// Online values (using FEE channel numbering),
// stored into local V0_Pedestals.dat:
// Online values (using FEE channel numbering),
// stored into local V0_Pedestals.dat:
// Offline values(same but ordered as in aliroot for offliners)
// stored into V0_Ped_Width_Gain.dat:
// Offline values(same but ordered as in aliroot for offliners)
// stored into V0_Ped_Width_Gain.dat:
- Double_t ADCmean_Off[128];
- Double_t ADCsigma_Off[128];
- Double_t PEDmean_Off[128];
- Double_t PEDsigma_Off[128];
+ Double_t adcMeanOff[128];
+ Double_t adcSigmaOff[128];
+ Double_t pedMeanOff[128];
+ Double_t pedSigmaOff[128];
//___________________________________________________
// Book HISTOGRAMS - dynamics of p-p collisions -
//___________________________________________________
// Book HISTOGRAMS - dynamics of p-p collisions -
- hADCname[i] = new TH1F(ADCname,texte,1024,-0.5, 1023.5);
- sprintf(PEDname,"hPED%d",i);
+ hADCname[i] = new TH1F(adcName,texte,1024,-0.5, 1023.5);
+ sprintf(pedName,"hPED%d",i);
- hPEDname[i] = new TH1F(PEDname,texte,1024,-0.5, 1023.5);
+ hPEDname[i] = new TH1F(pedName,texte,1024,-0.5, 1023.5);
}
if(nFlag == 0){ // Fill 64*2 pedestal histograms - 2 integrators -
for(Int_t j=kClockMin;j <= kClockMax;j++){
}
if(nFlag == 0){ // Fill 64*2 pedestal histograms - 2 integrators -
for(Int_t j=kClockMin;j <= kClockMax;j++){
//___________________________________________________________________________
// Computes mean values, converts FEE channels into Offline AliRoot channels
//___________________________________________________________________________
// Computes mean values, converts FEE channels into Offline AliRoot channels
for(Int_t i=0; i<128; i++) {
hPEDname[i]->GetXaxis()->SetRange(0,kHighCut);
for(Int_t i=0; i<128; i++) {
hPEDname[i]->GetXaxis()->SetRange(0,kHighCut);
- ADCmean[i] = hADCname[i]->GetMean();
- ADCsigma[i] = hADCname[i]->GetRMS();
-// printf(" i = %d, %.3f %.3f %.3f %.3f\n",i,PEDmean[i],PEDsigma[i],ADCmean[i],ADCsigma[i]);
- fprintf(fpLocal," %.3f %.3f %.3f %.3f\n",PEDmean[i],PEDsigma[i],
- ADCmean[i],ADCsigma[i]);
+ adcMean[i] = hADCname[i]->GetMean();
+ adcSigma[i] = hADCname[i]->GetRMS();
+// printf(" i = %d, %.3f %.3f %.3f %.3f\n",i,pedMean[i],pedSigma[i],adcMean[i],adcSigma[i]);
+ fprintf(fpLocal," %.3f %.3f %.3f %.3f\n",pedMean[i],pedSigma[i],
+ adcMean[i],adcSigma[i]);
- PEDmean_Off[j] = PEDmean[i];
- PEDsigma_Off[j] = PEDsigma[i];
- ADCmean_Off[j] = ADCmean[i];
- ADCsigma_Off[j] = ADCsigma[i]; }
+ pedMeanOff[j] = pedMean[i];
+ pedSigmaOff[j] = pedSigma[i];
+ adcMeanOff[j] = adcMean[i];
+ adcSigmaOff[j] = adcSigma[i]; }
- PEDmean_Off[j+64] = PEDmean[i];
- PEDsigma_Off[j+64] = PEDsigma[i];
- ADCmean_Off[j+64] = ADCmean[i];
- ADCsigma_Off[j+64] = ADCsigma[i];
+ pedMeanOff[j+64] = pedMean[i];
+ pedSigmaOff[j+64] = pedSigma[i];
+ adcMeanOff[j+64] = adcMean[i];
+ adcSigmaOff[j+64] = adcSigma[i];
-// printf(" j = %d, %.3f %.3f %.3f %.3f\n",j,PEDmean_Off[j],PEDsigma_Off[j],
-// ADCmean_Off[j],ADCsigma_Off[j]);
- fprintf(fp," %.3f %.3f %.3f %.3f\n",PEDmean_Off[j],PEDsigma_Off[j],
- ADCmean_Off[j],ADCsigma_Off[j]);
+// printf(" j = %d, %.3f %.3f %.3f %.3f\n",j,pedMeanOff[j],pedSigmaOff[j],
+// adcMeanOff[j],adcSigmaOff[j]);
+ fprintf(fp," %.3f %.3f %.3f %.3f\n",pedMeanOff[j],pedSigmaOff[j],
+ adcMeanOff[j],adcSigmaOff[j]);