}
return;
}
- fscanf(basf,"%d\n",&fHighThreshold);
- fscanf(basf,"%d\n",&fLowThreshold);
+ Int_t check = fscanf(basf,"%d\n",&fHighThreshold);
+ if(check<1)AliError("Error while reading file with baselines");
+ check = fscanf(basf,"%d\n",&fLowThreshold);
+ if(check<1)AliError("Error while reading file with baselines");
Int_t n,ok,eqbase,offbase;
Float_t base,rms,cmn,corrnoi;
for(Int_t ian=0;ian<fgkNAnodes;ian++){
- fscanf(basf,"%d %d %f %d %d %f %f %f\n",&n,&ok,&base,&eqbase,&offbase,&rms,&cmn,&corrnoi);
+ check = fscanf(basf,"%d %d %f %d %d %f %f %f\n",&n,&ok,&base,&eqbase,&offbase,&rms,&cmn,&corrnoi);
+ if(check<1)AliError("Error while reading file with baselines");
fGoodAnode[ian]=ok;
fBaseline[ian]=base;
fEqBaseline[ian]=eqbase;
}
//______________________________________________________________________
-TH2F* AliITSOnlineSDDCMN::GetCleanEvent(TH2F* hrawd) const {
+TH2F* AliITSOnlineSDDCMN::GetCleanEvent(const TH2F* hrawd) const {
// Fills an histogram with counts corrected for common mode noise
TH2F* hcorrd=new TH2F("hcorrd","",hrawd->GetNbinsX(),hrawd->GetXaxis()->GetXmin(),hrawd->GetXaxis()->GetXmax(),hrawd->GetNbinsY(),hrawd->GetYaxis()->GetXmin(),hrawd->GetYaxis()->GetXmax());
sumQ+=cntdiff*cntdiff;
cnt++;
}
- fSumCorrNoise[ian]+=TMath::Sqrt(sumQ/(Float_t)cnt);
+ if(cnt != 0)fSumCorrNoise[ian]+=TMath::Sqrt(sumQ/(Float_t)cnt);
}
delete hcorrd;
}