#include <CastorPedestalsAnalysis.h>
Public Member Functions | |
void | analyze (const edm::Event &event, const edm::EventSetup &eventSetup) |
CastorPedestalsAnalysis (const edm::ParameterSet &ps) | |
virtual | ~CastorPedestalsAnalysis () |
Private Attributes | |
std::vector< NewPedBunch > | Bunches |
edm::InputTag | castorDigiCollectionTag |
TH1F * | CASTORMeans |
TH1F * | CASTORWidths |
TH2F * | dephist |
bool | dumpXML |
bool | firsttime |
int | firstTS |
bool | hiSaveFlag |
int | lastTS |
std::string | pedsADCfilename |
std::string | pedsfCfilename |
std::string | ROOTfilename |
int | runnum |
TFile * | theFile |
bool | verboseflag |
std::string | widthsADCfilename |
std::string | widthsfCfilename |
std::string | XMLfilename |
std::string | XMLtag |
std::string | ZSfilename |
Definition at line 73 of file CastorPedestalsAnalysis.h.
CastorPedestalsAnalysis::CastorPedestalsAnalysis | ( | const edm::ParameterSet & | ps | ) |
Definition at line 11 of file CastorPedestalsAnalysis.cc.
References dumpXML, firsttime, firstTS, edm::ParameterSet::getUntrackedParameter(), hiSaveFlag, lastTS, and verboseflag.
: castorDigiCollectionTag(ps.getParameter<edm::InputTag>("castorDigiCollectionTag")) { hiSaveFlag = ps.getUntrackedParameter<bool>("hiSaveFlag", false); dumpXML = ps.getUntrackedParameter<bool>("dumpXML", false); verboseflag = ps.getUntrackedParameter<bool>("verbose", false); firstTS = ps.getUntrackedParameter<int>("firstTS", 0); lastTS = ps.getUntrackedParameter<int>("lastTS", 9); firsttime = true; }
CastorPedestalsAnalysis::~CastorPedestalsAnalysis | ( | ) | [virtual] |
Definition at line 23 of file CastorPedestalsAnalysis.cc.
References CastorCondObjectContainer< Item >::addValues(), Bunches, CASTORMeans, CASTORWidths, gather_cfg::cout, dephist, CastorDbASCIIIO::dumpObject(), dumpXML, hiSaveFlag, i, pedsADCfilename, pedsfCfilename, runnum, CastorPedestalWidth::setSigma(), AlCaHLTBitMon_QueryRunRegistry::string, theFile, verboseflag, widthsADCfilename, widthsfCfilename, and XMLfilename.
{ CastorPedestals* rawPedsItem = new CastorPedestals(true); CastorPedestalWidths* rawWidthsItem = new CastorPedestalWidths(true); CastorPedestals* rawPedsItemfc = new CastorPedestals(false); CastorPedestalWidths* rawWidthsItemfc = new CastorPedestalWidths(false); //Calculate pedestal constants std::cout << "Calculating Pedestal constants...\n"; std::vector<NewPedBunch>::iterator bunch_it; for(bunch_it=Bunches.begin(); bunch_it != Bunches.end(); bunch_it++) { if(bunch_it->usedflag){ if(verboseflag) std::cout << "Analyzing channel sector= " << bunch_it->detid.sector() << " module = " << bunch_it->detid.module() << std::endl; //pedestal constant is the mean bunch_it->cap[0] /= bunch_it->num[0][0]; bunch_it->cap[1] /= bunch_it->num[1][1]; bunch_it->cap[2] /= bunch_it->num[2][2]; bunch_it->cap[3] /= bunch_it->num[3][3]; bunch_it->capfc[0] /= bunch_it->num[0][0]; bunch_it->capfc[1] /= bunch_it->num[1][1]; bunch_it->capfc[2] /= bunch_it->num[2][2]; bunch_it->capfc[3] /= bunch_it->num[3][3]; //widths are the covariance matrix--assumed symmetric bunch_it->sig[0][0] = (bunch_it->prod[0][0]/bunch_it->num[0][0])-(bunch_it->cap[0]*bunch_it->cap[0]); bunch_it->sig[0][1] = (bunch_it->prod[0][1]/bunch_it->num[0][1])-(bunch_it->cap[0]*bunch_it->cap[1]); bunch_it->sig[0][2] = (bunch_it->prod[0][2]/bunch_it->num[0][2])-(bunch_it->cap[0]*bunch_it->cap[2]); bunch_it->sig[0][3] = (bunch_it->prod[0][3]/bunch_it->num[0][3])-(bunch_it->cap[0]*bunch_it->cap[3]); bunch_it->sig[1][0] = (bunch_it->prod[1][0]/bunch_it->num[1][0])-(bunch_it->cap[1]*bunch_it->cap[0]); bunch_it->sig[1][1] = (bunch_it->prod[1][1]/bunch_it->num[1][1])-(bunch_it->cap[1]*bunch_it->cap[1]); bunch_it->sig[1][2] = (bunch_it->prod[1][2]/bunch_it->num[1][2])-(bunch_it->cap[1]*bunch_it->cap[2]); bunch_it->sig[1][3] = (bunch_it->prod[1][3]/bunch_it->num[1][3])-(bunch_it->cap[1]*bunch_it->cap[3]); bunch_it->sig[2][0] = (bunch_it->prod[2][0]/bunch_it->num[2][0])-(bunch_it->cap[2]*bunch_it->cap[0]); bunch_it->sig[2][1] = (bunch_it->prod[2][1]/bunch_it->num[2][1])-(bunch_it->cap[2]*bunch_it->cap[1]); bunch_it->sig[2][2] = (bunch_it->prod[2][2]/bunch_it->num[2][2])-(bunch_it->cap[2]*bunch_it->cap[2]); bunch_it->sig[2][3] = (bunch_it->prod[2][3]/bunch_it->num[2][3])-(bunch_it->cap[2]*bunch_it->cap[3]); bunch_it->sig[3][0] = (bunch_it->prod[3][0]/bunch_it->num[3][0])-(bunch_it->cap[3]*bunch_it->cap[0]); bunch_it->sig[3][1] = (bunch_it->prod[3][1]/bunch_it->num[3][1])-(bunch_it->cap[3]*bunch_it->cap[1]); bunch_it->sig[3][2] = (bunch_it->prod[3][2]/bunch_it->num[3][2])-(bunch_it->cap[3]*bunch_it->cap[2]); bunch_it->sig[3][3] = (bunch_it->prod[3][3]/bunch_it->num[3][3])-(bunch_it->cap[3]*bunch_it->cap[3]); bunch_it->sigfc[0][0] = (bunch_it->prodfc[0][0]/bunch_it->num[0][0])-(bunch_it->capfc[0]*bunch_it->capfc[0]); bunch_it->sigfc[0][1] = (bunch_it->prodfc[0][1]/bunch_it->num[0][1])-(bunch_it->capfc[0]*bunch_it->capfc[1]); bunch_it->sigfc[0][2] = (bunch_it->prodfc[0][2]/bunch_it->num[0][2])-(bunch_it->capfc[0]*bunch_it->capfc[2]); bunch_it->sigfc[0][3] = (bunch_it->prodfc[0][3]/bunch_it->num[0][3])-(bunch_it->capfc[0]*bunch_it->capfc[3]); bunch_it->sigfc[1][0] = (bunch_it->prodfc[1][0]/bunch_it->num[1][0])-(bunch_it->capfc[1]*bunch_it->capfc[0]); bunch_it->sigfc[1][1] = (bunch_it->prodfc[1][1]/bunch_it->num[1][1])-(bunch_it->capfc[1]*bunch_it->capfc[1]); bunch_it->sigfc[1][2] = (bunch_it->prodfc[1][2]/bunch_it->num[1][2])-(bunch_it->capfc[1]*bunch_it->capfc[2]); bunch_it->sigfc[1][3] = (bunch_it->prodfc[1][3]/bunch_it->num[1][3])-(bunch_it->capfc[1]*bunch_it->capfc[3]); bunch_it->sigfc[2][0] = (bunch_it->prodfc[2][0]/bunch_it->num[2][0])-(bunch_it->capfc[2]*bunch_it->capfc[0]); bunch_it->sigfc[2][1] = (bunch_it->prodfc[2][1]/bunch_it->num[2][1])-(bunch_it->capfc[2]*bunch_it->capfc[1]); bunch_it->sigfc[2][2] = (bunch_it->prodfc[2][2]/bunch_it->num[2][2])-(bunch_it->capfc[2]*bunch_it->capfc[2]); bunch_it->sigfc[2][3] = (bunch_it->prodfc[2][3]/bunch_it->num[2][3])-(bunch_it->capfc[2]*bunch_it->capfc[3]); bunch_it->sigfc[3][0] = (bunch_it->prodfc[3][0]/bunch_it->num[3][0])-(bunch_it->capfc[3]*bunch_it->capfc[0]); bunch_it->sigfc[3][1] = (bunch_it->prodfc[3][1]/bunch_it->num[3][1])-(bunch_it->capfc[3]*bunch_it->capfc[1]); bunch_it->sigfc[3][2] = (bunch_it->prodfc[3][2]/bunch_it->num[3][2])-(bunch_it->capfc[3]*bunch_it->capfc[2]); bunch_it->sigfc[3][3] = (bunch_it->prodfc[3][3]/bunch_it->num[3][3])-(bunch_it->capfc[3]*bunch_it->capfc[3]); for(int i = 0; i != 3; i++){ CASTORMeans->Fill(bunch_it->cap[i]); CASTORWidths->Fill(bunch_it->sig[i][i]); } //if(bunch_it->detid.subdet() == 1){ int fillphi = bunch_it->detid.sector(); //if (bunch_it->detid.depth()==4) fillphi++; // dephist[bunch_it->detid.module()-1]->Fill(bunch_it->detid.ieta(),fillphi, // (bunch_it->cap[0]+bunch_it->cap[1]+bunch_it->cap[2]+bunch_it->cap[3])/4); dephist->Fill( bunch_it->detid.module(),fillphi, (bunch_it->cap[0]+bunch_it->cap[1]+bunch_it->cap[2]+bunch_it->cap[3])/4); const CastorPedestal item(bunch_it->detid, bunch_it->cap[0], bunch_it->cap[1], bunch_it->cap[2], bunch_it->cap[3], bunch_it->sig[0][0], bunch_it->sig[1][1], bunch_it->sig[2][2], bunch_it->sig[3][3]); rawPedsItem->addValues(item); CastorPedestalWidth widthsp(bunch_it->detid); widthsp.setSigma(0,0,bunch_it->sig[0][0]); widthsp.setSigma(0,1,bunch_it->sig[0][1]); widthsp.setSigma(0,2,bunch_it->sig[0][2]); widthsp.setSigma(0,3,bunch_it->sig[0][3]); widthsp.setSigma(1,0,bunch_it->sig[1][0]); widthsp.setSigma(1,1,bunch_it->sig[1][1]); widthsp.setSigma(1,2,bunch_it->sig[1][2]); widthsp.setSigma(1,3,bunch_it->sig[1][3]); widthsp.setSigma(2,0,bunch_it->sig[2][0]); widthsp.setSigma(2,1,bunch_it->sig[2][1]); widthsp.setSigma(2,2,bunch_it->sig[2][2]); widthsp.setSigma(2,3,bunch_it->sig[2][3]); widthsp.setSigma(3,0,bunch_it->sig[3][0]); widthsp.setSigma(3,1,bunch_it->sig[3][1]); widthsp.setSigma(3,2,bunch_it->sig[3][2]); widthsp.setSigma(3,3,bunch_it->sig[3][3]); rawWidthsItem->addValues(widthsp); const CastorPedestal itemfc(bunch_it->detid, bunch_it->capfc[0], bunch_it->capfc[1], bunch_it->capfc[2], bunch_it->capfc[3], bunch_it->sigfc[0][0], bunch_it->sigfc[1][1], bunch_it->sigfc[2][2], bunch_it->sigfc[3][3]); rawPedsItemfc->addValues(itemfc); CastorPedestalWidth widthspfc(bunch_it->detid); widthspfc.setSigma(0,0,bunch_it->sigfc[0][0]); widthspfc.setSigma(0,1,bunch_it->sigfc[0][1]); widthspfc.setSigma(0,2,bunch_it->sigfc[0][2]); widthspfc.setSigma(0,3,bunch_it->sigfc[0][3]); widthspfc.setSigma(1,0,bunch_it->sigfc[1][0]); widthspfc.setSigma(1,1,bunch_it->sigfc[1][1]); widthspfc.setSigma(1,2,bunch_it->sigfc[1][2]); widthspfc.setSigma(1,3,bunch_it->sigfc[1][3]); widthspfc.setSigma(2,0,bunch_it->sigfc[2][0]); widthspfc.setSigma(2,1,bunch_it->sigfc[2][1]); widthspfc.setSigma(2,2,bunch_it->sigfc[2][2]); widthspfc.setSigma(2,3,bunch_it->sigfc[2][3]); widthspfc.setSigma(3,0,bunch_it->sigfc[3][0]); widthspfc.setSigma(3,1,bunch_it->sigfc[3][1]); widthspfc.setSigma(3,2,bunch_it->sigfc[3][2]); widthspfc.setSigma(3,3,bunch_it->sigfc[3][3]); rawWidthsItemfc->addValues(widthspfc); } } // dump the resulting list of pedestals into a file std::ofstream outStream1(pedsADCfilename.c_str()); CastorDbASCIIIO::dumpObject (outStream1, (*rawPedsItem) ); std::ofstream outStream2(widthsADCfilename.c_str()); CastorDbASCIIIO::dumpObject (outStream2, (*rawWidthsItem) ); std::ofstream outStream3(pedsfCfilename.c_str()); CastorDbASCIIIO::dumpObject (outStream3, (*rawPedsItemfc) ); std::ofstream outStream4(widthsfCfilename.c_str()); CastorDbASCIIIO::dumpObject (outStream4, (*rawWidthsItemfc) ); if(dumpXML){ std::ofstream outStream5(XMLfilename.c_str()); // CastorCondXML::dumpObject (outStream5, runnum, runnum, runnum, XMLtag, 1, (*rawPedsItem), (*rawWidthsItem)); } if(hiSaveFlag){ theFile->Write(); }else{ theFile->cd(); theFile->cd("CASTOR"); CASTORMeans->Write(); CASTORWidths->Write(); } theFile->cd(); dephist->Write(); dephist->SetDrawOption("colz"); dephist->GetXaxis()->SetTitle("module"); dephist->GetYaxis()->SetTitle("sector"); //for (int n=0; n!= 4; n++) //{ //dephist[n]->Write(); //dephist[n]->SetDrawOption("colz"); //dephist[n]->GetXaxis()->SetTitle("i#eta"); //dephist[n]->GetYaxis()->SetTitle("i#phi"); //} std::stringstream tempstringout; tempstringout << runnum; std::string name1 = tempstringout.str() + "_pedplots_1d.png"; std::string name2 = tempstringout.str() + "_pedplots_2d.png"; TStyle *theStyle = new TStyle("style","null"); theStyle->SetPalette(1,0); theStyle->SetCanvasDefH(1200); //Height of canvas theStyle->SetCanvasDefW(1600); //Width of canvas gStyle = theStyle; /* TCanvas * c1 = new TCanvas("c1","graph",1); c1->Divide(2,2); c1->cd(1); CASTORMeans->Draw(); c1->SaveAs(name1.c_str()); theStyle->SetOptStat("n"); gStyle = theStyle; TCanvas * c2 = new TCanvas("c2","graph",1); // c2->Divide(2,2); c2->cd(1); dephist->Draw(); dephist->SetDrawOption("colz"); //c2->cd(2); //dephist[1]->Draw(); //dephist[1]->SetDrawOption("colz"); //c2->cd(3); //dephist[2]->Draw(); //dephist[2]->SetDrawOption("colz"); //c2->cd(4); //dephist[3]->Draw(); //dephist[3]->SetDrawOption("colz"); c2->SaveAs(name2.c_str()); */ std::cout << "Writing ROOT file... "; theFile->Close(); std::cout << "ROOT file closed.\n"; }
void CastorPedestalsAnalysis::analyze | ( | const edm::Event & | event, |
const edm::EventSetup & | eventSetup | ||
) | [virtual] |
Implements edm::EDAnalyzer.
Definition at line 231 of file CastorPedestalsAnalysis.cc.
References a, HcalQIESample::adc(), CastorElectronicsMap::allPrecisionId(), Bunches, NewPedBunch::cap, NewPedBunch::capfc, HcalQIESample::capid(), castorDigiCollectionTag, CASTORMeans, CASTORWidths, CastorQIECoder::charge(), dephist, NewPedBunch::detid, firsttime, firstTS, edm::EventSetup::get(), edm::Event::getByLabel(), i, CastorDataFrame::id(), edm::EventBase::id(), j, lastTS, NewPedBunch::num, pedsADCfilename, pedsfCfilename, NewPedBunch::prod, NewPedBunch::prodfc, edm::ESHandle< T >::product(), DetId::rawId(), ROOTfilename, edm::EventID::run(), runnum, CastorDataFrame::sample(), NewPedBunch::sig, NewPedBunch::sigfc, CastorDataFrame::size(), AlCaHLTBitMon_QueryRunRegistry::string, theFile, NewPedBunch::usedflag, widthsADCfilename, widthsfCfilename, XMLfilename, and XMLtag.
{ using namespace edm; using namespace std; edm::Handle<CastorDigiCollection> castor; e.getByLabel(castorDigiCollectionTag, castor); edm::ESHandle<CastorDbService> conditions; iSetup.get<CastorDbRecord>().get(conditions); const CastorQIEShape* shape = conditions->getCastorShape(); if(firsttime) { runnum = e.id().run(); std::string runnum_string; std::stringstream tempstringout; tempstringout << runnum; runnum_string = tempstringout.str(); ROOTfilename = runnum_string + "-peds_ADC.root"; pedsADCfilename = runnum_string + "-peds_ADC.txt"; pedsfCfilename = runnum_string + "-peds_fC.txt"; widthsADCfilename = runnum_string + "-widths_ADC.txt"; widthsfCfilename = runnum_string + "-widths_fC.txt"; XMLfilename = runnum_string + "-peds_ADC_complete.xml"; XMLtag = "Castor_pedestals_" + runnum_string; theFile = new TFile(ROOTfilename.c_str(), "RECREATE"); theFile->cd(); // Create sub-directories theFile->mkdir("CASTOR"); theFile->cd(); CASTORMeans = new TH1F("All Ped Means CASTOR","All Ped Means CASTOR", 100, 0, 9); CASTORWidths = new TH1F("All Ped Widths CASTOR","All Ped Widths CASTOR", 100, 0, 3); dephist = new TH2F("Pedestals (ADC)","All Castor",14, 0., 14.5, 16, .5, 16.5); // dephist[0] = new TH2F("Pedestals (ADC)","Depth 1",89, -44, 44, 72, .5, 72.5); // dephist[1] = new TH2F("Pedestals (ADC)","Depth 2",89, -44, 44, 72, .5, 72.5); // dephist[2] = new TH2F("Pedestals (ADC)","Depth 3",89, -44, 44, 72, .5, 72.5); // dephist[3] = new TH2F("Pedestals (ADC)","Depth 4",89, -44, 44, 72, .5, 72.5); edm::ESHandle<CastorElectronicsMap> refEMap; iSetup.get<CastorElectronicsMapRcd>().get(refEMap); const CastorElectronicsMap* myRefEMap = refEMap.product(); std::vector<HcalGenericDetId> listEMap = myRefEMap->allPrecisionId(); for (std::vector<HcalGenericDetId>::const_iterator it = listEMap.begin(); it != listEMap.end(); it++) { HcalGenericDetId mygenid(it->rawId()); if(mygenid.isHcalCastorDetId()) { NewPedBunch a; HcalCastorDetId chanid(mygenid.rawId()); a.detid = chanid; a.usedflag = false; string type; type = "CASTOR"; for(int i = 0; i != 4; i++) { a.cap[i] = 0; a.capfc[i] = 0; for(int j = 0; j != 4; j++) { a.sig[i][j] = 0; a.sigfc[i][j] = 0; a.prod[i][j] = 0; a.prodfc[i][j] = 0; a.num[i][j] = 0; } } Bunches.push_back(a); } } firsttime = false; } std::vector<NewPedBunch>::iterator bunch_it; for(CastorDigiCollection::const_iterator j = castor->begin(); j != castor->end(); j++) { const CastorDataFrame digi = (const CastorDataFrame)(*j); for(bunch_it = Bunches.begin(); bunch_it != Bunches.end(); bunch_it++) if(bunch_it->detid.rawId() == digi.id().rawId()) break; bunch_it->usedflag = true; for(int ts = firstTS; ts != lastTS+1; ts++) { const CastorQIECoder* coder = conditions->getCastorCoder(digi.id().rawId()); bunch_it->num[digi.sample(ts).capid()][digi.sample(ts).capid()] += 1; bunch_it->cap[digi.sample(ts).capid()] += digi.sample(ts).adc(); double charge1 = coder->charge(*shape, digi.sample(ts).adc(), digi.sample(ts).capid()); bunch_it->capfc[digi.sample(ts).capid()] += charge1; bunch_it->prod[digi.sample(ts).capid()][digi.sample(ts).capid()] += (digi.sample(ts).adc() * digi.sample(ts).adc()); bunch_it->prodfc[digi.sample(ts).capid()][digi.sample(ts).capid()] += charge1 * charge1; if((ts+1 < digi.size()) && (ts+1 < lastTS)){ bunch_it->prod[digi.sample(ts).capid()][digi.sample(ts+1).capid()] += digi.sample(ts).adc()*digi.sample(ts+1).adc(); double charge2 = coder->charge(*shape, digi.sample(ts+1).adc(), digi.sample(ts+1).capid()); bunch_it->prodfc[digi.sample(ts).capid()][digi.sample(ts+1).capid()] += charge1*charge2; bunch_it->num[digi.sample(ts).capid()][digi.sample(ts+1).capid()] += 1; } if((ts+2 < digi.size()) && (ts+2 < lastTS)){ bunch_it->prod[digi.sample(ts).capid()][digi.sample(ts+2).capid()] += digi.sample(ts).adc()*digi.sample(ts+2).adc(); double charge2 = coder->charge(*shape, digi.sample(ts+2).adc(), digi.sample(ts+2).capid()); bunch_it->prodfc[digi.sample(ts).capid()][digi.sample(ts+2).capid()] += charge1*charge2; bunch_it->num[digi.sample(ts).capid()][digi.sample(ts+2).capid()] += 1; } if((ts+3 < digi.size()) && (ts+3 < lastTS)){ bunch_it->prod[digi.sample(ts).capid()][digi.sample(ts+3).capid()] += digi.sample(ts).adc()*digi.sample(ts+3).adc(); double charge2 = coder->charge(*shape, digi.sample(ts+3).adc(), digi.sample(ts+3).capid()); bunch_it->prodfc[digi.sample(ts).capid()][digi.sample(ts+3).capid()] += charge1*charge2; bunch_it->num[digi.sample(ts).capid()][digi.sample(ts+3).capid()] += 1; } } } //this is the last brace }
std::vector<NewPedBunch> CastorPedestalsAnalysis::Bunches [private] |
Definition at line 85 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
Definition at line 111 of file CastorPedestalsAnalysis.h.
Referenced by analyze().
TH1F* CastorPedestalsAnalysis::CASTORMeans [private] |
Definition at line 102 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
TH1F* CastorPedestalsAnalysis::CASTORWidths [private] |
Definition at line 103 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
TH2F* CastorPedestalsAnalysis::dephist [private] |
Definition at line 106 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
bool CastorPedestalsAnalysis::dumpXML [private] |
Definition at line 88 of file CastorPedestalsAnalysis.h.
Referenced by CastorPedestalsAnalysis(), and ~CastorPedestalsAnalysis().
bool CastorPedestalsAnalysis::firsttime [private] |
Definition at line 109 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and CastorPedestalsAnalysis().
int CastorPedestalsAnalysis::firstTS [private] |
Definition at line 91 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and CastorPedestalsAnalysis().
bool CastorPedestalsAnalysis::hiSaveFlag [private] |
Definition at line 87 of file CastorPedestalsAnalysis.h.
Referenced by CastorPedestalsAnalysis(), and ~CastorPedestalsAnalysis().
int CastorPedestalsAnalysis::lastTS [private] |
Definition at line 92 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and CastorPedestalsAnalysis().
std::string CastorPedestalsAnalysis::pedsADCfilename [private] |
Definition at line 94 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
std::string CastorPedestalsAnalysis::pedsfCfilename [private] |
Definition at line 95 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
std::string CastorPedestalsAnalysis::ROOTfilename [private] |
Definition at line 93 of file CastorPedestalsAnalysis.h.
Referenced by analyze().
int CastorPedestalsAnalysis::runnum [private] |
Definition at line 90 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
TFile* CastorPedestalsAnalysis::theFile [private] |
Definition at line 108 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
bool CastorPedestalsAnalysis::verboseflag [private] |
Definition at line 89 of file CastorPedestalsAnalysis.h.
Referenced by CastorPedestalsAnalysis(), and ~CastorPedestalsAnalysis().
std::string CastorPedestalsAnalysis::widthsADCfilename [private] |
Definition at line 96 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
std::string CastorPedestalsAnalysis::widthsfCfilename [private] |
Definition at line 97 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
std::string CastorPedestalsAnalysis::XMLfilename [private] |
Definition at line 98 of file CastorPedestalsAnalysis.h.
Referenced by analyze(), and ~CastorPedestalsAnalysis().
std::string CastorPedestalsAnalysis::XMLtag [private] |
Definition at line 99 of file CastorPedestalsAnalysis.h.
Referenced by analyze().
std::string CastorPedestalsAnalysis::ZSfilename [private] |
Definition at line 100 of file CastorPedestalsAnalysis.h.