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#include <ZDCDigiStudy.h>
Definition at line 49 of file ZDCDigiStudy.h.
| ZDCDigiStudy::ZDCDigiStudy | ( | const edm::ParameterSet & | ps | ) |
Definition at line 30 of file ZDCDigiStudy.cc.
References checkHit_, dbe_, edm::ParameterSet::getUntrackedParameter(), cppFunctionSkipper::operator, outFile_, DQMStore::setVerbose(), DQMStore::showDirStructure(), stor::utils::sleep(), AlCaHLTBitMon_QueryRunRegistry::string, verbose_, and zdcHits.
{
zdcHits = ps.getUntrackedParameter<std::string>("HitCollection","ZdcHits");
outFile_ = ps.getUntrackedParameter<std::string>("outputFile", "zdcHitStudy.root");
verbose_ = ps.getUntrackedParameter<bool>("Verbose", false);
checkHit_= true;
edm::LogInfo("ZDCDigiStudy")
//std::cout
<< " Hits: "
<< zdcHits << " / "<< checkHit_
<< " Output: " << outFile_;
dbe_ = edm::Service<DQMStore>().operator->();
if (dbe_) {
if (verbose_) {
dbe_->setVerbose(1);
sleep (3);
dbe_->showDirStructure();
} else {
dbe_->setVerbose(0);
}
}
}
| ZDCDigiStudy::~ZDCDigiStudy | ( | ) |
Definition at line 55 of file ZDCDigiStudy.cc.
{}
| void ZDCDigiStudy::analyze | ( | const edm::Event & | e, |
| const edm::EventSetup & | c | ||
| ) | [protected, virtual] |
Implements edm::EDAnalyzer.
Definition at line 213 of file ZDCDigiStudy.cc.
References HcalZDCDetId::channel(), MonitorElement::Fill(), edm::Event::getByLabel(), i, ZDCDataFrame::id(), meZdcfCNEMvHAD, meZdcfCNHAD, meZdcfCNTOT, meZdcfCPEMvHAD, meZdcfCPHAD, meZdcfCPTOT, meZdcNEM1fCvsTS, meZdcNEM2fCvsTS, meZdcNEM3fCvsTS, meZdcNEM4fCvsTS, meZdcNEM5fCvsTS, meZdcNHAD1fCvsTS, meZdcNHAD2fCvsTS, meZdcNHAD3fCvsTS, meZdcNHAD4fCvsTS, meZdcPEM1fCvsTS, meZdcPEM2fCvsTS, meZdcPEM3fCvsTS, meZdcPEM4fCvsTS, meZdcPEM5fCvsTS, meZdcPHAD1fCvsTS, meZdcPHAD2fCvsTS, meZdcPHAD3fCvsTS, meZdcPHAD4fCvsTS, HcalQIESample::nominal_fC(), ZDCDataFrame::sample(), HcalZDCDetId::section(), ZDCDataFrame::size(), and HcalZDCDetId::zside().
{
using namespace edm;
bool gotZDCDigis=true;
Handle<ZDCDigiCollection> zdchandle;
if (!(iEvent.getByLabel("simHcalUnsuppressedDigis",zdchandle)))
{
gotZDCDigis=false; //this is a boolean set up to check if there are ZDCDigis in the input root file
}
if (!(zdchandle.isValid()))
{
gotZDCDigis=false; //if it is not there, leave it false
}
double totalPHADCharge=0;
double totalNHADCharge=0;
double totalPEMCharge=0;
double totalNEMCharge=0;
double totalPCharge=0;
double totalNCharge=0;
if (gotZDCDigis==true){
for (ZDCDigiCollection::const_iterator zdc = zdchandle->begin();
zdc!=zdchandle->end();
++zdc)
{
const ZDCDataFrame digi = (const ZDCDataFrame)(*zdc);
//std::cout <<"CHANNEL = "<<zdc->id().channel()<<std::endl;
if (digi.id().section()==2){ // require HAD
if (digi.id().zside()==1)
{ // require POS
for (int i=0;i<digi.size();++i) // loop over all 10 TS because each digi has 10 entries
{
if (digi.id().channel()==1){ //here i specify PHAD1
meZdcPHAD1fCvsTS->Fill(i,digi.sample(i).nominal_fC()); //filling the plot name with the nominal fC value for each TS
if (i==0) meZdcPHAD1fCvsTS->Fill(-1,1); // on first iteration of loop, increment underflow bin
}//NEW AVERAGE Thingy
if (digi.id().channel()==2){
meZdcPHAD2fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcPHAD2fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==3){
meZdcPHAD3fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcPHAD3fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==4){
meZdcPHAD4fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcPHAD4fCvsTS->Fill(-1,1);
}
totalPHADCharge+=digi.sample(i).nominal_fC(); //here i am looking for the total charge in PHAD so i sum over every TS and channel and add it up
} // loop over all (10) TS for the given digi
}
else {
for (int i=0; i<digi.size();++i)
{
if (digi.id().channel()==1){
meZdcNHAD1fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcNHAD1fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==2){
meZdcNHAD2fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcNHAD2fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==3){
meZdcNHAD3fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcNHAD3fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==4){
meZdcNHAD4fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcNHAD4fCvsTS->Fill(-1,1);
}
totalNHADCharge+=digi.sample(i).nominal_fC();
}
}
}
if (digi.id().section()==1){//require EM....here i do the smae thing that i did above but now for P/N EM sections
if (digi.id().zside()==1)
{//require pos
for (int i=0;i<digi.size();++i)
{
if (digi.id().channel()==1){
meZdcPEM1fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcPEM1fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==2){
meZdcPEM2fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcPEM2fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==3){
meZdcPEM3fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcPEM3fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==4){
meZdcPEM4fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcPEM4fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==5){
meZdcPEM5fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcPEM5fCvsTS->Fill(-1,1);
}
totalPEMCharge+=digi.sample(i).nominal_fC();
}
}
else {
for (int i=0;i<digi.size();++i)
{
if (digi.id().channel()==1){
meZdcNEM1fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcNEM1fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==2){
meZdcNEM2fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcNEM2fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==3){
meZdcNEM3fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcNEM3fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==4){
meZdcNEM4fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcNEM4fCvsTS->Fill(-1,1);
}
if (digi.id().channel()==5){
meZdcNEM5fCvsTS->Fill(i,digi.sample(i).nominal_fC());
if (i==0) meZdcNEM5fCvsTS->Fill(-1,1);
}
totalNEMCharge+=digi.sample(i).nominal_fC();
}
}
}
totalPCharge=totalPHADCharge+totalPEMCharge;
totalNCharge=totalNHADCharge+totalNEMCharge;
/* std::cout <<"CHANNEL = "<<digi.id().channel()<<std::endl;
for (int i=0;i<digi.size();++i)
std::cout <<"SAMPLE = "<<i<<" ADC = "<<digi.sample(i).adc()<<" fC = "<<digi.sample(i).nominal_fC()<<std::endl;
*/
// digi[i] should be the sample as digi.sample(i), I think
} // loop on all (22) ZDC digis
}
// Now fill total charge histogram
meZdcfCPEMvHAD->Fill(totalPHADCharge,totalPEMCharge);
meZdcfCNEMvHAD->Fill(totalNHADCharge,totalNEMCharge);
meZdcfCPHAD->Fill(totalPHADCharge);
meZdcfCNHAD->Fill(totalNHADCharge);
meZdcfCNTOT->Fill(totalNCharge);
meZdcfCPTOT->Fill(totalPCharge);
}
| void ZDCDigiStudy::beginJob | ( | void | ) | [protected, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 57 of file ZDCDigiStudy.cc.
References DQMStore::book1D(), DQMStore::book2D(), checkHit_, dbe_, MonitorElement::getTH2F(), meZdcfCNEMvHAD, meZdcfCNHAD, meZdcfCNTOT, meZdcfCPEMvHAD, meZdcfCPHAD, meZdcfCPTOT, meZdcNEM1fCvsTS, meZdcNEM2fCvsTS, meZdcNEM3fCvsTS, meZdcNEM4fCvsTS, meZdcNEM5fCvsTS, meZdcNHAD1fCvsTS, meZdcNHAD2fCvsTS, meZdcNHAD3fCvsTS, meZdcNHAD4fCvsTS, meZdcPEM1fCvsTS, meZdcPEM2fCvsTS, meZdcPEM3fCvsTS, meZdcPEM4fCvsTS, meZdcPEM5fCvsTS, meZdcPHAD1fCvsTS, meZdcPHAD2fCvsTS, meZdcPHAD3fCvsTS, meZdcPHAD4fCvsTS, MonitorElement::setAxisTitle(), and DQMStore::setCurrentFolder().
{
if (dbe_) {
dbe_->setCurrentFolder("ZDCDigiValidation");
//Histograms for Hits
//# Below we are filling the histograms made in the .h file. The syntax is as follows: #
//# plot_code_name = dbe_->TypeofPlot[(1,2,3)-D,(F,I,D)]("Name as it will appear","Title",axis options); #
//# They will be stored in the TFile subdirectory set by : dbe_->setCurrentFolder("FolderIwant") #
//# axis options are like (#ofbins,min,max) #
if (checkHit_) {
dbe_->setCurrentFolder("ZDCDigiValidation/ZDC_Digis/1D_fC");
meZdcfCPHAD = dbe_->book1D("PHAD_TotalfC","PZDC_HAD_TotalfC",1000,-50,950);
meZdcfCPHAD->setAxisTitle("Counts",2);
meZdcfCPHAD->setAxisTitle("fC",1);
meZdcfCPTOT = dbe_->book1D("PZDC_TotalfC","PZDC_TotalfC",1000,-50,950);
meZdcfCPTOT->setAxisTitle("Counts",2);
meZdcfCPTOT->setAxisTitle("fC",1);
meZdcfCNHAD = dbe_->book1D("NHAD_TotalfC","NZDC_HAD_TotalfC",1000,-50,950);
meZdcfCNHAD->setAxisTitle("Counts",2);
meZdcfCNHAD->setAxisTitle("fC",1);
meZdcfCNTOT = dbe_->book1D("NZDC_TotalfC","NZDC_TotalfC",1000,-50,950);
meZdcfCNTOT->setAxisTitle("Counts",2);
meZdcfCNTOT->setAxisTitle("fC",1);
dbe_->setCurrentFolder("ZDCDigiValidation/ZDC_Digis/fCvsTS/PZDC");
meZdcPEM1fCvsTS = dbe_->book1D("PEM1_fCvsTS","P-EM1_AveragefC_vsTS",10,0,9);
meZdcPEM1fCvsTS->setAxisTitle("fC",2);
meZdcPEM1fCvsTS->setAxisTitle("TS",1);
meZdcPEM2fCvsTS = dbe_->book1D("PEM2_fCvsTS","P-EM2_AveragefC_vsTS",10,0,9);
meZdcPEM2fCvsTS->setAxisTitle("fC",2);
meZdcPEM2fCvsTS->setAxisTitle("TS",1);
meZdcPEM3fCvsTS = dbe_->book1D("PEM3_fCvsTS","P-EM3_AveragefC_vsTS",10,0,9);
meZdcPEM3fCvsTS->setAxisTitle("fC",2);
meZdcPEM3fCvsTS->setAxisTitle("TS",1);
meZdcPEM4fCvsTS = dbe_->book1D("PEM4_fCvsTS","P-EM4_AveragefC_vsTS",10,0,9);
meZdcPEM4fCvsTS->setAxisTitle("fC",2);
meZdcPEM4fCvsTS->setAxisTitle("TS",1);
meZdcPEM5fCvsTS = dbe_->book1D("PEM5_fCvsTS","P-EM5_AveragefC_vsTS",10,0,9);
meZdcPEM5fCvsTS->setAxisTitle("fC",2);
meZdcPEM5fCvsTS->setAxisTitle("TS",1);
meZdcPHAD1fCvsTS = dbe_->book1D("PHAD1_fCvsTS","P-HAD1_AveragefC_vsTS",10,0,9);
meZdcPHAD1fCvsTS->setAxisTitle("fC",2);
meZdcPHAD1fCvsTS->setAxisTitle("TS",1);
meZdcPHAD2fCvsTS = dbe_->book1D("PHAD2_fCvsTS","P-HAD2_AveragefC_vsTS",10,0,9);
meZdcPHAD2fCvsTS->setAxisTitle("fC",2);
meZdcPHAD2fCvsTS->setAxisTitle("TS",1);
meZdcPHAD3fCvsTS = dbe_->book1D("PHAD3_fCvsTS","P-HAD3_AveragefC_vsTS",10,0,9);
meZdcPHAD3fCvsTS->setAxisTitle("fC",2);
meZdcPHAD3fCvsTS->setAxisTitle("TS",1);
meZdcPHAD4fCvsTS = dbe_->book1D("PHAD4_fCvsTS","P-HAD4_AveragefC_vsTS",10,0,9);
meZdcPHAD4fCvsTS->setAxisTitle("fC",2);
meZdcPHAD4fCvsTS->setAxisTitle("TS",1);
dbe_->setCurrentFolder("ZDCDigiValidation/ZDC_Digis/fCvsTS/NZDC");
meZdcNEM1fCvsTS = dbe_->book1D("NEM1_fCvsTS","N-EM1_AveragefC_vsTS",10,0,9);
meZdcNEM1fCvsTS->setAxisTitle("fC",2);
meZdcNEM1fCvsTS->setAxisTitle("TS",1);
meZdcNEM2fCvsTS = dbe_->book1D("NEM2_fCvsTS","N-EM2_AveragefC_vsTS",10,0,9);
meZdcNEM2fCvsTS->setAxisTitle("fC",2);
meZdcNEM2fCvsTS->setAxisTitle("TS",1);
meZdcNEM3fCvsTS = dbe_->book1D("NEM3_fCvsTS","N-EM3_AveragefC_vsTS",10,0,9);
meZdcNEM3fCvsTS->setAxisTitle("fC",2);
meZdcNEM3fCvsTS->setAxisTitle("TS",1);
meZdcNEM4fCvsTS = dbe_->book1D("NEM4_fCvsTS","N-EM4_AveragefC_vsTS",10,0,9);
meZdcNEM4fCvsTS->setAxisTitle("fC",2);
meZdcNEM4fCvsTS->setAxisTitle("TS",1);
meZdcNEM5fCvsTS = dbe_->book1D("NEM5_fCvsTS","N-EM5_AveragefC_vsTS",10,0,9);
meZdcNEM5fCvsTS->setAxisTitle("fC",2);
meZdcNEM5fCvsTS->setAxisTitle("TS",1);
meZdcNHAD1fCvsTS = dbe_->book1D("NHAD1_fCvsTS","N-HAD1_AveragefC_vsTS",10,0,9);
meZdcNHAD1fCvsTS->setAxisTitle("fC",2);
meZdcNHAD1fCvsTS->setAxisTitle("TS",1);
meZdcNHAD2fCvsTS = dbe_->book1D("NHAD2_fCvsTS","N-HAD2_AveragefC_vsTS",10,0,9);
meZdcNHAD2fCvsTS->setAxisTitle("fC",2);
meZdcNHAD2fCvsTS->setAxisTitle("TS",1);
meZdcNHAD3fCvsTS = dbe_->book1D("NHAD3_fCvsTS","N-HAD3_AveragefC_vsTS",10,0,9);
meZdcNHAD3fCvsTS->setAxisTitle("fC",2);
meZdcNHAD3fCvsTS->setAxisTitle("TS",1);
meZdcNHAD4fCvsTS = dbe_->book1D("NHAD4_fCvsTS","N-HAD4_AveragefC_vsTS",10,0,9);
meZdcNHAD4fCvsTS->setAxisTitle("fC",2);
meZdcNHAD4fCvsTS->setAxisTitle("TS",1);
dbe_->setCurrentFolder("ZDCDigiValidation/ZDC_Digis/2D_EMvHAD");
meZdcfCPEMvHAD = dbe_->book2D("PEMvPHAD","PZDC_EMvHAD",1000,-25,1000,1000,-25,1000);
meZdcfCPEMvHAD->setAxisTitle("SumEM_fC",2);
meZdcfCPEMvHAD->setAxisTitle("SumHAD_fC",1);
meZdcfCPEMvHAD->getTH2F()->SetOption("colz");
meZdcfCNEMvHAD = dbe_->book2D("NEMvNHAD","NZDC_EMvHAD",1000,-25,1000,1000,-25,1000);
meZdcfCNEMvHAD->setAxisTitle("SumEM_fC",2);
meZdcfCNEMvHAD->setAxisTitle("SumHAD_fC",1);
meZdcfCNEMvHAD->getTH2F()->SetOption("colz");
}
}
}
| void ZDCDigiStudy::endJob | ( | void | ) | [protected, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 208 of file ZDCDigiStudy.cc.
References dbe_, outFile_, and DQMStore::save().
| void ZDCDigiStudy::endRun | ( | const edm::Run & | run, |
| const edm::EventSetup & | c | ||
| ) | [protected, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 382 of file ZDCDigiStudy.cc.
References MonitorElement::getTH1F(), meZdcNEM1fCvsTS, meZdcNEM2fCvsTS, meZdcNEM3fCvsTS, meZdcNEM4fCvsTS, meZdcNEM5fCvsTS, meZdcNHAD1fCvsTS, meZdcNHAD2fCvsTS, meZdcNHAD3fCvsTS, meZdcNHAD4fCvsTS, meZdcPEM1fCvsTS, meZdcPEM2fCvsTS, meZdcPEM3fCvsTS, meZdcPEM4fCvsTS, meZdcPEM5fCvsTS, meZdcPHAD1fCvsTS, meZdcPHAD2fCvsTS, meZdcPHAD3fCvsTS, meZdcPHAD4fCvsTS, and nevents.
{
int nevents=(meZdcPHAD1fCvsTS->getTH1F())->GetBinContent(0); //grab the number of digis that were read in and stored in the underflow bin, and call them Nevents
(meZdcPHAD1fCvsTS->getTH1F())->Scale(1./nevents); // divide histogram by nevents thereby creating an average..it was done this way so that in DQM when everything is done in parallel and added at the end then the average will add appropriately
int nevents1=(meZdcPHAD2fCvsTS->getTH1F())->GetBinContent(0);
(meZdcPHAD2fCvsTS->getTH1F())->Scale(1./nevents1);
int nevents2=(meZdcPHAD3fCvsTS->getTH1F())->GetBinContent(0);
(meZdcPHAD3fCvsTS->getTH1F())->Scale(1./nevents2);
int nevents3=(meZdcPHAD4fCvsTS->getTH1F())->GetBinContent(0);
(meZdcPHAD4fCvsTS->getTH1F())->Scale(1./nevents3);
int nevents4=(meZdcNHAD1fCvsTS->getTH1F())->GetBinContent(0);
(meZdcNHAD1fCvsTS->getTH1F())->Scale(1./nevents4);
int nevents5=(meZdcNHAD2fCvsTS->getTH1F())->GetBinContent(0);
(meZdcNHAD2fCvsTS->getTH1F())->Scale(1./nevents5);
int nevents6=(meZdcNHAD3fCvsTS->getTH1F())->GetBinContent(0);
(meZdcNHAD3fCvsTS->getTH1F())->Scale(1./nevents6);
int nevents7=(meZdcNHAD4fCvsTS->getTH1F())->GetBinContent(0);
(meZdcNHAD4fCvsTS->getTH1F())->Scale(1./nevents7);
int nevents8=(meZdcPEM1fCvsTS->getTH1F())->GetBinContent(0);
(meZdcPEM1fCvsTS->getTH1F())->Scale(1./nevents8);
int nevents9=(meZdcPEM2fCvsTS->getTH1F())->GetBinContent(0);
(meZdcPEM2fCvsTS->getTH1F())->Scale(1./nevents9);
int nevents10=(meZdcPEM3fCvsTS->getTH1F())->GetBinContent(0);
(meZdcPEM3fCvsTS->getTH1F())->Scale(1./nevents10);
int nevents11=(meZdcPEM4fCvsTS->getTH1F())->GetBinContent(0);
(meZdcPEM4fCvsTS->getTH1F())->Scale(1./nevents11);
int nevents12=(meZdcPEM5fCvsTS->getTH1F())->GetBinContent(0);
(meZdcPEM5fCvsTS->getTH1F())->Scale(1./nevents12);
int nevents13=(meZdcNEM1fCvsTS->getTH1F())->GetBinContent(0);
(meZdcNEM1fCvsTS->getTH1F())->Scale(1./nevents13);
int nevents14=(meZdcNEM2fCvsTS->getTH1F())->GetBinContent(0);
(meZdcNEM2fCvsTS->getTH1F())->Scale(1./nevents14);
int nevents15=(meZdcNEM3fCvsTS->getTH1F())->GetBinContent(0);
(meZdcNEM3fCvsTS->getTH1F())->Scale(1./nevents15);
int nevents16=(meZdcNEM4fCvsTS->getTH1F())->GetBinContent(0);
(meZdcNEM4fCvsTS->getTH1F())->Scale(1./nevents16);
int nevents17=(meZdcNEM5fCvsTS->getTH1F())->GetBinContent(0);
(meZdcNEM5fCvsTS->getTH1F())->Scale(1./nevents17);
}
| int ZDCDigiStudy::FillHitValHist | ( | int | side, |
| int | section, | ||
| int | channel, | ||
| double | energy, | ||
| double | time | ||
| ) | [protected] |
bool ZDCDigiStudy::checkHit_ [private] |
Definition at line 75 of file ZDCDigiStudy.h.
Referenced by beginJob(), and ZDCDigiStudy().
DQMStore* ZDCDigiStudy::dbe_ [private] |
Definition at line 76 of file ZDCDigiStudy.h.
Referenced by beginJob(), endJob(), and ZDCDigiStudy().
MonitorElement* ZDCDigiStudy::meZdcfCNEMvHAD [private] |
Definition at line 87 of file ZDCDigiStudy.h.
Referenced by analyze(), and beginJob().
MonitorElement* ZDCDigiStudy::meZdcfCNHAD [private] |
Definition at line 84 of file ZDCDigiStudy.h.
Referenced by analyze(), and beginJob().
MonitorElement* ZDCDigiStudy::meZdcfCNTOT [private] |
Definition at line 85 of file ZDCDigiStudy.h.
Referenced by analyze(), and beginJob().
MonitorElement* ZDCDigiStudy::meZdcfCPEMvHAD [private] |
Definition at line 86 of file ZDCDigiStudy.h.
Referenced by analyze(), and beginJob().
MonitorElement* ZDCDigiStudy::meZdcfCPHAD [private] |
Definition at line 82 of file ZDCDigiStudy.h.
Referenced by analyze(), and beginJob().
MonitorElement* ZDCDigiStudy::meZdcfCPTOT [private] |
Definition at line 83 of file ZDCDigiStudy.h.
Referenced by analyze(), and beginJob().
MonitorElement* ZDCDigiStudy::meZdcNEM1fCvsTS [private] |
Definition at line 97 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcNEM2fCvsTS [private] |
Definition at line 98 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcNEM3fCvsTS [private] |
Definition at line 99 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcNEM4fCvsTS [private] |
Definition at line 100 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcNEM5fCvsTS [private] |
Definition at line 101 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcNHAD1fCvsTS [private] |
Definition at line 102 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcNHAD2fCvsTS [private] |
Definition at line 103 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcNHAD3fCvsTS [private] |
Definition at line 104 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcNHAD4fCvsTS [private] |
Definition at line 105 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcPEM1fCvsTS [private] |
Definition at line 88 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcPEM2fCvsTS [private] |
Definition at line 89 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcPEM3fCvsTS [private] |
Definition at line 90 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcPEM4fCvsTS [private] |
Definition at line 91 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcPEM5fCvsTS [private] |
Definition at line 92 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcPHAD1fCvsTS [private] |
Definition at line 93 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcPHAD2fCvsTS [private] |
Definition at line 94 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcPHAD3fCvsTS [private] |
Definition at line 95 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
MonitorElement* ZDCDigiStudy::meZdcPHAD4fCvsTS [private] |
Definition at line 96 of file ZDCDigiStudy.h.
Referenced by analyze(), beginJob(), and endRun().
std::string ZDCDigiStudy::outFile_ [private] |
Definition at line 74 of file ZDCDigiStudy.h.
Referenced by endJob(), and ZDCDigiStudy().
bool ZDCDigiStudy::verbose_ [private] |
Definition at line 75 of file ZDCDigiStudy.h.
Referenced by ZDCDigiStudy().
std::string ZDCDigiStudy::zdcHits [private] |
Definition at line 74 of file ZDCDigiStudy.h.
Referenced by ZDCDigiStudy().
1.7.3