// INFN Torino
// --- ROOT system ---
+#include <TH2.h>
#include <TTree.h>
// --- Standard library ---
AliITSQADataMakerRec::AliITSQADataMakerRec(Bool_t kMode, Short_t subDet, Short_t ldc) :
AliQADataMakerRec(AliQA::GetDetName(AliQA::kITS), "ITS Quality Assurance Data Maker"),
fkOnline(kMode),
+fHLTMode(0),
fSubDetector(subDet),
fLDC(ldc),
fSPDDataMaker(NULL),
if(fSubDetector == 0 || fSubDetector == 2) {
AliDebug(1,"AliITSQADM::Create SDD DataMakerRec\n");
fSDDDataMaker = new AliITSQASDDDataMakerRec(this,fkOnline);
+ if(fkOnline){SetHLTMode(fSDDDataMaker->GetHLTMode()); }
}
if(fSubDetector == 0 || fSubDetector == 3) {
AliDebug(1,"AliITSQADM::Create SSD DataMakerRec\n");
AliITSQADataMakerRec::AliITSQADataMakerRec(const AliITSQADataMakerRec& qadm) :
AliQADataMakerRec(),
fkOnline(qadm.fkOnline),
+fHLTMode(qadm.fHLTMode),
fSubDetector(qadm.fSubDetector),
fLDC(qadm.fLDC),
fSPDDataMaker(NULL),
AliQAChecker *qac = AliQAChecker::Instance();
AliITSQAChecker *qacb = (AliITSQAChecker *) qac->GetDetQAChecker(0);
if(fSubDetector == 0 ){
- qacb->SetTaskOffset(fSPDDataMaker->GetOffset(), fSDDDataMaker->GetOffset(), fSSDDataMaker->GetOffset()); //Setting the offset for the QAChecker list
+ qacb->SetTaskOffset(fSPDDataMaker->GetOffset(), fSDDDataMaker->GetOffset(task), fSSDDataMaker->GetOffset()); //Setting the offset for the QAChecker list
}
qac->Run( AliQA::kITS , task, list); //temporary skipping the checking
}
{
// Create ESDs histograms in ESDs subdir
+ Bool_t expertHistogram = kTRUE;
+
TH1F *hESDClustersMI =
new TH1F("hESDClustersMI", "N ITS clusters per track (MI); N clusters; Counts",
7, -0.5, 6.5);
6, -0.5, 5.5);
hESDClusterMapMI->Sumw2();
hESDClusterMapMI->SetMinimum(0);
- Add2ESDsList(hESDClusterMapMI, 1);
+ Add2ESDsList(hESDClusterMapMI, 1, expertHistogram);
TH1F *hESDClustersSA =
new TH1F("hESDClustersSA", "N ITS clusters per track (SA); N clusters; Counts",
6, -0.5, 5.5);
hESDClusterMapSA->Sumw2();
hESDClusterMapSA->SetMinimum(0);
- Add2ESDsList(hESDClusterMapSA, 3);
+ Add2ESDsList(hESDClusterMapSA, 3, expertHistogram);
TH1F *hSPDVertexX =
new TH1F("hSPDVertexX","SPD Vertex x; x [cm]; N events",
new TH1F("hSPDVertexContrOverMult","SPD Vertex: contributors / multiplicity; N contributors / SPD multiplicity; N events",
100,-4,20);
hSPDVertexContrOverMult->Sumw2();
- Add2ESDsList(hSPDVertexContrOverMult, 7);
+ Add2ESDsList(hSPDVertexContrOverMult, 7, expertHistogram);
TH1F *hTrkVertexX =
new TH1F("hTrkVertexX","ITS+TPC Trk Vertex x; x [cm]; N events",
10000,-2,2);
hTrkVertexX->Sumw2();
- Add2ESDsList(hTrkVertexX, 8);
+ Add2ESDsList(hTrkVertexX, 8, expertHistogram);
TH1F *hTrkVertexY =
new TH1F("hTrkVertexY","ITS+TPC Trk Vertex y; y [cm]; N events",
10000,-2,2);
hTrkVertexY->Sumw2();
- Add2ESDsList(hTrkVertexY, 9);
+ Add2ESDsList(hTrkVertexY, 9, expertHistogram);
TH1F *hTrkVertexZ =
new TH1F("hTrkVertexZ","ITS+TPC Trk Vertex Z; z [cm]; N events",
10000,-20,20);
hTrkVertexZ->Sumw2();
- Add2ESDsList(hTrkVertexZ, 10);
+ Add2ESDsList(hTrkVertexZ, 10, expertHistogram);
TH1F *hTrkVertexContrOverITSrefit5 =
new TH1F("hTrkVertexContrOverITSrefit5","ITS+TPC Trk Vertex: contributors / tracks; N contributors / N trks kITSrefit with 5 or 6 clusters; N events",
100,-4,2);
hTrkVertexContrOverITSrefit5->Sumw2();
- Add2ESDsList(hTrkVertexContrOverITSrefit5, 11);
+ Add2ESDsList(hTrkVertexContrOverITSrefit5, 11, expertHistogram);
TH1F *hSPDTrkVertexDeltaX =
new TH1F("hSPDTrkVertexDeltaX","Comparison of SPD and Trk vertices: x; xSPD-xTrk [cm]; N events",
1000,-1,1);
hSPDTrkVertexDeltaX->Sumw2();
- Add2ESDsList(hSPDTrkVertexDeltaX, 12);
+ Add2ESDsList(hSPDTrkVertexDeltaX, 12, expertHistogram);
TH1F *hSPDTrkVertexDeltaY =
new TH1F("hSPDTrkVertexDeltaY","Comparison of SPD and Trk vertices: y; ySPD-yTrk [cm]; N events",
1000,-1,1);
hSPDTrkVertexDeltaY->Sumw2();
- Add2ESDsList(hSPDTrkVertexDeltaY, 13);
+ Add2ESDsList(hSPDTrkVertexDeltaY, 13, expertHistogram);
TH1F *hSPDTrkVertexDeltaZ =
new TH1F("hSPDTrkVertexDeltaZ","Comparison of SPD and Trk vertices: z; zSPD-zTrk [cm]; N events",
hSPDTrkVertexDeltaZ->Sumw2();
Add2ESDsList(hSPDTrkVertexDeltaZ, 14);
+ // SPD Tracklets
+
+ TH1F* hSPDTracklets =
+ new TH1F("hSPDTracklets","N SPD Tracklets; N tracklets; Counts",300,0.,300.);
+ hSPDTracklets->Sumw2();
+ Add2ESDsList(hSPDTracklets, 15);
+
+ TH2F* hSPDTrackletsvsFiredChips0 =
+ new TH2F("hSPDTrackletsvsFiredChips0","N SPD Tracklets vs N FiredChips Layer0",
+ 300,0.,300.,300,0.,300.);
+ hSPDTrackletsvsFiredChips0->GetXaxis()->SetTitle("N SPD Tracklets");
+ hSPDTrackletsvsFiredChips0->GetYaxis()->SetTitle("N FiredChips Layer0");
+ hSPDTrackletsvsFiredChips0->Sumw2();
+ Add2ESDsList(hSPDTrackletsvsFiredChips0, 16, expertHistogram );
+
+ TH2F* hSPDTrackletsvsFiredChips1 =
+ new TH2F("hSPDTrackletsvsFiredChips1","N SPD Tracklets vs N FiredChips Layer1",
+ 300,0.,300.,300,0.,300.);
+ hSPDTrackletsvsFiredChips1->GetXaxis()->SetTitle("N SPD Tracklets");
+ hSPDTrackletsvsFiredChips1->GetYaxis()->SetTitle("N FiredChips Layer1");
+ hSPDTrackletsvsFiredChips1->Sumw2();
+ Add2ESDsList(hSPDTrackletsvsFiredChips1, 17, expertHistogram);
+
+ TH1F* hSPDTrackletsDePhi =
+ new TH1F("hSPDTrackletsDePhi","DeltaPhi SPD Tracklets; DeltaPhi [rad]; N events",200,-0.2,0.2);
+ hSPDTrackletsDePhi->Sumw2();
+ Add2ESDsList(hSPDTrackletsDePhi, 18);
+
+ TH1F* hSPDTrackletsPhi =
+ new TH1F("hSPDTrackletsPhi","Phi SPD Tracklets; Phi [rad]; N events",1000,0.,2*TMath::Pi());
+ hSPDTrackletsPhi->Sumw2();
+ Add2ESDsList(hSPDTrackletsPhi, 19);
+
+ TH1F* hSPDTrackletsTheta =
+ new TH1F("hSPDTrackletsTheta","Theta SPD Tracklets; Theta [rad]; N events",500,0.,TMath::Pi());
+ hSPDTrackletsTheta->Sumw2();
+ Add2ESDsList(hSPDTrackletsTheta, 20);
+
+ // map of layers skipped by tracking (set in AliITSRecoParam)
+ TH1F *hESDSkippedLayers =
+ new TH1F("hESDSkippedLayers", "Map of layers skipped by tracking; Layer; Skipped",
+ 6, -0.5, 5.5);
+ hESDSkippedLayers->Sumw2();
+ hESDSkippedLayers->SetMinimum(0);
+ Add2ESDsList(hESDSkippedLayers, 21, expertHistogram);
+
+
return;
}
const Int_t nESDTracks = esd->GetNumberOfTracks();
Int_t nITSrefit5 = 0;
+ Int_t idet,status;
+ Float_t xloc,zloc;
+
// loop on tracks
for(Int_t i = 0; i < nESDTracks; i++) {
GetESDsData(3)->Fill(layer);
}
}
-
+ track->GetITSModuleIndexInfo(layer,idet,status,xloc,zloc);
+ if(status==3) GetESDsData(21)->SetBinContent(layer,1);
}
} // end loop on tracks
GetESDsData(14)->Fill(vtxSPD->GetZv()-vtxTrk->GetZv());
}
+ // SPD Tracklets
+ GetESDsData(15)->Fill(mult);
+
+ Short_t nFiredChips0 = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetNumberOfFiredChips(0);
+ Short_t nFiredChips1 = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetNumberOfFiredChips(1);
+ GetESDsData(16)->Fill(nFiredChips0,mult);
+ GetESDsData(17)->Fill(nFiredChips1,mult);
+
+ // Loop over tracklets
+ for (Int_t itr=0; itr<mult; ++itr) {
+ Float_t dePhiTr = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetDeltaPhi(itr);
+ Float_t phiTr = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetPhi(itr);
+ Float_t thetaTr = ((AliMultiplicity*)(esd->GetMultiplicity()))->GetTheta(itr);
+ GetESDsData(18)->Fill(dePhiTr);
+ GetESDsData(19)->Fill(phiTr);
+ GetESDsData(20)->Fill(thetaTr);
+ } // end loop on tracklets
+
return;
}