}
//______________________________________________________________________
void AliITSOnlineSDDTP::Reset(){
- //
+ // reset all counters
for(Int_t i=0;i<fgkNAnodes;i++){
fNEvents[i]=0;
fGoodAnode[i]=1;
//______________________________________________________________________
void AliITSOnlineSDDTP::AddEvent(TH2F* hrawd){
- //
+ // analyzes current event and sum its contribution to the various counters
for(Int_t ian=0;ian<fgkNAnodes;ian++){
Float_t auxmax=0.;
Int_t auxtb=0;
//______________________________________________________________________
void AliITSOnlineSDDTP::ReadBaselines(){
// assume baselines and good anodes are taken from previous run
- Char_t basfilnam[100];
- sprintf(basfilnam,"SDDbase_step2_ddl%02dc%02d_sid%d.data",fDDL,fCarlos,fSide);
- FILE* basf=fopen(basfilnam,"r");
+ TString basfilnam;
+ basfilnam.Form("SDDbase_step2_ddl%02dc%02d_sid%d.data",fDDL,fCarlos,fSide);
+ FILE* basf=fopen(basfilnam.Data(),"r");
if(basf==0){
AliWarning(Form("Baseline file not present (ddl %d carlos %d side %d, Set all baselines to 20",fDDL,fCarlos,fSide));
for(Int_t ian=0;ian<fgkNAnodes;ian++){
}
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");
fBaseline[ian]=base;
fEqBaseline[ian]=eqbase;
fOffsetBaseline[ian]=offbase;
}
//______________________________________________________________________
void AliITSOnlineSDDTP::ValidateAnodes(){
- //
+ // tag good/bad channels
Float_t meang,rmsg;
StatGain(meang,rmsg);
Float_t lowlim=meang-fNSigmaGain*rmsg;
//______________________________________________________________________
-void AliITSOnlineSDDTP::StatGain(Float_t &mean, Float_t &rms){
- //
+void AliITSOnlineSDDTP::StatGain(Float_t &mean, Float_t &rms) const {
+ // compute average gain and rms
Float_t sum=0.,sumq=0.;
Int_t cnt=0;
for(Int_t ian=0;ian<fgkNAnodes;ian++){
if(!fGoodAnode[ian]) continue;
if(fNEvents[ian]==0) continue;
- sum+=GetChannelGain(ian);
- sumq+=TMath::Power(GetChannelGain(ian),2);
+ Float_t chgain=GetChannelGain(ian);
+ sum+=chgain;
+ sumq+=chgain*chgain;
cnt++;
}
if(cnt>0){
mean=sum/(Float_t)cnt;
- rms=TMath::Sqrt(sumq/(Float_t)cnt-mean*mean);
+ Float_t variance=sumq/(Float_t)cnt-mean*mean;
+ if(variance>0.) rms=TMath::Sqrt(variance);
+ else rms = 0;
}else{
mean=0.;
rms=0.;
//______________________________________________________________________
void AliITSOnlineSDDTP::WriteToASCII(){
- //
- Char_t outfilnam[100];
- sprintf(outfilnam,"SDDbase_ddl%02dc%02d_sid%d.data",fDDL,fCarlos,fSide);
- FILE* outf=fopen(outfilnam,"w");
+ // writes parameters of each channel into an ASCII file
+ // to be sent to FXS by the DA and processed by the SHUTTLE
+
+ TString outfilnam;
+ outfilnam.Form("SDDbase_ddl%02dc%02d_sid%d.data",fDDL,fCarlos,fSide);
+ FILE* outf=fopen(outfilnam.Data(),"w");
fprintf(outf,"%d %d %d\n",fCarlos,fSide,IsModuleGood());
fprintf(outf,"%d\n",fHighThreshold);
fprintf(outf,"%d\n",fLowThreshold);
fclose(outf);
}
//______________________________________________________________________
+TH1F* AliITSOnlineSDDTP::GetBaselineAnodeHisto() const {
+ // produce histogram with baseline vs. anode number
+ TString hisnam;
+ hisnam.Form("hbase%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F* h=new TH1F(hisnam.Data(),"",256,-0.5,255.5);
+ for(Int_t ian=0;ian<fgkNAnodes;ian++){
+ h->SetBinContent(ian+1,GetAnodeBaseline(ian));
+ }
+ return h;
+}
+//______________________________________________________________________
+TH1F* AliITSOnlineSDDTP::GetRawNoiseAnodeHisto() const {
+ // produce histogram with raw noise vs. anode number
+ TString hisnam;
+ hisnam.Form("hnois%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F* h=new TH1F(hisnam.Data(),"",256,-0.5,255.5);
+ for(Int_t ian=0;ian<fgkNAnodes;ian++){
+ h->SetBinContent(ian+1,GetAnodeRawNoise(ian));
+ }
+ return h;
+}
+//______________________________________________________________________
+TH1F* AliITSOnlineSDDTP::GetCorrNoiseAnodeHisto() const {
+ // produce histogram with corrected noise vs. anode number
+ TString hisnam;
+ hisnam.Form("hcorn%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F* h=new TH1F(hisnam.Data(),"",256,-0.5,255.5);
+ for(Int_t ian=0;ian<fgkNAnodes;ian++){
+ h->SetBinContent(ian+1,GetAnodeCorrNoise(ian));
+ }
+ return h;
+}
+//______________________________________________________________________
+TH1F* AliITSOnlineSDDTP::GetCMNCoefAnodeHisto() const {
+ // produce histogram with coefficients for common mode noise subtraction
+ TString hisnam;
+ hisnam.Form("hcmn%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F* h=new TH1F(hisnam.Data(),"",256,-0.5,255.5);
+ for(Int_t ian=0;ian<fgkNAnodes;ian++){
+ h->SetBinContent(ian+1,GetAnodeCommonMode(ian));
+ }
+ return h;
+}
+//______________________________________________________________________
+TH1F* AliITSOnlineSDDTP::GetStatusAnodeHisto() const {
+ // produce histogram with status bit of each anode
+ TString hisnam;
+ hisnam.Form("hgood%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F* h=new TH1F(hisnam.Data(),"",256,-0.5,255.5);
+ for(Int_t ian=0;ian<fgkNAnodes;ian++){
+ h->SetBinContent(ian+1,float(IsAnodeGood(ian)));
+ }
+ return h;
+}
+//______________________________________________________________________
+TH1F* AliITSOnlineSDDTP::GetGainAnodeHisto() const {
+ // produce histogram with gain vs. anode number
+ TString hisnam;
+ hisnam.Form("hgain%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F* h=new TH1F(hisnam.Data(),"",256,-0.5,255.5);
+ for(Int_t ian=0;ian<fgkNAnodes;ian++){
+ h->SetBinContent(ian+1,GetChannelGain(ian));
+ }
+ return h;
+}
+//______________________________________________________________________
Bool_t AliITSOnlineSDDTP::WriteToROOT(TFile *fil){
- //
+ // writes output into a root file
if(fil==0){
AliWarning("Invalid pointer to ROOT file");
return kFALSE;
}
- Char_t hisnam[20];
+ TString hisnam;
fil->cd();
- sprintf(hisnam,"hgood%02dc%02ds%d",fDDL,fCarlos,fSide);
- TH1F hgood(hisnam,"",256,-0.5,255.5);
- sprintf(hisnam,"hbase%02dc%02ds%d",fDDL,fCarlos,fSide);
- TH1F hbase(hisnam,"",256,-0.5,255.5);
- sprintf(hisnam,"hnois%02dc%02ds%d",fDDL,fCarlos,fSide);
- TH1F hnois(hisnam,"",256,-0.5,255.5);
- sprintf(hisnam,"hcmn%02dc%02ds%d",fDDL,fCarlos,fSide);
- TH1F hcmn(hisnam,"",256,-0.5,255.5);
- sprintf(hisnam,"hcorn%02dc%02ds%d",fDDL,fCarlos,fSide);
- TH1F hcorn(hisnam,"",256,-0.5,255.5);
- sprintf(hisnam,"hgain%02dc%02ds%d",fDDL,fCarlos,fSide);
- TH1F hgain(hisnam,"",256,-0.5,255.5);
+ hisnam.Form("hgood%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F hgood(hisnam.Data(),"",256,-0.5,255.5);
+ hisnam.Form("hbase%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F hbase(hisnam.Data(),"",256,-0.5,255.5);
+ hisnam.Form("hnois%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F hnois(hisnam.Data(),"",256,-0.5,255.5);
+ hisnam.Form("hcmn%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F hcmn(hisnam.Data(),"",256,-0.5,255.5);
+ hisnam.Form("hcorn%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F hcorn(hisnam.Data(),"",256,-0.5,255.5);
+ hisnam.Form("hgain%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F hgain(hisnam.Data(),"",256,-0.5,255.5);
+ hisnam.Form("htptb%02dc%02ds%d",fDDL,fCarlos,fSide);
+ TH1F htptb(hisnam.Data(),"",256,-0.5,255.5);
for(Int_t ian=0;ian<fgkNAnodes;ian++){
hgood.SetBinContent(ian+1,float(IsAnodeGood(ian)));
hbase.SetBinContent(ian+1,GetAnodeBaseline(ian));
hcmn.SetBinContent(ian+1,GetAnodeCommonMode(ian));
hcorn.SetBinContent(ian+1,GetAnodeCorrNoise(ian));
hgain.SetBinContent(ian+1,GetChannelGain(ian));
+ htptb.SetBinContent(ian+1,GetTimeBinTPPeak(ian));
}
hgood.Write();
hbase.Write();
hcmn.Write();
hcorn.Write();
hgain.Write();
+ htptb.Write();
return kTRUE;
}