Add2RawsList(hZNASpectrum, 1, expert, !image);
Add2RawsList(hZPCSpectrum, 2, expert, !image);
Add2RawsList(hZPASpectrum, 3, expert, !image);
- Add2RawsList(hZEM1Spectrum, 4, !expert, image);
- Add2RawsList(hZEM2Spectrum, 5, !expert, image);
+ Add2RawsList(hZEM1Spectrum, 4, expert, !image);
+ Add2RawsList(hZEM2Spectrum, 5, expert, !image);
//
TH2F * hZNCpmCvsPMq = new TH2F("hZNCpmCvsPMq", "ZNC;PMC [ADC counts];Sum(PMQ) [ADC counts]",50,8.,1208.,50,8., 1208.);
TH2F * hZPCpmCvsPMq = new TH2F("hZPCpmCvsPMq", "ZPC;PMC [ADC counts];Sum(PMQ) [ADC counts]",50,8.,1208.,50,8., 1208.);
TH2F * hZNApmCvsPMq = new TH2F("hZNApmCvsPMq", "ZNA;PMC [ADC counts];Sum(PMQ) [ADC counts]",50,8.,1208.,50,8., 1208.);
TH2F * hZPApmCvsPMq = new TH2F("hZPApmCvsPMq", "ZPA;PMC [ADC counts];Sum(PMQ) [ADC counts]",50,8.,1208.,50,8., 1208.);
- Add2RawsList(hZNCpmCvsPMq, 6, !expert, image);
- Add2RawsList(hZNApmCvsPMq, 7, !expert, image);
- Add2RawsList(hZPCpmCvsPMq, 8, !expert, image);
- Add2RawsList(hZPApmCvsPMq, 9, !expert, image);
+ Add2RawsList(hZNCpmCvsPMq, 6, expert, !image);
+ Add2RawsList(hZNApmCvsPMq, 7, expert, !image);
+ Add2RawsList(hZPCpmCvsPMq, 8, expert, !image);
+ Add2RawsList(hZPApmCvsPMq, 9, expert, !image);
TH1F * hRawPMCZNC = new TH1F("hRawPMCZNC", "Raw ZNC PMC;Amplitude [ADC counts];Counts",100, 8., 1208.);
TH1F * hRawPMCZNA = new TH1F("hRawPMCZNA", "Raw ZNA PMC;Amplitude [ADC counts];Counts",100, 8., 1208.);
Add2RawsList(hRawSumQZPA, 17, expert, !image);
TH1F * hRawTDCZEM1 = new TH1F("hRawTDCZEM1", "Raw TDC ZEM1;TDC [ns]",160, -100., -60.);
- Add2RawsList(hRawTDCZEM1, 18, !expert, image);
+ Add2RawsList(hRawTDCZEM1, 18, expert, !image);
TH1F * hRawTDCZPC = new TH1F("hRawTDCZPC", "Raw TDC ZPC;TDC [ns]",160, -100., -60.);
- Add2RawsList(hRawTDCZPC, 19, !expert, image);
-
+ Add2RawsList(hRawTDCZPC, 19, expert, !image);
+
+ TProfile * hRawADCProfs = new TProfile("hRawADCProfs", "ADC profiles;ADC id;Mean ADC values",22,-0.5,21.5,10.,1210.,"");
+ Add2RawsList(hRawADCProfs, 20, expert, !image);
+ TProfile * hRawTDCProfs = new TProfile("hRawTDCProfs", "TDC profiles;TDC id;Mean TDC values",6,0.5,6.5,-100.,-60.,"S");
+ Add2RawsList(hRawTDCProfs, 21, expert, !image);
+
+ TH1F * hRawADCs = new TH1F("hRawADCs", "ADCs;ADC id;Mean ADC values",22,-0.5,21.5);
+ hRawADCs->SetMinimum(10);
+ Add2RawsList(hRawADCs, 22, !expert, image);
+
+ TH1F * hRawTDCs = new TH1F("hRawTDCs", "TDCs;TDC id;Mean TDC values",6,0.5,6.5);
+ hRawTDCs->SetMaximum(-60);
+ Add2RawsList(hRawTDCs, 23, !expert, image);
+
+ TH2F *hZNCrawCentr = new TH2F("hZNCrawCentr", "Centroid in ZNC;X (cm);Y(cm)", 100, -5.,5.,100,-5.,5.);
+ Add2RawsList(hZNCrawCentr, 24, expert, !image);
+ TH2F *hZNArawCentr = new TH2F("hZNArawCentr", "Centroid in ZNA;X (cm);Y(cm)", 100, -5.,5.,100,-5.,5.);
+ Add2RawsList(hZNArawCentr, 25, expert, !image);
+
+ TH1F *hRawCentr = new TH1F("hRawCentr","Centroid in ZNCs; ZNC-ZNA coordinates; Coordinate value (cm)", 4, 0.5, 4.5);
+ Add2RawsList(hRawCentr, 26, !expert, image);
}
//____________________________________________________________________________
const Bool_t expert = kTRUE ;
const Bool_t image = kTRUE ;
- TH2F * hZNCcentr = new TH2F("hZNCcentr", "Centroid in ZNC;X [cm];Y[cm]", 100, -5.,5.,100,-5.,5.);
- TH2F * hZNAcentr = new TH2F("hZNAcentr", "Centroid in ZNA;X [cm];Y[cm]", 100, -5.,5.,100,-5.,5.);
+ TH2F * hZNCcentr = new TH2F("hZNCcentr", "Centroid in ZNC;X (cm);Y(cm)", 100, -5.,5.,100,-5.,5.);
+ TH2F * hZNAcentr = new TH2F("hZNAcentr", "Centroid in ZNA;X (cm);Y(cm)", 100, -5.,5.,100,-5.,5.);
Add2ESDsList(hZNCcentr, 0, !expert, image);
Add2ESDsList(hZNAcentr, 1, !expert, image);
//
Float_t zncpmC=0., znapmC=0., zpcpmC=0., zpapmC=0.;
Bool_t isZNCFired=kFALSE, isZPCFired=kFALSE, isZNAFired=kFALSE, isZPAFired=kFALSE;
Int_t indZNC=0, indZNA=0, indZPC=0, indZPA=0;
- Float_t zpcTDC[10], zem1TDC[10];
+ Float_t zncTDC[10], zpcTDC[10], zem1TDC[10], zem2TDC[10], znaTDC[10], zpaTDC[10];
for(Int_t i=0; i<10; i++){
- zpcTDC[i] = zem1TDC[i] = -999.;
+ zncTDC[i]=zpcTDC[i]=zem1TDC[i]=zem2TDC[i]=znaTDC[i]=zpaTDC[i]=-999.;
}
Float_t tdcL0=-999.;
- Int_t iMultZPCTDC=0, iMultZEMTDC=0;
+ Int_t iMultZNCTDC=0, iMultZPCTDC=0, iMultZEM1TDC=0, iMultZEM2TDC=0, iMultZNATDC=0, iMultZPATDC=0;
+
+ const Float_t x[4] = {-1.75, 1.75, -1.75, 1.75};
+ const Float_t y[4] = {-1.75, -1.75, 1.75, 1.75};
+ const Float_t alpha=0.5;
+ Float_t numXZNC=0., numYZNC=0., denZNC=0., wZNC=0.;
+ Float_t numXZNA=0., numYZNA=0., denZNA=0., wZNA=0.;
rawReader->Reset();
AliZDCRawStream stream(rawReader);
// Stuff for pedestal subtraction
if(quad != 5){ // ZDCs (not reference PTMs)
+ Float_t pedSubVal=-99.;
if(det == 1){
pedindex = quad;
if(gain == 0){
- Float_t pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
+ pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
zncSignal += pedSubVal;
isZNCFired = kTRUE;
- if(quad!=0) zncSumQ += pedSubVal;
+ if(quad!=0){
+ zncSumQ += pedSubVal;
+ if(pedSubVal>0.&& zncpmC>50.){
+ wZNC = TMath::Power(pedSubVal, alpha);
+ numXZNC += x[quad-1]*wZNC;
+ numYZNC += y[quad-1]*wZNC;
+ denZNC += wZNC;
+ }
+ }
else{
zncpmC = pedSubVal;
GetRawsData(10)->Fill(zncpmC);
}
indZNC++;
+
+ GetRawsData(20)->Fill(pedindex, pedSubVal);
}
}
else if(det == 2){
pedindex = quad+5;
if(gain == 0){
- Float_t pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
+ pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
zpcSignal += pedSubVal;
isZPCFired = kTRUE;
if(quad!=0) zpcSumQ += pedSubVal;
GetRawsData(12)->Fill(zpcpmC);
}
indZPC++;
+
+ GetRawsData(20)->Fill(pedindex, pedSubVal);
}
}
else if(det == 3){
pedindex = quad+9;
if(quad==1){
if(gain == 0){
- Float_t pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
+ pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
GetRawsData(4)->Fill(pedSubVal);
+
+ GetRawsData(20)->Fill(pedindex, pedSubVal);
}
}
else if(quad==2){
if(gain == 0){
- Float_t pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
+ pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
GetRawsData(5)->Fill(pedSubVal);
+
+ GetRawsData(20)->Fill(pedindex, pedSubVal);
}
}
}
else if(det == 4){
pedindex = quad+12;
if(gain == 0){
- Float_t pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
+ pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
znaSignal += pedSubVal;
isZNAFired = kTRUE;
- if(quad!=0) znaSumQ += pedSubVal;
+ if(quad!=0){
+ znaSumQ += pedSubVal;
+ if(pedSubVal>0.&& znapmC>50.) {
+ wZNA = TMath::Power(pedSubVal, alpha);
+ numXZNA += x[quad-1]*wZNA;
+ numYZNA += y[quad-1]*wZNA;
+ denZNA += wZNA;
+ }
+ }
else{
znapmC = pedSubVal;
GetRawsData(11)->Fill(znapmC);
}
indZNA++;
+
+ GetRawsData(20)->Fill(pedindex, pedSubVal);
+ //GetRawsData(22)->SetBinContent(pedindex+1, GetRawsData(20)->GetBinContent(pedindex+1));
+ //GetRawsData(22)->SetBinError(pedindex+1, GetRawsData(20)->GetBinError(pedindex+1));
}
}
else if(det == 5){
pedindex = quad+17;
if(gain == 0){
- Float_t pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
+ pedSubVal = (Float_t) (stream.GetADCValue()-meanPed[pedindex]);
zpaSignal += pedSubVal;
isZPAFired = kTRUE;
if(quad!=0) zpaSumQ += pedSubVal;
GetRawsData(13)->Fill(zpapmC);
}
indZPA++;
+
+ GetRawsData(20)->Fill(pedindex, pedSubVal);
+ //GetRawsData(22)->SetBinContent(pedindex+1, GetRawsData(20)->GetBinContent(pedindex+1));
+ //GetRawsData(22)->SetBinError(pedindex+1, GetRawsData(20)->GetBinError(pedindex+1));
}
}
- }
- //
+
+ }
+
if(isZNCFired && indZNC==5){
GetRawsData(0)->Fill(zncSignal);
GetRawsData(6)->Fill(zncpmC, zncSumQ);
GetRawsData(14)->Fill(zncSumQ);
+ //
+ Float_t xZNC, yZNC;
+ if(denZNC!=0){
+ xZNC = numXZNC/denZNC;
+ yZNC = numYZNC/denZNC;
+ }
+ else xZNC = yZNC = 999.;
+ GetRawsData(24)->Fill(xZNC, yZNC);
}
if(isZPCFired && indZPC==5){
GetRawsData(2)->Fill(zpcSignal);
GetRawsData(16)->Fill(zpcSumQ);
}
if(isZNAFired && indZNA==5){
- GetRawsData(1)->Fill(znaSignal);
- GetRawsData(7)->Fill(znapmC, znaSumQ);
- GetRawsData(15)->Fill(znaSumQ);
+ GetRawsData(1)->Fill(znaSignal);
+ GetRawsData(7)->Fill(znapmC, znaSumQ);
+ GetRawsData(15)->Fill(znaSumQ);
+ //
+ Float_t xZNA, yZNA;
+ if(denZNA!=0){
+ xZNA = numXZNA/denZNA;
+ yZNA = numYZNA/denZNA;
+ }
+ else xZNA = yZNA = 999.;
+ GetRawsData(25)->Fill(xZNA, yZNA);
}
if(isZPAFired && indZPA==5){
- GetRawsData(3)->Fill(zpaSignal);
- GetRawsData(9)->Fill(zpapmC, zpaSumQ);
- GetRawsData(17)->Fill(zpaSumQ);
+ GetRawsData(3)->Fill(zpaSignal);
+ GetRawsData(9)->Fill(zpapmC, zpaSumQ);
+ GetRawsData(17)->Fill(zpaSumQ);
}
if(indZNC==5){
zpaSignal = zpaSumQ = zpapmC = 0;
isZPAFired=kFALSE; indZPA=0;
}
-
+
} //IsADCDataWord && signal ADCs
else if(stream.IsZDCTDCDatum()){
- if(stream.GetChannel()==3){
+ if(stream.GetChannel()==1){
+ zncTDC[iMultZNCTDC] = (0.025*(stream.GetZDCTDCDatum()));
+ iMultZNCTDC++;
+ }
+ else if(stream.GetChannel()==3){
zpcTDC[iMultZPCTDC] = (0.025*(stream.GetZDCTDCDatum()));
iMultZPCTDC++;
}
+ else if(stream.GetChannel()==5){
+ znaTDC[iMultZNATDC] = (0.025*(stream.GetZDCTDCDatum()));
+ iMultZNATDC++;
+ }
+ else if(stream.GetChannel()==7){
+ zpaTDC[iMultZPATDC] = (0.025*(stream.GetZDCTDCDatum()));
+ iMultZPATDC++;
+ }
else if(stream.GetChannel()==8){
- zem1TDC[iMultZEMTDC] = (0.025*(stream.GetZDCTDCDatum()));
- iMultZEMTDC++;
+ zem1TDC[iMultZEM1TDC] = (0.025*(stream.GetZDCTDCDatum()));
+ iMultZEM1TDC++;
+ }
+ else if(stream.GetChannel()==9){
+ zem2TDC[iMultZEM2TDC] = (0.025*(stream.GetZDCTDCDatum()));
+ iMultZEM2TDC++;
}
else if(stream.GetChannel()==16) tdcL0 = (0.025*(stream.GetZDCTDCDatum()));
if(stream.GetChannel()==16 && tdcL0!=-999.){
for(Int_t iHit=0; iHit<10; iHit++){
+ if(zncTDC[iHit]!=-999.){
+ GetRawsData(21)->Fill(1, zncTDC[iHit]-tdcL0);
+ //GetRawsData(23)->SetBinContent(1, GetRawsData(21)->GetBinContent(1));
+ }
if(zpcTDC[iHit]!=-999.){
Float_t diffZPC = zpcTDC[iHit]-tdcL0;
GetRawsData(19)->Fill(diffZPC);
+ GetRawsData(21)->Fill(2, diffZPC);
+ //GetRawsData(23)->SetBinContent(2, GetRawsData(21)->GetBinContent(3));
+ }
+ if(znaTDC[iHit]!=-999.){
+ GetRawsData(21)->Fill(3, znaTDC[iHit]-tdcL0);
+ //GetRawsData(23)->SetBinContent(3, GetRawsData(21)->GetBinContent(5));
+ }
+ if(zpaTDC[iHit]!=-999.){
+ GetRawsData(21)->Fill(4, zpaTDC[iHit]-tdcL0);
+ //GetRawsData(23)->SetBinContent(4, GetRawsData(21)->GetBinContent(7));
}
if(zem1TDC[iHit]!=-999.){
Float_t diffZEM1 = zem1TDC[iHit]-tdcL0;
GetRawsData(18)->Fill(diffZEM1);
+ GetRawsData(21)->Fill(5, diffZEM1);
+ //GetRawsData(23)->SetBinContent(5, GetRawsData(21)->GetBinContent(8));
}
+ if(zem2TDC[iHit]!=-999.){
+ GetRawsData(21)->Fill(6, zem2TDC[iHit]-tdcL0);
+ //GetRawsData(23)->SetBinContent(6, GetRawsData(21)->GetBinContent(9));
+ }
}
//
tdcL0 = -999.;
//Detector specific actions at end of cycle
// do the QA checking
if( task == AliQAv1::kRAWS){
- if (!GetRawsData(4) || !GetRawsData(5) || !GetRawsData(6) || !GetRawsData(7) ||
- !GetRawsData(8) || !GetRawsData(9) || !GetRawsData(10) || !GetRawsData(11) ||
- !GetRawsData(12) || !GetRawsData(13)) {
- printf(" WARNING!!! AliZDCQADataMaker Rec -> No histogram for DQM found!\n");
+ if (!GetRawsData(20) || !GetRawsData(21) || !GetRawsData(24) || !GetRawsData(25)) {
+ printf(" WARNING!!! AliZDCQADataMaker Rec -> Not all histogram for DQM found!\n");
}
else{
-
- GetRawsData(6)->SetOption("colz");
- GetRawsData(7)->SetOption("colz");
- GetRawsData(8)->SetOption("colz");
- GetRawsData(9)->SetOption("colz");
-
- GetRawsData(4)->SetLineColor(kAzure+1); GetRawsData(4)->SetLineWidth(2);
- GetRawsData(5)->SetLineColor(kAzure+2); GetRawsData(5)->SetLineWidth(2);
- GetRawsData(10)->SetLineColor(kBlue); GetRawsData(10)->SetLineWidth(2);
- GetRawsData(11)->SetLineColor(kBlue+1); GetRawsData(11)->SetLineWidth(2);
- GetRawsData(12)->SetLineColor(kBlue+2); GetRawsData(12)->SetLineWidth(2);
- GetRawsData(13)->SetLineColor(kBlue+3); GetRawsData(13)->SetLineWidth(2);
-
- /*if(((GetRawsData(4))->GetEntries())>0) GetRawsData(4)->SetDrawOption("LOGY");
- if(((GetRawsData(5))->GetEntries())>0) GetRawsData(5)->SetDrawOption("LOGY");
- if(((GetRawsData(10))->GetEntries())>0) GetRawsData(10)->SetDrawOption("LOGY");
- if(((GetRawsData(11))->GetEntries())>0) GetRawsData(11)->SetDrawOption("LOGY");
- if(((GetRawsData(12))->GetEntries())>0) GetRawsData(12)->SetDrawOption("LOGY");
- if(((GetRawsData(13))->GetEntries())>0) GetRawsData(13)->SetDrawOption("LOGY");*/
+ for(Int_t ibin=1; ibin<=GetRawsData(20)->GetNbinsX(); ibin++){
+ GetRawsData(22)->SetBinContent(ibin, GetRawsData(20)->GetBinContent(ibin));
+ GetRawsData(22)->SetBinError(ibin, GetRawsData(20)->GetBinError(ibin));
+ GetRawsData(22)->SetLineColor(kBlue); GetRawsData(22)->SetLineWidth(2);
+ }
+ for(Int_t ibin=1; ibin<=GetRawsData(21)->GetNbinsX(); ibin++){
+ GetRawsData(23)->SetBinContent(ibin, GetRawsData(21)->GetBinContent(ibin));
+ GetRawsData(23)->SetBinError(ibin, GetRawsData(21)->GetBinError(ibin));
+ GetRawsData(23)->SetLineColor(kAzure-3); GetRawsData(23)->SetLineWidth(2);
+ }
+ //
+ Double_t xznc = GetRawsData(24)->GetMean(1);
+ Double_t yznc = GetRawsData(24)->GetMean(2);
+ GetRawsData(26)->SetBinContent(1., xznc);
+ GetRawsData(26)->SetBinContent(2., yznc);
+ Double_t xzna = GetRawsData(25)->GetMean(1);
+ Double_t yzna = GetRawsData(25)->GetMean(2);
+ GetRawsData(26)->SetBinContent(3., xzna);
+ GetRawsData(26)->SetBinContent(4., yzna);
+ GetRawsData(26)->SetLineColor(kPink-9); GetRawsData(26)->SetLineWidth(2);
+ GetRawsData(26)->SetOption("E");
}
}