#include "AliMUONRawStreamTracker.h"
#include "AliMUONRawStreamTrigger.h"
#include "AliMUONRegHeader.h"
-#include "AliMUONTrackerCalibratedDataMaker.h"
+#include "AliMUONTrackerDataMaker.h"
#include "AliMUONTriggerDisplay.h"
#include "AliMUONVCluster.h"
#include "AliMUONVClusterStore.h"
#include "AliMUONTrack.h"
#include "AliMUONTrackParam.h"
#include "AliMUONESDInterface.h"
+#include "AliMUONCalibrationData.h"
#include "AliMpBusPatch.h"
#include "AliMpCDB.h"
#include "AliMpConstants.h"
#include "AliMpLocalBoard.h"
#include "AliMpStationType.h"
#include "AliMpTriggerCrate.h"
+#include "AliMpDCSNamer.h"
#include "AliRawEventHeaderBase.h"
// --- AliRoot header files ---
#include "AliRawReader.h"
#include "AliQAChecker.h"
#include "AliCodeTimer.h"
+#include "AliDCSValue.h"
// --- ROOT system ---
#include <TClonesArray.h>
}
}
}
-
- if ( task == AliQA::kESDS ) {
- // Normalize ESD histos
- TH1* h;
- Int_t bin;
- AliMpDEIterator it;
- it.First();
- while ( !it.IsDone()) {
- Int_t detElemId = it.CurrentDEId();
+ // Normalize RecPoints histos
+ if ( task == AliQA::kRECPOINTS ) {
+
+ TH1* hTrackerClusterChargePerChMean = GetRecPointsData(kTrackerClusterChargePerChMean);
+ TH1* hTrackerClusterChargePerChSigma = GetRecPointsData(kTrackerClusterChargePerChSigma);
+ TH1* hTrackerClusterMultiplicityPerChMean = GetRecPointsData(kTrackerClusterMultiplicityPerChMean);
+ TH1* hTrackerClusterMultiplicityPerChSigma = GetRecPointsData(kTrackerClusterMultiplicityPerChSigma);
+ TH1* hTrackerClusterChargePerDEMean = GetRecPointsData(kTrackerClusterChargePerDEMean);
+ TH1* hTrackerClusterMultiplicityPerDEMean = GetRecPointsData(kTrackerClusterMultiplicityPerDEMean);
+
+ // loop over chambers
+ for (Int_t iCh = 0; iCh < AliMUONConstants::NTrackingCh(); iCh++) {
+
+ TH1* hTrackerClusterChargePerChamber = GetRecPointsData(kTrackerClusterChargePerChamber+iCh);
+ Double_t sigmaCharge = hTrackerClusterChargePerChamber->GetRMS();
+ hTrackerClusterChargePerChMean->SetBinContent(iCh+1, hTrackerClusterChargePerChamber->GetMean());
+ hTrackerClusterChargePerChMean->SetBinError(iCh+1, hTrackerClusterChargePerChamber->GetMeanError());
+ hTrackerClusterChargePerChSigma->SetBinContent(iCh+1, sigmaCharge);
+ hTrackerClusterChargePerChSigma->SetBinError(iCh+1, hTrackerClusterChargePerChamber->GetRMSError());
+
+ TH1* hTrackerClusterMultiplicityPerChamber = GetRecPointsData(kTrackerClusterMultiplicityPerChamber+iCh);
+ Double_t sigmaSize = hTrackerClusterMultiplicityPerChamber->GetRMS();
+ hTrackerClusterMultiplicityPerChMean->SetBinContent(iCh+1, hTrackerClusterMultiplicityPerChamber->GetMean());
+ hTrackerClusterMultiplicityPerChMean->SetBinError(iCh+1, hTrackerClusterMultiplicityPerChamber->GetMeanError());
+ hTrackerClusterMultiplicityPerChSigma->SetBinContent(iCh+1, sigmaSize);
+ hTrackerClusterMultiplicityPerChSigma->SetBinError(iCh+1, hTrackerClusterMultiplicityPerChamber->GetRMSError());
+
+ // loop over DE into chamber iCh
+ AliMpDEIterator it;
+ it.First(iCh);
+ while ( !it.IsDone()) {
+
+ Int_t iDE = it.CurrentDEId();
+
+ TH1* hTrackerClusterChargePerDE = GetRecPointsData(kTrackerClusterChargePerDE+iDE);
+ hTrackerClusterChargePerDEMean->SetBinContent(iDE+1, hTrackerClusterChargePerDE->GetMean());
+ Double_t nClusters = hTrackerClusterChargePerDE->GetEntries();
+ if (nClusters > 1) hTrackerClusterChargePerDEMean->SetBinError(iDE+1, sigmaCharge/TMath::Sqrt(nClusters));
+ else hTrackerClusterChargePerDEMean->SetBinError(iDE+1, hTrackerClusterChargePerChamber->GetXaxis()->GetXmax());
+
+ TH1* hTrackerClusterMultiplicityPerDE = GetRecPointsData(kTrackerClusterMultiplicityPerDE+iDE);
+ hTrackerClusterMultiplicityPerDEMean->SetBinContent(iDE+1, hTrackerClusterMultiplicityPerDE->GetMean());
+ nClusters = hTrackerClusterMultiplicityPerDE->GetEntries();
+ if (nClusters > 1) hTrackerClusterMultiplicityPerDEMean->SetBinError(iDE+1, sigmaSize/TMath::Sqrt(nClusters));
+ else hTrackerClusterMultiplicityPerDEMean->SetBinError(iDE+1, hTrackerClusterMultiplicityPerChamber->GetXaxis()->GetXmax());
+
+ it.Next();
+ }
+
+ }
+
+ }
- if ( AliMpDEManager::GetStationType(detElemId) != AliMp::kStationTrigger ) {
+ // Normalize ESD histos
+ if ( task == AliQA::kESDS ) {
- h = GetESDsData(kESDnClustersPerDE);
- Double_t nClusters = h->GetBinContent(h->GetXaxis()->FindFixBin((Double_t)detElemId));
+ Double_t nTracks = GetESDsData(kESDnClustersPerTrack)->GetEntries();
+ if (nTracks <= 0) continue;
- if (nClusters > 0) {
-
- h = GetESDsData(kESDClusterChargePerDE);
- bin = h->GetXaxis()->FindFixBin((Double_t)detElemId);
- h->SetBinContent(bin, h->GetBinContent(bin)/nClusters);
-
- h = GetESDsData(kESDClusterMultPerDE);
- bin = h->GetXaxis()->FindFixBin((Double_t)detElemId);
- h->SetBinContent(bin, h->GetBinContent(bin)/nClusters);
-
- h = GetESDsData(kESDResidualXPerDEMean);
- bin = h->GetXaxis()->FindFixBin((Double_t)detElemId);
- Double_t meanResX = h->GetBinContent(bin)/nClusters;
- h->SetBinContent(bin, meanResX);
-
- h = GetESDsData(kESDResidualYPerDEMean);
- bin = h->GetXaxis()->FindFixBin((Double_t)detElemId);
- Double_t meanResY = h->GetBinContent(bin)/nClusters;
- h->SetBinContent(bin, meanResY);
-
- h = GetESDsData(kESDResidualXPerDESigma);
- bin = h->GetXaxis()->FindFixBin((Double_t)detElemId);
- if (nClusters > 1) h->SetBinContent(bin, TMath::Sqrt(h->GetBinContent(bin)/nClusters - meanResX*meanResX));
- else h->SetBinContent(bin, 0.);
-
- h = GetESDsData(kESDResidualYPerDESigma);
- bin = h->GetXaxis()->FindFixBin((Double_t)detElemId);
- if (nClusters > 1) h->SetBinContent(bin, TMath::Sqrt(h->GetBinContent(bin)/nClusters - meanResY*meanResY));
- else h->SetBinContent(bin, 0.);
- }
+ TH1* hESDnClustersPerCh = GetESDsData(kESDnClustersPerCh);
+ TH1* hESDnClustersPerDE = GetESDsData(kESDnClustersPerDE);
+ TH1* hESDClusterChargePerChMean = GetESDsData(kESDClusterChargePerChMean);
+ TH1* hESDClusterChargePerChSigma = GetESDsData(kESDClusterChargePerChSigma);
+ TH1* hESDClusterSizePerChMean = GetESDsData(kESDClusterSizePerChMean);
+ TH1* hESDClusterSizePerChSigma = GetESDsData(kESDClusterSizePerChSigma);
+ TH1* hESDResidualXPerChMean = GetESDsData(kESDResidualXPerChMean);
+ TH1* hESDResidualXPerChSigma = GetESDsData(kESDResidualXPerChSigma);
+ TH1* hESDResidualYPerChMean = GetESDsData(kESDResidualYPerChMean);
+ TH1* hESDResidualYPerChSigma = GetESDsData(kESDResidualYPerChSigma);
+ TH1* hESDLocalChi2XPerChMean = GetESDsData(kESDLocalChi2XPerChMean);
+ TH1* hESDLocalChi2YPerChMean = GetESDsData(kESDLocalChi2YPerChMean);
+ TH1* hESDClusterChargePerDE = GetESDsData(kESDClusterChargePerDE);
+ TH1* hESDClusterSizePerDE = GetESDsData(kESDClusterSizePerDE);
+ TH1* hESDResidualXPerDEMean = GetESDsData(kESDResidualXPerDEMean);
+ TH1* hESDResidualXPerDESigma = GetESDsData(kESDResidualXPerDESigma);
+ TH1* hESDResidualYPerDEMean = GetESDsData(kESDResidualYPerDEMean);
+ TH1* hESDResidualYPerDESigma = GetESDsData(kESDResidualYPerDESigma);
+ TH1* hESDLocalChi2XPerDEMean = GetESDsData(kESDLocalChi2XPerDEMean);
+ TH1* hESDLocalChi2YPerDEMean = GetESDsData(kESDLocalChi2YPerDEMean);
+ TH1* hESDnTotClustersPerCh = GetESDsData(kESDnTotClustersPerCh);
+ TH1* hESDnTotClustersPerDE = GetESDsData(kESDnTotClustersPerDE);
+ TH1* hESDnTotFullClustersPerDE = GetESDsData(kESDnTotFullClustersPerDE);
+ TH1* hESDSumClusterChargePerDE = GetESDsData(kESDSumClusterChargePerDE);
+ TH1* hESDSumClusterSizePerDE = GetESDsData(kESDSumClusterSizePerDE);
+ TH1* hESDSumResidualXPerDE = GetESDsData(kESDSumResidualXPerDE);
+ TH1* hESDSumResidualYPerDE = GetESDsData(kESDSumResidualYPerDE);
+ TH1* hESDSumResidualX2PerDE = GetESDsData(kESDSumResidualX2PerDE);
+ TH1* hESDSumResidualY2PerDE = GetESDsData(kESDSumResidualY2PerDE);
+ TH1* hESDSumLocalChi2XPerDE = GetESDsData(kESDSumLocalChi2XPerDE);
+ TH1* hESDSumLocalChi2YPerDE = GetESDsData(kESDSumLocalChi2YPerDE);
+
+ hESDnClustersPerCh->Reset();
+ hESDnClustersPerDE->Reset();
+ hESDnClustersPerCh->Add(hESDnTotClustersPerCh, 1./nTracks);
+ hESDnClustersPerDE->Add(hESDnTotClustersPerDE, 1./nTracks);
+ // loop over chambers
+ for (Int_t iCh = 0; iCh < AliMUONConstants::NTrackingCh(); iCh++) {
+
+ TH1* hESDClusterChargeInCh = GetESDsData(kESDClusterChargeInCh+iCh);
+ Double_t sigmaCharge = hESDClusterChargeInCh->GetRMS();
+ hESDClusterChargePerChMean->SetBinContent(iCh+1, hESDClusterChargeInCh->GetMean());
+ hESDClusterChargePerChMean->SetBinError(iCh+1, hESDClusterChargeInCh->GetMeanError());
+ hESDClusterChargePerChSigma->SetBinContent(iCh+1, sigmaCharge);
+ hESDClusterChargePerChSigma->SetBinError(iCh+1, hESDClusterChargeInCh->GetRMSError());
+
+ TH1* hESDClusterSizeInCh = GetESDsData(kESDClusterSizeInCh+iCh);
+ Double_t sigmaSize = hESDClusterSizeInCh->GetRMS();
+ hESDClusterSizePerChMean->SetBinContent(iCh+1, hESDClusterSizeInCh->GetMean());
+ hESDClusterSizePerChMean->SetBinError(iCh+1, hESDClusterSizeInCh->GetMeanError());
+ hESDClusterSizePerChSigma->SetBinContent(iCh+1, sigmaSize);
+ hESDClusterSizePerChSigma->SetBinError(iCh+1, hESDClusterSizeInCh->GetRMSError());
+
+ TH1* hESDResidualXInCh = GetESDsData(kESDResidualXInCh+iCh);
+ Double_t sigmaResidualX = hESDResidualXInCh->GetRMS();
+ hESDResidualXPerChMean->SetBinContent(iCh+1, hESDResidualXInCh->GetMean());
+ hESDResidualXPerChMean->SetBinError(iCh+1, hESDResidualXInCh->GetMeanError());
+ hESDResidualXPerChSigma->SetBinContent(iCh+1, sigmaResidualX);
+ hESDResidualXPerChSigma->SetBinError(iCh+1, hESDResidualXInCh->GetRMSError());
+
+ TH1* hESDResidualYInCh = GetESDsData(kESDResidualYInCh+iCh);
+ Double_t sigmaResidualY = hESDResidualYInCh->GetRMS();
+ hESDResidualYPerChMean->SetBinContent(iCh+1, hESDResidualYInCh->GetMean());
+ hESDResidualYPerChMean->SetBinError(iCh+1, hESDResidualYInCh->GetMeanError());
+ hESDResidualYPerChSigma->SetBinContent(iCh+1, sigmaResidualY);
+ hESDResidualYPerChSigma->SetBinError(iCh+1, hESDResidualYInCh->GetRMSError());
+
+ TH1* hESDLocalChi2XInCh = GetESDsData(kESDLocalChi2XInCh+iCh);
+ Double_t sigmaLocalChi2X = hESDLocalChi2XInCh->GetRMS();
+ hESDLocalChi2XPerChMean->SetBinContent(iCh+1, hESDLocalChi2XInCh->GetMean());
+ hESDLocalChi2XPerChMean->SetBinError(iCh+1, hESDLocalChi2XInCh->GetMeanError());
+
+ TH1* hESDLocalChi2YInCh = GetESDsData(kESDLocalChi2YInCh+iCh);
+ Double_t sigmaLocalChi2Y = hESDLocalChi2YInCh->GetRMS();
+ hESDLocalChi2YPerChMean->SetBinContent(iCh+1, hESDLocalChi2YInCh->GetMean());
+ hESDLocalChi2YPerChMean->SetBinError(iCh+1, hESDLocalChi2YInCh->GetMeanError());
+
+ // loop over DE into chamber iCh
+ AliMpDEIterator it;
+ it.First(iCh);
+ while ( !it.IsDone()) {
+
+ Int_t iDE = it.CurrentDEId();
+
+ Double_t nClusters = hESDnTotClustersPerDE->GetBinContent(iDE+1);
+ if (nClusters > 1) {
+
+ hESDClusterChargePerDE->SetBinContent(iDE+1, hESDSumClusterChargePerDE->GetBinContent(iDE+1)/nClusters);
+ hESDClusterChargePerDE->SetBinError(iDE+1, sigmaCharge/TMath::Sqrt(nClusters));
+
+ Double_t meanResX = hESDSumResidualXPerDE->GetBinContent(iDE+1)/nClusters;
+ hESDResidualXPerDEMean->SetBinContent(iDE+1, meanResX);
+ hESDResidualXPerDEMean->SetBinError(iDE+1, sigmaResidualX/TMath::Sqrt(nClusters));
+ hESDResidualXPerDESigma->SetBinContent(iDE+1, TMath::Sqrt(hESDSumResidualX2PerDE->GetBinContent(iDE+1)/nClusters - meanResX*meanResX));
+ hESDResidualXPerDESigma->SetBinError(iDE+1, sigmaResidualX/TMath::Sqrt(2.*nClusters));
+
+ Double_t meanResY = hESDSumResidualYPerDE->GetBinContent(iDE+1)/nClusters;
+ hESDResidualYPerDEMean->SetBinContent(iDE+1, meanResY);
+ hESDResidualYPerDEMean->SetBinError(iDE+1, sigmaResidualY/TMath::Sqrt(nClusters));
+ hESDResidualYPerDESigma->SetBinContent(iDE+1, TMath::Sqrt(hESDSumResidualY2PerDE->GetBinContent(iDE+1)/nClusters - meanResY*meanResY));
+ hESDResidualYPerDESigma->SetBinError(iDE+1, sigmaResidualY/TMath::Sqrt(2.*nClusters));
+
+ hESDLocalChi2XPerDEMean->SetBinContent(iDE+1, hESDSumLocalChi2XPerDE->GetBinContent(iDE+1)/nClusters);
+ hESDLocalChi2XPerDEMean->SetBinError(iDE+1, sigmaLocalChi2X/TMath::Sqrt(nClusters));
+
+ hESDLocalChi2YPerDEMean->SetBinContent(iDE+1, hESDSumLocalChi2YPerDE->GetBinContent(iDE+1)/nClusters);
+ hESDLocalChi2YPerDEMean->SetBinError(iDE+1, sigmaLocalChi2Y/TMath::Sqrt(nClusters));
+
+ } else {
+
+ hESDClusterChargePerDE->SetBinContent(iDE+1, hESDSumClusterChargePerDE->GetBinContent(iDE+1));
+ hESDClusterChargePerDE->SetBinError(iDE+1, hESDClusterChargeInCh->GetXaxis()->GetXmax());
+
+ hESDResidualXPerDEMean->SetBinContent(iDE+1, hESDSumResidualXPerDE->GetBinContent(iDE+1));
+ hESDResidualXPerDEMean->SetBinError(iDE+1, hESDResidualXInCh->GetXaxis()->GetXmax());
+ hESDResidualXPerDESigma->SetBinContent(iDE+1, 0.);
+ hESDResidualXPerDESigma->SetBinError(iDE+1, hESDResidualXInCh->GetXaxis()->GetXmax());
+
+ hESDResidualYPerDEMean->SetBinContent(iDE+1, hESDSumResidualYPerDE->GetBinContent(iDE+1));
+ hESDResidualYPerDEMean->SetBinError(iDE+1, hESDResidualYInCh->GetXaxis()->GetXmax());
+ hESDResidualYPerDESigma->SetBinContent(iDE+1, 0.);
+ hESDResidualYPerDESigma->SetBinError(iDE+1, hESDResidualYInCh->GetXaxis()->GetXmax());
+
+ hESDLocalChi2XPerDEMean->SetBinContent(iDE+1, hESDSumLocalChi2XPerDE->GetBinContent(iDE+1));
+ hESDLocalChi2XPerDEMean->SetBinError(iDE+1, hESDLocalChi2XInCh->GetXaxis()->GetXmax());
+
+ hESDLocalChi2YPerDEMean->SetBinContent(iDE+1, hESDSumLocalChi2YPerDE->GetBinContent(iDE+1));
+ hESDLocalChi2YPerDEMean->SetBinError(iDE+1, hESDLocalChi2YInCh->GetXaxis()->GetXmax());
+
+ }
+
+ Double_t nFullClusters = hESDnTotFullClustersPerDE->GetBinContent(iDE+1);
+ if (nFullClusters > 1) {
+
+ hESDClusterSizePerDE->SetBinContent(iDE+1, hESDSumClusterSizePerDE->GetBinContent(iDE+1)/nFullClusters);
+ hESDClusterSizePerDE->SetBinError(iDE+1, sigmaSize/TMath::Sqrt(nFullClusters));
+
+ } else {
+
+ hESDClusterSizePerDE->SetBinContent(iDE+1, hESDSumClusterSizePerDE->GetBinContent(iDE+1));
+ hESDClusterSizePerDE->SetBinError(iDE+1, hESDClusterSizeInCh->GetXaxis()->GetXmax());
+
+ }
+
+ it.Next();
+ }
+
}
-
- it.Next();
- }
-
- Double_t nTracks = GetESDsData(kESDnClustersPerTrack)->GetEntries();
- if (nTracks > 0) {
- GetESDsData(kESDnClustersPerCh)->Scale(1./nTracks);
- GetESDsData(kESDnClustersPerDE)->Scale(1./nTracks);
+
}
+
}
- }
+
// do the QA checking
AliQAChecker::Instance()->Run(AliQA::kMUON, task, list) ;
}
histoTitle = Form("Chamber %i: Scalers %s", 11+iChamber, cathName.Data());
TH2F* h5 = (TH2F*)triggerDisplay.GetEmptyDisplayHisto(histoName, AliMUONTriggerDisplay::kDisplayStrips,
iCath, iChamber, histoTitle);
- Add2RawsList(h5, kTriggerScalersDisplay + AliMpConstants::NofTriggerChambers()*iCath + iChamber,forExpert);
+ Add2RawsList(h5, kTriggerScalersDisplay + AliMpConstants::NofTriggerChambers()*iCath + iChamber,!forExpert);
}
}
+
+ TH2F* h6 = new TH2F("hTriggerRPCI", "Trigger RPC currents",
+ 4, 10.5, 14.5,
+ 18, -0.5, 17.5);
+ h6->GetXaxis()->SetTitle("Chamber");
+ h6->GetYaxis()->SetTitle("RPC");
+ Add2RawsList(h6, kTriggerRPCi, forExpert);
+
+ TH2F* h7 = new TH2F("hTriggerRPCHV", "Trigger RPC HV",
+ 4, 10.5, 14.5,
+ 18, -0.5, 17.5);
+ h7->GetXaxis()->SetTitle("Chamber");
+ h7->GetYaxis()->SetTitle("RPC");
+ Add2RawsList(h7, kTriggerRPChv, forExpert);
+
+ for(Int_t iChamber=0; iChamber<AliMpConstants::NofTriggerChambers(); iChamber++){
+ histoName = Form("hRPCIChamber%i", 11+iChamber);
+ histoTitle = Form("Chamber %i: RPC Currents (#muA)", 11+iChamber);
+ TH2F* h8 = (TH2F*)triggerDisplay.GetEmptyDisplayHisto(histoName, AliMUONTriggerDisplay::kDisplaySlats,
+ 0, iChamber, histoTitle);
+ Add2RawsList(h8, kTriggerIDisplay + iChamber, !forExpert);
+ }
+
+ for(Int_t iChamber=0; iChamber<AliMpConstants::NofTriggerChambers(); iChamber++){
+ histoName = Form("hRPCHVChamber%i", 11+iChamber);
+ histoTitle = Form("Chamber %i: RPC HV (V)", 11+iChamber);
+ TH2F* h9 = (TH2F*)triggerDisplay.GetEmptyDisplayHisto(histoName, AliMUONTriggerDisplay::kDisplaySlats,
+ 0, iChamber, histoTitle);
+ Add2RawsList(h9, kTriggerHVDisplay + iChamber, !forExpert);
+ }
+
+ TH1F* h10 = new TH1F("hTriggerScalersTime", "Trigger scalers acquisition time", 1, 0.5, 1.5);
+ h10->GetXaxis()->SetBinLabel(1, "One-bin histogram: bin is filled at each scaler event.");
+ h10->GetYaxis()->SetTitle("Cumulated scaler time (s)");
+ Add2RawsList(h10, kTriggerScalersTime, !forExpert);
Int_t nbp(0);
TIter next(AliMpDDLStore::Instance()->CreateBusPatchIterator());
nbp,-0.5,nbp-0.5);
Add2RawsList(hbp,kTrackerBusPatchOccupancy,!forExpert);
+
+ const Bool_t histogram(kFALSE);
+
+ fTrackerDataMaker = new AliMUONTrackerDataMaker(GetRecoParam(),
+ AliCDBManager::Instance()->GetRun(),
+ 0x0,
+ AliCDBManager::Instance()->GetDefaultStorage()->GetURI(),
+ "NOGAIN",
+ histogram,
+ 0.0,0.0);
+
+ fTrackerDataMaker->Data()->DisableChannelLevel(); // to save up disk space, we only store starting at the manu level
+
+ fTrackerDataMaker->SetRunning(kTRUE);
fIsInitRaws = kTRUE;
}
//____________________________________________________________________________
void AliMUONQADataMakerRec::InitRecPointsTracker()
{
- /// create Reconstructed Points histograms in RecPoints subdir for the
- /// MUON tracker subsystem.
-
+ /// create Reconstructed Points histograms in RecPoints subdir for the
+ /// MUON tracker subsystem.
+
AliCodeTimerAuto("");
Bool_t forExpert(kTRUE);
+ TH1I *h1I;
+ TH1F *h1F;
+ TH2F *h2F;
- AliMpDEIterator it;
-
- it.First();
-
- Int_t ndes(0);
-
- while ( !it.IsDone())
- {
- Int_t detElemId = it.CurrentDEId();
-
- it.Next();
-
- if ( AliMpDEManager::GetStationType(detElemId) != AliMp::kStationTrigger )
- {
- ndes = TMath::Max(ndes,detElemId);
-
- TH1* h = new TH1I(Form("hTrackerClusterMultiplicityForDE%04d",detElemId),
- Form("Multiplicity of the clusters in detection element %d",detElemId),
- 100,0,100);
-
- h->GetXaxis()->SetTitle("Detection Element Id");
-
- Add2RecPointsList(h,kTrackerClusterMultiplicityPerDE+detElemId,forExpert);
-
- h = new TH1I(Form("hTrackerClusterChargeForDE%04d",detElemId),
- Form("Charge of the clusters in detection element %d",detElemId),
- 100,0,1000);
-
- h->GetXaxis()->SetTitle("Detection Element Id");
-
- Add2RecPointsList(h,kTrackerClusterChargePerDE+detElemId,forExpert);
-
- }
-
- }
-
- TH1* h = new TH1I("hTrackerNumberOfClustersPerDE","Number of clusters per detection element",
- ndes, 0.5, ndes + 0.5);
-
- h->GetXaxis()->SetTitle("Detection Element Id");
-
- Add2RecPointsList(h, kTrackerNumberOfClustersPerDE,!forExpert);
-
- for ( Int_t i = 0; i < AliMpConstants::NofTrackingChambers(); ++i )
- {
- TH1* h1 = new TH1I("hTrackerNumberOfClustersPerChamber","Number of clusters per chamber",
- AliMpConstants::NofTrackingChambers(),-0.5,AliMpConstants::NofTrackingChambers()-0.5);
- Add2RecPointsList(h1,kTrackerNumberOfClustersPerChamber,forExpert);
- h1 = new TH1I(Form("hTrackerClusterMultiplicityForChamber%d",i),
- Form("Cluster multiplicity for chamber %d",i),
- 100,0,100);
- Add2RecPointsList(h1,kTrackerClusterMultiplicityPerChamber+i,forExpert);
- h1 = new TH1I(Form("hTrackerClusterChargeForChamber%d",i),
- Form("Cluster charge for chamber %d",i),
- 100,0,1000);
- Add2RecPointsList(h1,kTrackerClusterChargePerChamber+i,forExpert);
- }
-
- fIsInitRecPointsTracker=kTRUE;
+ // histograms per chamber
+ Int_t nCh = AliMpConstants::NofTrackingChambers();
+ for ( Int_t i = 0; i < nCh; ++i )
+ {
+ h1I = new TH1I(Form("hTrackerClusterMultiplicityForChamber%d",i+1), Form("cluster size distribution in chamber %d;size (n_{pads})",i+1), 100,0,100);
+ Add2RecPointsList(h1I,kTrackerClusterMultiplicityPerChamber+i,forExpert);
+
+ h1I = new TH1I(Form("hTrackerClusterChargeForChamber%d",i+1), Form("cluster charge distribution in chamber %d;charge (ADC counts)",i+1), 500,0,5000);
+ Add2RecPointsList(h1I,kTrackerClusterChargePerChamber+i,forExpert);
+
+ Float_t rMax = AliMUONConstants::Rmax(i/2);
+ h2F = new TH2F(Form("hTrackerClusterHitMapForChamber%d",i+1), Form("cluster position distribution in chamber %d;X (cm);Y (cm)",i+1), 100, -rMax, rMax, 100, -rMax, rMax);
+ Add2RecPointsList(h2F, kTrackerClusterHitMapPerChamber+i,forExpert);
+ }
+
+ // summary histograms per chamber
+ h1I = new TH1I("hTrackerNumberOfClustersPerChamber", "Number of clusters per chamber;chamber ID;n_{clusters}", nCh,-0.5,nCh-0.5);
+ Add2RecPointsList(h1I,kTrackerNumberOfClustersPerChamber,forExpert);
+
+ h1F = new TH1F("hTrackerClusterMultiplicityPerChMean", "cluster mean size per chamber;chamber ID;<size> (n_{pads})", nCh,-0.5,nCh-0.5);
+ h1F->SetOption("P");
+ h1F->SetMarkerStyle(kFullDotMedium);
+ h1F->SetMarkerColor(kRed);
+ Add2RecPointsList(h1F, kTrackerClusterMultiplicityPerChMean,forExpert);
+
+ h1F = new TH1F("hTrackerClusterMultiplicityPerChSigma", "cluster size dispersion per chamber;chamber ID;#sigma_{size} (n_{pads})", nCh,-0.5,nCh-0.5);
+ h1F->SetOption("P");
+ h1F->SetMarkerStyle(kFullDotMedium);
+ h1F->SetMarkerColor(kRed);
+ Add2RecPointsList(h1F, kTrackerClusterMultiplicityPerChSigma,forExpert);
+
+ h1F = new TH1F("hTrackerClusterChargePerChMean", "cluster mean charge per chamber;chamber ID;<charge> (ADC counts)", nCh,-0.5,nCh-0.5);
+ h1F->SetOption("P");
+ h1F->SetMarkerStyle(kFullDotMedium);
+ h1F->SetMarkerColor(kRed);
+ Add2RecPointsList(h1F, kTrackerClusterChargePerChMean,forExpert);
+
+ h1F = new TH1F("hTrackerClusterChargePerChSigma", "cluster charge dispersion per chamber;chamber ID;#sigma_{charge} (ADC counts)", nCh,-0.5,nCh-0.5);
+ h1F->SetOption("P");
+ h1F->SetMarkerStyle(kFullDotMedium);
+ h1F->SetMarkerColor(kRed);
+ Add2RecPointsList(h1F, kTrackerClusterChargePerChSigma,forExpert);
+
+ // histograms per DE
+ Int_t ndes(0);
+ AliMpDEIterator it;
+ it.First();
+ while ( !it.IsDone())
+ {
+ Int_t detElemId = it.CurrentDEId();
+
+ if ( AliMpDEManager::GetStationType(detElemId) != AliMp::kStationTrigger )
+ {
+ ndes = TMath::Max(ndes,detElemId);
+
+ h1I = new TH1I(Form("hTrackerClusterMultiplicityForDE%04d",detElemId), Form("cluster size distribution in detection element %d;size (n_{pads})",detElemId), 100,0,100);
+ Add2RecPointsList(h1I,kTrackerClusterMultiplicityPerDE+detElemId,forExpert);
+
+ h1I = new TH1I(Form("hTrackerClusterChargeForDE%04d",detElemId), Form("cluster charge distribution in detection element %d;charge (ADC counts)",detElemId), 500,0,5000);
+ Add2RecPointsList(h1I,kTrackerClusterChargePerDE+detElemId,forExpert);
+ }
+
+ it.Next();
+ }
+
+ // summary histograms per DE
+ h1I = new TH1I("hTrackerNumberOfClustersPerDE", "Number of clusters per detection element;DetElem ID;n_{clusters}", ndes+1,-0.5,ndes+0.5);
+ Add2RecPointsList(h1I, kTrackerNumberOfClustersPerDE,!forExpert);
+
+ h1F = new TH1F("hTrackerClusterMultiplicityPerDEMean", "cluster mean size per DE;DetElem ID;<size> (n_{pads})", ndes+1,-0.5,ndes+0.5);
+ h1F->SetOption("P");
+ h1F->SetMarkerStyle(kFullDotMedium);
+ h1F->SetMarkerColor(kRed);
+ Add2RecPointsList(h1F, kTrackerClusterMultiplicityPerDEMean,forExpert);
+
+ h1F = new TH1F("hTrackerClusterChargePerDEMean", "cluster mean charge per DE;DetElem ID;<charge> (ADC counts)", ndes+1,-0.5,ndes+0.5);
+ h1F->SetOption("P");
+ h1F->SetMarkerStyle(kFullDotMedium);
+ h1F->SetMarkerColor(kRed);
+ Add2RecPointsList(h1F, kTrackerClusterChargePerDEMean,forExpert);
+
+ fIsInitRecPointsTracker=kTRUE;
}
//____________________________________________________________________________
histoTitle = Form("Chamber %i: Fired pads %s", 11+iChamber, cathName.Data());
TH2F* h3 = (TH2F*)triggerDisplay.GetEmptyDisplayHisto(histoName, AliMUONTriggerDisplay::kDisplayStrips,
iCath, iChamber, histoTitle);
- Add2RecPointsList(h3, kTriggerDigitsDisplay + AliMpConstants::NofTriggerChambers()*iCath + iChamber,forExpert);
+ Add2RecPointsList(h3, kTriggerDigitsDisplay + AliMpConstants::NofTriggerChambers()*iCath + iChamber,!forExpert);
}
}
TH2F* h4 = (TH2F*)triggerDisplay.GetEmptyDisplayHisto("hFiredBoardsDisplay", AliMUONTriggerDisplay::kDisplayBoards,
0, 0, "Fired boards");
- Add2RecPointsList(h4, kTriggerBoardsDisplay,forExpert);
+ Add2RecPointsList(h4, kTriggerBoardsDisplay,!forExpert);
fIsInitRecPointsTrigger = kTRUE;
}
Int_t nDE = 1100;
// track info
- TH1F* hESDnTracks = new TH1F("hESDnTracks", "number of tracks", 20, 0., 20.);
+ TH1F* hESDnTracks = new TH1F("hESDnTracks", "number of tracks;n_{tracks}", 20, 0., 20.);
Add2ESDsList(hESDnTracks, kESDnTracks,!forExpert);
- TH1F* hESDMatchTrig = new TH1F("hESDMatchTrig", "number of tracks matched with trigger", 20, 0., 20.);
+ TH1F* hESDMatchTrig = new TH1F("hESDMatchTrig", "number of tracks matched with trigger;n_{tracks}", 20, 0., 20.);
Add2ESDsList(hESDMatchTrig, kESDMatchTrig,!forExpert);
- TH1F* hESDMomentum = new TH1F("hESDMomentum", "P distribution", 300, 0., 300);
+ TH1F* hESDMomentum = new TH1F("hESDMomentum", "momentum distribution;p (GeV/c)", 300, 0., 300);
Add2ESDsList(hESDMomentum, kESDMomentum,forExpert);
- TH1F* hESDPt = new TH1F("hESDPt", "Pt distribution", 200, 0., 50);
+ TH1F* hESDPt = new TH1F("hESDPt", "transverse momentum distribution;p_{t} (GeV/c)", 200, 0., 50);
Add2ESDsList(hESDPt, kESDPt,forExpert);
- TH1F* hESDRapidity = new TH1F("hESDRapidity", "rapidity distribution", 200, -4.5, -2.);
+ TH1F* hESDRapidity = new TH1F("hESDRapidity", "rapidity distribution;rapidity", 200, -4.5, -2.);
Add2ESDsList(hESDRapidity, kESDRapidity,forExpert);
- TH1F* hESDChi2 = new TH1F("hESDChi2", "normalized chi2 distribution", 500, 0., 50.);
+ TH1F* hESDChi2 = new TH1F("hESDChi2", "normalized #chi^{2} distribution;#chi^{2} / ndf", 500, 0., 50.);
Add2ESDsList(hESDChi2, kESDChi2,forExpert);
+ TH1F* hESDProbChi2 = new TH1F("hESDProbChi2", "distribution of probability of #chi^{2};prob(#chi^{2})", 100, 0., 1.);
+ Add2ESDsList(hESDProbChi2, kESDProbChi2,forExpert);
+
// cluster info
for (Int_t i = 0; i < nCh; i++) {
Float_t rMax = AliMUONConstants::Rmax(i/2);
- TH2F* hESDClusterHitMap = new TH2F(Form("hESDClusterHitMap%d",i+1), Form("cluster position distribution in chamber %d",i+1),
+ TH2F* hESDClusterHitMap = new TH2F(Form("hESDClusterHitMap%d",i+1), Form("cluster position distribution in chamber %d;X (cm);Y (cm)",i+1),
100, -rMax, rMax, 100, -rMax, rMax);
Add2ESDsList(hESDClusterHitMap, kESDClusterHitMap+i,forExpert);
}
- TH1F* hESDnClustersPerTrack = new TH1F("hESDnClustersPerTrack", "number of clusters per track", 20, 0., 20.);
+ TH1F* hESDnClustersPerTrack = new TH1F("hESDnClustersPerTrack", "number of associated clusters per track;n_{clusters}", 20, 0., 20.);
Add2ESDsList(hESDnClustersPerTrack, kESDnClustersPerTrack,!forExpert);
- TH1F* hESDnClustersPerCh = new TH1F("hESDnClustersPerCh", "number of clusters per chamber per track;chamber ID", nCh, 0, nCh);
+ TH1F* hESDnClustersPerCh = new TH1F("hESDnClustersPerCh", "averaged number of clusters per chamber per track;chamber ID;<n_{clusters}>", nCh, -0.5, nCh-0.5);
hESDnClustersPerCh->SetFillColor(kRed);
Add2ESDsList(hESDnClustersPerCh, kESDnClustersPerCh,forExpert);
- TH1F* hESDnClustersPerDE = new TH1F("hESDnClustersPerDE", "number of clusters per DE per track;DetElem ID", nDE, 0, nDE);
+ TH1F* hESDnClustersPerDE = new TH1F("hESDnClustersPerDE", "averaged number of clusters per DE per track;DetElem ID;<n_{clusters}>", nDE+1, -0.5, nDE+0.5);
hESDnClustersPerDE->SetFillColor(kRed);
Add2ESDsList(hESDnClustersPerDE, kESDnClustersPerDE,forExpert);
- TH1F* hESDClusterCharge = new TH1F("hESDClusterCharge", "cluster charge distribution", 500, 0., 5000.);
- Add2ESDsList(hESDClusterCharge, kESDClusterCharge,forExpert);
-
for (Int_t i = 0; i < nCh; i++) {
- TH1F* hESDClusterChargeInCh = new TH1F(Form("hESDClusterChargeInCh%d",i+1), Form("cluster charge distribution in chamber %d",i+1), 500, 0., 5000.);
+ TH1F* hESDClusterChargeInCh = new TH1F(Form("hESDClusterChargeInCh%d",i+1), Form("cluster charge distribution in chamber %d;charge (ADC counts)",i+1), 500, 0., 5000.);
Add2ESDsList(hESDClusterChargeInCh, kESDClusterChargeInCh+i,forExpert);
}
- TH1F* hESDClusterChargePerDE = new TH1F("hESDClusterChargePerDE", "cluster mean charge per DE;DetElem ID", nDE, 0, nDE);
+ TH1F* hESDClusterChargePerChMean = new TH1F("hESDClusterChargePerChMean", "cluster mean charge per chamber;chamber ID;<charge> (ADC counts)", nCh, -0.5, nCh-0.5);
+ hESDClusterChargePerChMean->SetOption("P");
+ hESDClusterChargePerChMean->SetMarkerStyle(kFullDotMedium);
+ hESDClusterChargePerChMean->SetMarkerColor(kRed);
+ Add2ESDsList(hESDClusterChargePerChMean, kESDClusterChargePerChMean,forExpert);
+
+ TH1F* hESDClusterChargePerChSigma = new TH1F("hESDClusterChargePerChSigma", "cluster charge dispersion per chamber;chamber ID;#sigma_{charge} (ADC counts)", nCh, -0.5, nCh-0.5);
+ hESDClusterChargePerChSigma->SetOption("P");
+ hESDClusterChargePerChSigma->SetMarkerStyle(kFullDotMedium);
+ hESDClusterChargePerChSigma->SetMarkerColor(kRed);
+ Add2ESDsList(hESDClusterChargePerChSigma, kESDClusterChargePerChSigma,forExpert);
+
+ TH1F* hESDClusterChargePerDE = new TH1F("hESDClusterChargePerDE", "cluster mean charge per DE;DetElem ID;<charge> (ADC counts)", nDE+1, -0.5, nDE+0.5);
hESDClusterChargePerDE->SetOption("P");
hESDClusterChargePerDE->SetMarkerStyle(kFullDotMedium);
hESDClusterChargePerDE->SetMarkerColor(kRed);
Add2ESDsList(hESDClusterChargePerDE, kESDClusterChargePerDE,forExpert);
- TH1F* hESDClusterMult = new TH1F("hESDClusterMult", "cluster multiplicity distribution", 200, 0., 200.);
- Add2ESDsList(hESDClusterMult, kESDClusterMult,forExpert);
-
for (Int_t i = 0; i < nCh; i++) {
- TH1F* hESDClusterMultInCh = new TH1F(Form("hESDClusterMultInCh%d",i+1), Form("cluster multiplicity distribution in chamber %d",i+1), 200, 0., 200.);
- Add2ESDsList(hESDClusterMultInCh, kESDClusterMultInCh+i,forExpert);
+ TH1F* hESDClusterSizeInCh = new TH1F(Form("hESDClusterSizeInCh%d",i+1), Form("cluster size distribution in chamber %d;size (n_{pads})",i+1), 200, 0., 200.);
+ Add2ESDsList(hESDClusterSizeInCh, kESDClusterSizeInCh+i,forExpert);
}
- TH1F* hESDClusterMultPerDE = new TH1F("hESDClusterMultPerDE", "cluster mean multiplicity per DE;DetElem ID", nDE, 0, nDE);
- hESDClusterMultPerDE->SetOption("P");
- hESDClusterMultPerDE->SetMarkerStyle(kFullDotMedium);
- hESDClusterMultPerDE->SetMarkerColor(kRed);
- Add2ESDsList(hESDClusterMultPerDE, kESDClusterMultPerDE,forExpert);
+ TH1F* hESDClusterSizePerChMean = new TH1F("hESDClusterSizePerChMean", "cluster mean size per chamber;chamber ID;<size> (n_{pads})", nCh, -0.5, nCh-0.5);
+ hESDClusterSizePerChMean->SetOption("P");
+ hESDClusterSizePerChMean->SetMarkerStyle(kFullDotMedium);
+ hESDClusterSizePerChMean->SetMarkerColor(kRed);
+ Add2ESDsList(hESDClusterSizePerChMean, kESDClusterSizePerChMean,forExpert);
- // cluster - track info
- TH1F* hESDResidualX = new TH1F("hESDResidualX", "cluster-track residual-X distribution", 1000, -5., 5.);
- Add2ESDsList(hESDResidualX, kESDResidualX,forExpert);
+ TH1F* hESDClusterSizePerChSigma = new TH1F("hESDClusterSizePerChSigma", "cluster size dispersion per chamber;chamber ID;#sigma_{size} (n_{pads})", nCh, -0.5, nCh-0.5);
+ hESDClusterSizePerChSigma->SetOption("P");
+ hESDClusterSizePerChSigma->SetMarkerStyle(kFullDotMedium);
+ hESDClusterSizePerChSigma->SetMarkerColor(kRed);
+ Add2ESDsList(hESDClusterSizePerChSigma, kESDClusterSizePerChSigma,forExpert);
- TH1F* hESDResidualY = new TH1F("hESDResidualY", "cluster-track residual-Y distribution", 1000, -1., 1.);
- Add2ESDsList(hESDResidualY, kESDResidualY,forExpert);
+ TH1F* hESDClusterSizePerDE = new TH1F("hESDClusterSizePerDE", "cluster mean size per DE;DetElem ID;<size> (n_{pads})", nDE+1, -0.5, nDE+0.5);
+ hESDClusterSizePerDE->SetOption("P");
+ hESDClusterSizePerDE->SetMarkerStyle(kFullDotMedium);
+ hESDClusterSizePerDE->SetMarkerColor(kRed);
+ Add2ESDsList(hESDClusterSizePerDE, kESDClusterSizePerDE,forExpert);
+ // cluster - track info
for (Int_t i = 0; i < nCh; i++) {
- TH1F* hESDResidualXInCh = new TH1F(Form("hESDResidualXInCh%d",i+1), Form("cluster-track residual-X distribution in chamber %d",i+1), 1000, -5., 5.);
+ TH1F* hESDResidualXInCh = new TH1F(Form("hESDResidualXInCh%d",i+1), Form("cluster-track residual-X distribution in chamber %d;#Delta_{X} (cm)",i+1), 1000, -5., 5.);
Add2ESDsList(hESDResidualXInCh, kESDResidualXInCh+i,forExpert);
- TH1F* hESDResidualYInCh = new TH1F(Form("hESDResidualYInCh%d",i+1), Form("cluster-track residual-Y distribution in chamber %d",i+1), 1000, -1., 1.);
+ TH1F* hESDResidualYInCh = new TH1F(Form("hESDResidualYInCh%d",i+1), Form("cluster-track residual-Y distribution in chamber %d;#Delta_{Y} (cm)",i+1), 1000, -1., 1.);
Add2ESDsList(hESDResidualYInCh, kESDResidualYInCh+i,forExpert);
+
+ TH1F* hESDLocalChi2XInCh = new TH1F(Form("hESDLocalChi2XInCh%d",i+1), Form("local chi2-X distribution in chamber %d;local #chi^{2}_{X}",i+1), 1000, 0., 25);
+ Add2ESDsList(hESDLocalChi2XInCh, kESDLocalChi2XInCh+i,forExpert);
+
+ TH1F* hESDLocalChi2YInCh = new TH1F(Form("hESDLocalChi2YInCh%d",i+1), Form("local chi2-Y distribution in chamber %d;local #chi^{2}_{Y}",i+1), 1000, 0., 25);
+ Add2ESDsList(hESDLocalChi2YInCh, kESDLocalChi2YInCh+i,forExpert);
}
- TH1F* hESDResidualXPerDEMean = new TH1F("hESDResidualXPerDEMean", "cluster-track residual-X per DE: mean;DetElem ID", nDE, 0, nDE);
+ TH1F* hESDResidualXPerChMean = new TH1F("hESDResidualXPerChMean", "cluster-track residual-X per Ch: mean;chamber ID;<#Delta_{X}> (cm)", nCh, -0.5, nCh-0.5);
+ hESDResidualXPerChMean->SetOption("P");
+ hESDResidualXPerChMean->SetMarkerStyle(kFullDotMedium);
+ hESDResidualXPerChMean->SetMarkerColor(kRed);
+ Add2ESDsList(hESDResidualXPerChMean, kESDResidualXPerChMean,forExpert);
+
+ TH1F* hESDResidualYPerChMean = new TH1F("hESDResidualYPerChMean", "cluster-track residual-Y per Ch: mean;chamber ID;<#Delta_{Y}> (cm)", nCh, -0.5, nCh-0.5);
+ hESDResidualYPerChMean->SetOption("P");
+ hESDResidualYPerChMean->SetMarkerStyle(kFullDotMedium);
+ hESDResidualYPerChMean->SetMarkerColor(kRed);
+ Add2ESDsList(hESDResidualYPerChMean, kESDResidualYPerChMean,forExpert);
+
+ TH1F* hESDResidualXPerChSigma = new TH1F("hESDResidualXPerChSigma", "cluster-track residual-X per Ch: sigma;chamber ID;#sigma_{X} (cm)", nCh, -0.5, nCh-0.5);
+ hESDResidualXPerChSigma->SetOption("P");
+ hESDResidualXPerChSigma->SetMarkerStyle(kFullDotMedium);
+ hESDResidualXPerChSigma->SetMarkerColor(kRed);
+ Add2ESDsList(hESDResidualXPerChSigma, kESDResidualXPerChSigma,forExpert);
+
+ TH1F* hESDResidualYPerChSigma = new TH1F("hESDResidualYPerChSigma", "cluster-track residual-Y per Ch: sigma;chamber ID;#sigma_{Y} (cm)", nCh, -0.5, nCh-0.5);
+ hESDResidualYPerChSigma->SetOption("P");
+ hESDResidualYPerChSigma->SetMarkerStyle(kFullDotMedium);
+ hESDResidualYPerChSigma->SetMarkerColor(kRed);
+ Add2ESDsList(hESDResidualYPerChSigma, kESDResidualYPerChSigma,forExpert);
+
+ TH1F* hESDLocalChi2XPerChMean = new TH1F("hESDLocalChi2XPerChMean", "local chi2-X per Ch: mean;chamber ID;<local #chi^{2}_{X}>", nCh, -0.5, nCh-0.5);
+ hESDLocalChi2XPerChMean->SetOption("P");
+ hESDLocalChi2XPerChMean->SetMarkerStyle(kFullDotMedium);
+ hESDLocalChi2XPerChMean->SetMarkerColor(kRed);
+ Add2ESDsList(hESDLocalChi2XPerChMean, kESDLocalChi2XPerChMean,forExpert);
+
+ TH1F* hESDLocalChi2YPerChMean = new TH1F("hESDLocalChi2YPerChMean", "local chi2-Y per Ch: mean;chamber ID;<local #chi^{2}_{Y}>", nCh, -0.5, nCh-0.5);
+ hESDLocalChi2YPerChMean->SetOption("P");
+ hESDLocalChi2YPerChMean->SetMarkerStyle(kFullDotMedium);
+ hESDLocalChi2YPerChMean->SetMarkerColor(kRed);
+ Add2ESDsList(hESDLocalChi2YPerChMean, kESDLocalChi2YPerChMean,forExpert);
+
+ TH1F* hESDResidualXPerDEMean = new TH1F("hESDResidualXPerDEMean", "cluster-track residual-X per DE: mean;DetElem ID;<#Delta_{X}> (cm)", nDE+1, -0.5, nDE+0.5);
hESDResidualXPerDEMean->SetOption("P");
hESDResidualXPerDEMean->SetMarkerStyle(kFullDotMedium);
hESDResidualXPerDEMean->SetMarkerColor(kRed);
Add2ESDsList(hESDResidualXPerDEMean, kESDResidualXPerDEMean,forExpert);
- TH1F* hESDResidualYPerDEMean = new TH1F("hESDResidualYPerDEMean", "cluster-track residual-Y per DE: mean;DetElem ID", nDE, 0, nDE);
+ TH1F* hESDResidualYPerDEMean = new TH1F("hESDResidualYPerDEMean", "cluster-track residual-Y per DE: mean;DetElem ID;<#Delta_{Y}> (cm)", nDE+1, -0.5, nDE+0.5);
hESDResidualYPerDEMean->SetOption("P");
hESDResidualYPerDEMean->SetMarkerStyle(kFullDotMedium);
hESDResidualYPerDEMean->SetMarkerColor(kRed);
Add2ESDsList(hESDResidualYPerDEMean, kESDResidualYPerDEMean,forExpert);
- TH1F* hESDResidualXPerDESigma = new TH1F("hESDResidualXPerDESigma", "cluster-track residual-X per DE: sigma;DetElem ID", nDE, 0, nDE);
+ TH1F* hESDResidualXPerDESigma = new TH1F("hESDResidualXPerDESigma", "cluster-track residual-X per DE: sigma;DetElem ID;#sigma_{X} (cm)", nDE+1, -0.5, nDE+0.5);
hESDResidualXPerDESigma->SetOption("P");
hESDResidualXPerDESigma->SetMarkerStyle(kFullDotMedium);
hESDResidualXPerDESigma->SetMarkerColor(kRed);
Add2ESDsList(hESDResidualXPerDESigma, kESDResidualXPerDESigma,forExpert);
- TH1F* hESDResidualYPerDESigma = new TH1F("hESDResidualYPerDESigma", "cluster-track residual-Y per DE: sigma;DetElem ID", nDE, 0, nDE);
+ TH1F* hESDResidualYPerDESigma = new TH1F("hESDResidualYPerDESigma", "cluster-track residual-Y per DE: sigma;DetElem ID;#sigma_{Y} (cm)", nDE+1, -0.5, nDE+0.5);
hESDResidualYPerDESigma->SetOption("P");
hESDResidualYPerDESigma->SetMarkerStyle(kFullDotMedium);
hESDResidualYPerDESigma->SetMarkerColor(kRed);
Add2ESDsList(hESDResidualYPerDESigma, kESDResidualYPerDESigma,forExpert);
+ TH1F* hESDLocalChi2XPerDEMean = new TH1F("hESDLocalChi2XPerDEMean", "local chi2-X per DE: mean;DetElem ID;<local #chi^{2}_{X}>", nDE+1, -0.5, nDE+0.5);
+ hESDLocalChi2XPerDEMean->SetOption("P");
+ hESDLocalChi2XPerDEMean->SetMarkerStyle(kFullDotMedium);
+ hESDLocalChi2XPerDEMean->SetMarkerColor(kRed);
+ Add2ESDsList(hESDLocalChi2XPerDEMean, kESDLocalChi2XPerDEMean,forExpert);
+
+ TH1F* hESDLocalChi2YPerDEMean = new TH1F("hESDLocalChi2YPerDEMean", "local chi2-Y per DE: mean;DetElem ID;<local #chi^{2}_{Y}>", nDE+1, -0.5, nDE+0.5);
+ hESDLocalChi2YPerDEMean->SetOption("P");
+ hESDLocalChi2YPerDEMean->SetMarkerStyle(kFullDotMedium);
+ hESDLocalChi2YPerDEMean->SetMarkerColor(kRed);
+ Add2ESDsList(hESDLocalChi2YPerDEMean, kESDLocalChi2YPerDEMean,forExpert);
+
+ // intermediate histograms
+ TH1F* hESDnTotClustersPerCh = new TH1F("hESDnTotClustersPerCh", "total number of associated clusters per chamber;chamber ID;#Sigma(n_{clusters})", nCh, -0.5, nCh-0.5);
+ Add2ESDsList(hESDnTotClustersPerCh, kESDnTotClustersPerCh, forExpert);
+ TH1F* hESDnTotClustersPerDE = new TH1F("hESDnTotClustersPerDE", "total number of associated clusters per DE;DetElem ID;#Sigma(n_{clusters})", nDE+1, -0.5, nDE+0.5);
+ Add2ESDsList(hESDnTotClustersPerDE, kESDnTotClustersPerDE, forExpert);
+ TH1F* hESDnTotFullClustersPerDE = new TH1F("hESDnTotFullClustersPerDE", "total number of associated clusters containing pad info per DE;DetElem ID;#Sigma(n_{full clusters})", nDE+1, -0.5, nDE+0.5);
+ Add2ESDsList(hESDnTotFullClustersPerDE, kESDnTotFullClustersPerDE, forExpert);
+ TH1F* hESDSumClusterChargePerDE = new TH1F("hESDSumClusterChargePerDE", "sum of cluster charge per DE;DetElem ID;#Sigma(charge) (ADC counts)", nDE+1, -0.5, nDE+0.5);
+ Add2ESDsList(hESDSumClusterChargePerDE, kESDSumClusterChargePerDE, forExpert);
+ TH1F* hESDSumClusterSizePerDE = new TH1F("hESDSumClusterSizePerDE", "sum of cluster size per DE;DetElem ID;#Sigma(size) (n_{pads})", nDE+1, -0.5, nDE+0.5);
+ Add2ESDsList(hESDSumClusterSizePerDE, kESDSumClusterSizePerDE, forExpert);
+ TH1F* hESDSumResidualXPerDE = new TH1F("hESDSumResidualXPerDE", "sum of cluster-track residual-X per DE;DetElem ID;#Sigma(#Delta_{X}) (cm)", nDE+1, -0.5, nDE+0.5);
+ Add2ESDsList(hESDSumResidualXPerDE, kESDSumResidualXPerDE, forExpert);
+ TH1F* hESDSumResidualYPerDE = new TH1F("hESDSumResidualYPerDE", "sum of cluster-track residual-Y per DE;DetElem ID;#Sigma(#Delta_{Y}) (cm)", nDE+1, -0.5, nDE+0.5);
+ Add2ESDsList(hESDSumResidualYPerDE, kESDSumResidualYPerDE, forExpert);
+ TH1F* hESDSumResidualX2PerDE = new TH1F("hESDSumResidualX2PerDE", "sum of cluster-track residual-X**2 per DE;DetElem ID;#Sigma(#Delta_{X}^{2}) (cm^{2})", nDE+1, -0.5, nDE+0.5);
+ Add2ESDsList(hESDSumResidualX2PerDE, kESDSumResidualX2PerDE, forExpert);
+ TH1F* hESDSumResidualY2PerDE = new TH1F("hESDSumResidualY2PerDE", "sum of cluster-track residual-Y**2 per DE;DetElem ID;#Sigma(#Delta_{Y}^{2}) (cm^{2})", nDE+1, -0.5, nDE+0.5);
+ Add2ESDsList(hESDSumResidualY2PerDE, kESDSumResidualY2PerDE, forExpert);
+ TH1F* hESDSumLocalChi2XPerDE = new TH1F("hESDSumLocalChi2XPerDE", "sum of local chi2-X per DE;DetElem ID;#Sigma(local #chi^{2}_{X})", nDE+1, -0.5, nDE+0.5);
+ Add2ESDsList(hESDSumLocalChi2XPerDE, kESDSumLocalChi2XPerDE, forExpert);
+ TH1F* hESDSumLocalChi2YPerDE = new TH1F("hESDSumLocalChi2YPerDE", "sum of local chi2-Y per DE;DetElem ID;#Sigma(local #chi^{2}_{Y})", nDE+1, -0.5, nDE+0.5);
+ Add2ESDsList(hESDSumLocalChi2YPerDE, kESDSumLocalChi2YPerDE, forExpert);
+
fIsInitESDs = kTRUE;
}
void AliMUONQADataMakerRec::MakeRawsTracker(AliRawReader* rawReader)
{
/// make QA for rawdata tracker
-
- if (!fTrackerDataMaker)
- {
- const Bool_t histogram(kFALSE);
- const Bool_t fastDecoder(kTRUE);
-
-// fTrackerDataMaker = new AliMUONTrackerRawDataMaker(rawReader,histogram,fastDecoder,takeRawReaderOwnership);
-
- fTrackerDataMaker = new AliMUONTrackerCalibratedDataMaker(GetRecoParam(),
- AliCDBManager::Instance()->GetRun(),
- rawReader,
- AliCDBManager::Instance()->GetDefaultStorage()->GetURI(),
- "NOGAIN",
- histogram,
- 0.0,0.0,
- fastDecoder);
-
- fTrackerDataMaker->Data()->DisableChannelLevel(); // to save up disk space, we only store starting at the manu level
-
- fTrackerDataMaker->SetRunning(kTRUE);
- }
-
- ((AliMUONTrackerCalibratedDataMaker*)fTrackerDataMaker)->SetRawReader(rawReader);
+
+ ((AliMUONTrackerDataMaker*)fTrackerDataMaker)->SetRawReader(rawReader);
fTrackerDataMaker->ProcessEvent();
}
AliMUONDDLTrigger* ddlTrigger = rawStreamTrig.GetDDLTrigger();
AliMUONDarcHeader* darcHeader = ddlTrigger->GetDarcHeader();
+ if (darcHeader->GetGlobalFlag()){
+ UInt_t nOfClocks = darcHeader->GetGlobalClock();
+ Double_t nOfSeconds = ((Double_t) nOfClocks) / 40e6; // 1 clock each 25 ns
+ ((TH1F*)GetRawsData(kTriggerScalersTime))->Fill(1., nOfSeconds);
+ }
+
Int_t nReg = darcHeader->GetRegHeaderEntries();
for(Int_t iReg = 0; iReg < nReg ;iReg++)
GetRecPointsData(kTrackerNumberOfClustersPerChamber)->Fill(chamberId);
GetRecPointsData(kTrackerClusterChargePerChamber+chamberId)->Fill(cluster->GetCharge());
GetRecPointsData(kTrackerClusterMultiplicityPerChamber+chamberId)->Fill(cluster->GetNDigits());
+ GetRecPointsData(kTrackerClusterHitMapPerChamber+chamberId)->Fill(cluster->GetX(),cluster->GetY());
}
GetESDsData(kESDPt)->Fill(esdTrack->Pt());
GetESDsData(kESDRapidity)->Fill(esdTrack->Y());
GetESDsData(kESDChi2)->Fill(track->GetNormalizedChi2());
+ GetESDsData(kESDProbChi2)->Fill(TMath::Prob(track->GetGlobalChi2(),track->GetNDF()));
GetESDsData(kESDnClustersPerTrack)->Fill(track->GetNClusters());
// loop over clusters
Int_t deID = cluster->GetDetElemId();
Double_t residualX = cluster->GetX() - trackParam->GetNonBendingCoor();
Double_t residualY = cluster->GetY() - trackParam->GetBendingCoor();
+ Double_t localChi2X = (cluster->GetErrX2() > 0.) ? residualX*residualX/cluster->GetErrX2() : 0.;
+ Double_t localChi2Y = (cluster->GetErrY2() > 0.) ? residualY*residualY/cluster->GetErrY2() : 0.;
GetESDsData(kESDClusterHitMap+chId)->Fill(cluster->GetX(), cluster->GetY());
- GetESDsData(kESDnClustersPerCh)->Fill(chId);
- GetESDsData(kESDnClustersPerDE)->Fill(deID);
+ GetESDsData(kESDnTotClustersPerCh)->Fill(chId);
+ GetESDsData(kESDnTotClustersPerDE)->Fill(deID);
- GetESDsData(kESDClusterCharge)->Fill(cluster->GetCharge());
GetESDsData(kESDClusterChargeInCh+chId)->Fill(cluster->GetCharge());
- GetESDsData(kESDClusterChargePerDE)->Fill(deID, cluster->GetCharge());
+ GetESDsData(kESDSumClusterChargePerDE)->Fill(deID, cluster->GetCharge());
if (cluster->GetNDigits() > 0) { // discard clusters with pad not stored in ESD
- GetESDsData(kESDClusterMult)->Fill(cluster->GetNDigits());
- GetESDsData(kESDClusterMultInCh+chId)->Fill(cluster->GetNDigits());
- GetESDsData(kESDClusterMultPerDE)->Fill(deID, cluster->GetNDigits());
+ GetESDsData(kESDnTotFullClustersPerDE)->Fill(deID);
+ GetESDsData(kESDClusterSizeInCh+chId)->Fill(cluster->GetNDigits());
+ GetESDsData(kESDSumClusterSizePerDE)->Fill(deID, cluster->GetNDigits());
}
- GetESDsData(kESDResidualX)->Fill(residualX);
- GetESDsData(kESDResidualY)->Fill(residualY);
GetESDsData(kESDResidualXInCh+chId)->Fill(residualX);
GetESDsData(kESDResidualYInCh+chId)->Fill(residualY);
- GetESDsData(kESDResidualXPerDEMean)->Fill(deID, residualX);
- GetESDsData(kESDResidualYPerDEMean)->Fill(deID, residualY);
- GetESDsData(kESDResidualXPerDESigma)->Fill(deID, residualX*residualX);
- GetESDsData(kESDResidualYPerDESigma)->Fill(deID, residualY*residualY);
+ GetESDsData(kESDSumResidualXPerDE)->Fill(deID, residualX);
+ GetESDsData(kESDSumResidualYPerDE)->Fill(deID, residualY);
+ GetESDsData(kESDSumResidualX2PerDE)->Fill(deID, residualX*residualX);
+ GetESDsData(kESDSumResidualY2PerDE)->Fill(deID, residualY*residualY);
+
+ GetESDsData(kESDLocalChi2XInCh+chId)->Fill(localChi2X);
+ GetESDsData(kESDLocalChi2YInCh+chId)->Fill(localChi2Y);
+ GetESDsData(kESDSumLocalChi2XPerDE)->Fill(deID, localChi2X);
+ GetESDsData(kESDSumLocalChi2YPerDE)->Fill(deID, localChi2Y);
trackParam = static_cast<AliMUONTrackParam*>(track->GetTrackParamAtCluster()->After(trackParam));
}
/// Display trigger information in a user-friendly way:
/// from local board and strip numbers to their position on chambers
//
+
if(task!=AliQA::kRECPOINTS && task!=AliQA::kRAWS) return;
AliMUONTriggerDisplay triggerDisplay;
ERaw hindex
= ( iCath == 0 ) ? kTriggerScalersBP : kTriggerScalersNBP;
histoStrips = (TH3F*)GetRawsData(hindex);
- if(histoStrips->GetEntries()==0) return; // No scalers found
+ if(histoStrips->GetEntries()==0) continue; // No scalers found
}
for (Int_t iChamber = 0; iChamber < AliMpConstants::NofTriggerChambers(); iChamber++)
histoStrips->GetXaxis()->SetRange(bin,bin);
TH2F* inputHisto = (TH2F*)histoStrips->Project3D("zy");
triggerDisplay.FillDisplayHistogram(inputHisto, histoDisplayStrips, AliMUONTriggerDisplay::kDisplayStrips, iCath, iChamber);
+ if(task==AliQA::kRAWS) {
+ Float_t acquisitionTime = ((TH1F*)GetRawsData(kTriggerScalersTime))->GetBinContent(1);
+ histoDisplayStrips->Scale(1./acquisitionTime);
+ }
} // iChamber
} // iCath
- if(task!=AliQA::kRECPOINTS) return;
- TH1F* histoBoards = (TH1F*)GetRecPointsData(kTriggeredBoards);
- TH2F* histoDisplayBoards = (TH2F*)GetRecPointsData(kTriggerBoardsDisplay);
- triggerDisplay.FillDisplayHistogram(histoBoards, histoDisplayBoards, AliMUONTriggerDisplay::kDisplayBoards, 0, 0);
+ if(task==AliQA::kRAWS){
+ TH2F* histoI = (TH2F*) GetRawsData(kTriggerRPCi);
+ TH2F* histoHV = (TH2F*) GetRawsData(kTriggerRPChv);
+ FillTriggerDCSHistos();
+ for (Int_t iChamber = 0; iChamber < AliMpConstants::NofTriggerChambers(); iChamber++) {
+ Int_t bin = histoI->GetXaxis()->FindBin(11+iChamber);
+ TH2F* histoDisplayI = (TH2F*)GetRawsData(kTriggerIDisplay + iChamber);
+ triggerDisplay.FillDisplayHistogram(histoI->ProjectionY("_px", bin, bin), histoDisplayI, AliMUONTriggerDisplay::kDisplaySlats, 0, iChamber);
+ TH2F* histoDisplayHV = (TH2F*)GetRawsData(kTriggerHVDisplay + iChamber);
+ bin = histoHV->GetXaxis()->FindBin(11+iChamber);
+ triggerDisplay.FillDisplayHistogram(histoHV->ProjectionY("_px", bin, bin), histoDisplayHV, AliMUONTriggerDisplay::kDisplaySlats, 0, iChamber);
+ }
+ }
+
+ if(task==AliQA::kRECPOINTS){
+ TH1F* histoBoards = (TH1F*)GetRecPointsData(kTriggeredBoards);
+ TH2F* histoDisplayBoards = (TH2F*)GetRecPointsData(kTriggerBoardsDisplay);
+ triggerDisplay.FillDisplayHistogram(histoBoards, histoDisplayBoards, AliMUONTriggerDisplay::kDisplayBoards, 0, 0);
+ }
+}
+
+
+//_____________________________________________________________________________
+Bool_t
+AliMUONQADataMakerRec::FillTriggerDCSHistos()
+{
+ /// Get HV and currents values for one trigger chamber
+
+ AliCodeTimerAuto("");
+
+ AliMUONCalibrationData calibrationData(AliCDBManager::Instance()->GetRun());
+
+ TMap* triggerDcsMap = calibrationData.TriggerDCS();
+
+ if ( !triggerDcsMap )
+ {
+ AliError("Cannot fill DCS histos, as triggerDcsMap is NULL");
+ return kFALSE;
+ }
+
+ AliMpDEIterator deIt;
+
+ deIt.First();
+
+ AliMpDCSNamer triggerDcsNamer("TRIGGER");
+
+ TH2* currHisto = 0x0;
+
+ Bool_t error = kFALSE;
+
+ while ( !deIt.IsDone() )
+ {
+ Int_t detElemId = deIt.CurrentDEId();
+
+ if ( AliMpDEManager::GetStationType(detElemId) == AliMp::kStationTrigger) {
+
+ Int_t iChamber = AliMpDEManager::GetChamberId(detElemId);
+ Int_t slat = detElemId%100;
+
+ for(Int_t iMeas=0; iMeas<AliMpDCSNamer::kNDCSMeas; iMeas++){
+ TString currAlias = triggerDcsNamer.DCSChannelName(detElemId, 0, iMeas);
+
+ AliDebug(2, Form("\nDetElemId %i dcsAlias %s", detElemId, currAlias.Data()));
+
+ TPair* triggerDcsPair = static_cast<TPair*>(triggerDcsMap->FindObject(currAlias.Data()));
+
+ if (!triggerDcsPair)
+ {
+ AliError(Form("Did not find expected alias (%s) for DE %d",
+ currAlias.Data(),detElemId));
+ error = kTRUE;
+ }
+ else
+ {
+ TObjArray* values = static_cast<TObjArray*>(triggerDcsPair->Value());
+ if (!values)
+ {
+ AliError(Form("Could not get values for alias %s",currAlias.Data()));
+ error = kTRUE;
+ }
+ else
+ {
+ TIter next(values);
+ AliDCSValue* val;
+
+ while ( ( val = static_cast<AliDCSValue*>(next()) ) )
+ {
+ Float_t hvi = val->GetFloat();
+
+ AliDebug(2, Form("Value %f", hvi));
+
+ switch(iMeas){
+ case AliMpDCSNamer::kDCSI:
+ currHisto = (TH2F*) GetRawsData(kTriggerRPCi);
+ break;
+ case AliMpDCSNamer::kDCSHV:
+ currHisto = (TH2F*) GetRawsData(kTriggerRPChv);
+ break;
+ }
+ Int_t binX = currHisto->GetXaxis()->FindBin(iChamber+1);
+ Int_t binY = currHisto->GetYaxis()->FindBin(slat);
+ currHisto->SetBinContent(binX, binY, hvi);
+ } // loop on values
+ } // if (!values)
+ } // if (!triggerDcsPair)
+ } // loop on measured types (HV and currents)
+ } // if (stationType == kStationTrigger)
+
+ deIt.Next();
+ }
+ return error;
+}
+
+//____________________________________________________________________________
+AliMUONVTrackerData* AliMUONQADataMakerRec::GetTrackerData() const
+{
+
+ return fTrackerDataMaker->Data();
+
}