_t AliTRDCalibraFillHisto::ProcessEventDAQ(AliTRDrawStreamBase *rawStream, Bool_t nocheck)
-{
+Int_t AliTRDCalibraFillHisto::ProcessEventDAQ(AliRawReader *rawReader)
+ { //main
//
- // Event Processing loop - AliTRDrawStreamBase
- // TestBeam 2007 version
+ // Event Processing loop - AliTRDrawStream
+ //
// 0 timebin problem
// 1 no input
// 2 input
- //
// Same algorithm as TestBeam but different reader
//
-
+
+ AliTRDrawStream *rawStream = new AliTRDrawStream(rawReader);
+ rawStream->SetNoErrorWarning();
+ rawStream->SetSharedPadReadout(kFALSE);
+
+ AliTRDdigitsManager *digitsManager = new AliTRDdigitsManager(kTRUE);
+ digitsManager->CreateArrays();
+
Int_t withInput = 1;
Double_t phvalue[16][144][36];
fDetectorPreviousTrack = -1;
fMCMPrevious = -1;
fROBPrevious = -1;
+
Int_t nbtimebin = 0;
Int_t baseline = 10;
-
- if(!nocheck){
fTimeMax = 0;
- while (rawStream->Next()) {
-
- Int_t idetector = rawStream->GetDet(); // current detector
- Int_t imcm = rawStream->GetMCM(); // current MCM
- Int_t irob = rawStream->GetROB(); // current ROB
-
- //printf("Detector %d\n",idetector);
-
- 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;
- }
- }
- }
- }
+ Int_t det = 0;
+ while ((det = rawStream->NextChamber(digitsManager, NULL, NULL)) >= 0) { //idetector
- fDetectorPreviousTrack = idetector;
- fMCMPrevious = imcm;
- fROBPrevious = irob;
+ if (digitsManager->GetIndexes(det)->HasEntry()) {//QA
+ // printf("there is ADC data on this chamber!\n");
- nbtimebin = rawStream->GetNumberOfTimeBins(); // number of time bins read from data
- if(nbtimebin == 0) return 0;
- if((fTimeMax != 0) && (nbtimebin != fTimeMax)) return 0;
- fTimeMax = nbtimebin;
-
- //baseline = rawStream->GetCommonAdditive(); // common additive baseline
- fNumberClustersf = fTimeMax;
- fNumberClusters = (Int_t)(0.6*fTimeMax);
-
-
- Int_t *signal = rawStream->GetSignals(); // current ADC signal
- Int_t col = rawStream->GetCol();
- Int_t row = rawStream->GetRow();
-
-
- //printf("detector %d, signal[0] %d, signal[1] %d, signal[2] %d, baseline %d\n",idetector,signal[0],signal[1],signal[2], baseline);
-
-
- for(Int_t itime = 0; itime < nbtimebin; itime++){
- phvalue[row][col][itime] = signal[itime]-baseline;
- }
- }
-
- // fill the last one
- if(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;
+ 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;
}
- }
- }
- }
-
- }
- else{
-
- while (rawStream->Next()) {
-
- Int_t idetector = rawStream->GetDet(); // current detector
- Int_t imcm = rawStream->GetMCM(); // current MCM
- Int_t irob = rawStream->GetROB(); // current ROB
-
- //printf("Detector %d\n",idetector);
-
- 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;
+ 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;
+ }
+ }
}
}
- }
- }
-
- fDetectorPreviousTrack = idetector;
- fMCMPrevious = imcm;
- fROBPrevious = irob;
-
- //baseline = rawStream->GetCommonAdditive(); // common baseline
-
- fTimeMax = rawStream->GetNumberOfTimeBins(); // number of time bins read from data
- fNumberClustersf = fTimeMax;
- fNumberClusters = (Int_t)(0.6*fTimeMax);
- Int_t *signal = rawStream->GetSignals(); // current ADC signal
- Int_t col = rawStream->GetCol();
- Int_t row = rawStream->GetRow();
-
-
- //printf("detector %d, signal[0] %d, signal[1] %d, signal[2] %d, baseline %d\n",idetector,signal[0],signal[1],signal[2], baseline);
-
- for(Int_t itime = 0; itime < fTimeMax; itime++){
- phvalue[row][col][itime] = signal[itime]-baseline;
- }
- }
-
- // fill the last one
- if(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;
- }
- }
- }
- }
- }
-
- return withInput;
-
-}
+
+ }//array
+ }//QA
+ digitsManager->ClearArrays(det);
+ }//idetector
+ delete digitsManager;
+
+ delete rawStream;
+ return withInput;
+ }//main
//_____________________________________________________________________
-Int_t AliTRDCalibraFillHisto::ProcessEventDAQ(AliRawReader *rawReader, Bool_t nocheck)
-{
- //
- // Event processing loop - AliRawReader
- // Testbeam 2007 version
- //
-
- AliTRDrawStreamBase 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
- // Testbeam 2007 version
- //
-#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
-
-}
//////////////////////////////////////////////////////////////////////////////
// Routine inside the DAQ process
/////////////////////////////////////////////////////////////////////////////
for (Int_t ic = 2; ic <= 142; ic++)
{
Double_t integral = 0;
- for (Int_t ishiftR = 0; ishiftR < 2; ishiftR++)
+ for (Int_t ishiftR = 0; ishiftR < fNumberRowDAQ; ishiftR++)
{
- for (Int_t ishiftC = -2; ishiftC < 2; ishiftC++)
+ for (Int_t ishiftC = -fNumberColDAQ; ishiftC < fNumberColDAQ; ishiftC++)
{
if (ir + ishiftR >= 1 && ir + ishiftR <= 16 &&
ic + ishiftC >= 1 && ic + ishiftC <= 144)
} //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);
+ // 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 == 0) || (imaxCol == 0)) {
+ if(((imaxRow + fNumberRowDAQ) > 16) || (imaxRow == 0) || ((imaxCol - fNumberColDAQ) <= 1) || ((imaxCol + fNumberColDAQ) >= 144)) {
used=1;
return used;
}
// ////////////////////////////////////////////////////
- for (Int_t ir = imaxRow - 1; ir < imaxRow + 1; ir++)
+
+ for (Int_t ishiftR = 0; ishiftR < fNumberRowDAQ; ishiftR++)
{
- for (Int_t ic = imaxCol - 2; ic < imaxCol + 2; ic++)
+ for (Int_t ishiftC = -fNumberColDAQ; ishiftC < fNumberColDAQ; ishiftC++)
{
- for(Int_t it = 0; it < fTimeMax; it++){
- sum[it] += phvalue[ir][ic][it];
- }
- }//ic
- }//ir
+ 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] > 20.0) nbcl++;
+ if(sum[it] > fThresholdClustersDAQ) nbcl++;
}
"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;
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);
+ //}
}
}
}
if(fLinearFitterOn){
- AnalyseLinearFitter();
+ if(fLinearFitterDebugOn) AnalyseLinearFitter();
f.WriteTObject(fLinearVdriftFit);
}
//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);
+ 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);
- nbEntriesPerGroup = new TH1F("Number of entries per group","Number of entries per group"
- ,nbins,0,nbins);
+ 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);
- 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);
+ 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);
}
}
info[5] = meanstats;
info[6] = meanrelativerror;
- if(i > 1){
+ if(nbEntries && nbEntriesPerSp && nbEntriesPerGroup){
gStyle->SetPalette(1);
gStyle->SetOptStat(1111);
gStyle->SetPadBorderMode(0);
// 3 number of group with entries
//
- Double_t *stat = new Double_t[4];
+ 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];
+
+ 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) {
stat[1] = TMath::Median(nbofgroups,fEntriesCH,weight);
stat[2] = TMath::RMS((Int_t)stat[3],nonul);
+ delete [] weight;
+ delete [] nonul;
+
return stat;
}
stat[1] = TMath::Median(nbofgroups,fEntriesLinearFitter,weight);
stat[2] = TMath::RMS((Int_t)stat[3],nonul);
+ delete [] weight;
+ delete [] nonul;
+
return stat;
}
// Create the 2D histos
//
- TString name("Nz");
+ TString name("Ver");
+ name += fVersionVdriftUsed;
+ name += "Subver";
+ name += fSubVersionVdriftUsed;
+ name += "Nz";
name += fCalibraMode->GetNz(1);
name += "Nrphi";
name += fCalibraMode->GetNrphi(1);
// Create the 2D histos
//
- TString name("Nz");
+ 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");
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);
+ }
}
}
}
+
+