else if(detector==4) hZNAhg[sector]->Fill(CorrADC);
else if(detector==5) hZPAhg[sector]->Fill(CorrADC);
// ---- ZEM
- else if(detector==3){
+ /*else if(detector==3){
hZEMhg[sector-1]->Fill(CorrADC);
- }
+ }*/
}
else if(rawStreamZDC->GetADCGain()==1){ // --- Low gain chain ---
// ---- side C
else if(detector==4) hZNAlg[sector]->Fill(CorrADC);
else if(detector==5) hZPAlg[sector]->Fill(CorrADC);
// ---- ZEM
- else if(detector==3) hZEMlg[sector-1]->Fill(CorrADC);
+ //else if(detector==3) hZEMlg[sector-1]->Fill(CorrADC);
}
}
// **** Reference PMs
mean[k+5] = (Float_t) (fun[k+5]->GetParameter(1));
sigma[k+5] = (Float_t) (fun[k+5]->GetParameter(2));
}
- // --- ZEM1
- if(k<2){
+ // --- ZEM
+/* if(k<2){
detector[k+10] = 3;
quad[k+10] = k+1;
maxBin[k+10] = hZEMhg[k]->GetMaximumBin();
if(nBin[k+10]!=0) maxXval[k+10] = maxBin[k+10]*xMax[k+10]/nBin[k+10];
if(maxXval[k+10]-150.<0.) xlow[k+10]=0.;
else xlow[k+10] = maxXval[k+10]-150.;
+ printf("ZEM%d: entries %1.0f mean %1.0f\n",k+1,hZEMhg[k]->GetEntries(),hZEMhg[k]->GetMean());
if(hZEMhg[k]->GetEntries()!=0 || hZEMhg[k]->GetMean()<=0){
atLeastOneHisto=1;
//
sigma[k+10] = (Float_t) (fun[k+10]->GetParameter(2));
}
}
+*/
// --- ZNA
detector[k+12] = 4;
quad[k+12] = k;
hZPClg[j]->Write();
hZNAlg[j]->Write();
hZPAlg[j]->Write();
- if(j<2){
+ /*if(j<2){
hZEMhg[j]->Write();
hZEMlg[j]->Write();
- }
+ }*/
}
hPMRefChg->Write();
hPMRefAhg->Write();
delete hZPClg[j];
delete hZNAlg[j];
delete hZPAlg[j];
- if(j<2){
+ /*if(j<2){
delete hZEMhg[j];
delete hZEMlg[j];
- }
+ }*/
}
delete hPMRefChg;
delete hPMRefAhg;