val[kBC] = ly;
val[kPhi] = TMath::ATan2(cl->GetX()*sn + cl->GetY()*cs, cl->GetX()*cs - cl->GetY()*sn);
val[kEta] = (5-stk)*16-cl->GetPadRow()-1-(stk<3?4:0);
- val[kYrez]= TMath::Abs(cl->GetQ());
- val[4] = fEvent->GetMultiplicity();
+ val[kYrez]= fEvent->GetMultiplicity();
+ val[4] = TMath::Abs(cl->GetQ());
val[5] = cl->IsFivePad()?1:cl->GetNPads();
H->Fill(val);
}
snprintf(hn, nhn, "h%s", fgPerformanceName[kDetector]);
if(!(H = (THnSparseI*)gROOT->FindObject(hn))){
const Int_t mdim(6);
- const Char_t *cldTitle[mdim] = {"layer", fgkTitle[kPhi], "pad row", "q [a.u.]", "centrality", "no. of pads"/*, "tb [10 Hz]"*/};
- const Int_t cldNbins[mdim] = {AliTRDgeometry::kNlayer, fgkNbins[kPhi], 76, 50, AliTRDeventInfo::kCentralityClasses, 7};
- const Double_t cldMin[mdim] = {-0.5, fgkMin[kPhi], -0.5, 0., -0.5, 0.5},
- cldMax[mdim] = {AliTRDgeometry::kNlayer-0.5, fgkMax[kPhi], 75.5, 1200., AliTRDeventInfo::kCentralityClasses - 0.5, 7.5};
+ const Char_t *cldTitle[mdim] = {"layer", fgkTitle[kPhi], "pad row", "centrality", "q [a.u.]", "no. of pads"/*, "tb [10 Hz]"*/};
+ const Int_t cldNbins[mdim] = {AliTRDgeometry::kNlayer, fgkNbins[kPhi], 76, AliTRDeventInfo::kCentralityClasses, 50, 7};
+ const Double_t cldMin[mdim] = {-0.5, fgkMin[kPhi], -0.5, -0.5, 0., 0.5},
+ cldMax[mdim] = {AliTRDgeometry::kNlayer-0.5, fgkMax[kPhi], 75.5, AliTRDeventInfo::kCentralityClasses - 0.5, 1200., 7.5};
st = "cluster proprieties;";
// define minimum info to be saved in non debug mode
Int_t ndim=DebugLevel()>=1?mdim:Int_t(kNdimDet);