#include <DTResolutionTest.h>
Public Member Functions | |
DTResolutionTest (const edm::ParameterSet &ps) | |
Constructor. | |
virtual | ~DTResolutionTest () |
Destructor. | |
Protected Member Functions | |
void | analyze (const edm::Event &e, const edm::EventSetup &c) |
Analyze. | |
void | beginLuminosityBlock (edm::LuminosityBlock const &lumiSeg, edm::EventSetup const &context) |
void | beginRun (const edm::Run &r, const edm::EventSetup &c) |
BeginRun. | |
void | bookHistos (const DTChamberId &ch) |
book the new ME | |
void | bookHistos (int wh) |
book the summary histograms | |
void | endJob () |
Endjob. | |
void | endLuminosityBlock (edm::LuminosityBlock const &lumiSeg, edm::EventSetup const &c) |
DQM Client Diagnostic. | |
std::string | getMEName (const DTSuperLayerId &slID) |
Get the ME name. | |
std::string | getMEName2D (const DTSuperLayerId &slID) |
Private Member Functions | |
int | slFromBin (int bin) const |
int | stationFromBin (int bin) const |
Private Attributes | |
std::map< std::pair< int, int > , int > | cmsMeanHistos |
std::map< std::pair< int, int > , int > | cmsSigmaHistos |
std::map< std::pair< int, int > , int > | cmsSlopeHistos |
DQMStore * | dbe |
std::map< std::pair< int, int > , bool > | MeanFilled |
std::map< std::pair< int, int > , MonitorElement * > | MeanHistos |
std::map< std::string, MonitorElement * > | MeanHistosSetRange |
std::map< std::string, MonitorElement * > | MeanHistosSetRange2D |
edm::ESHandle< DTGeometry > | muonGeom |
int | nevents |
unsigned int | nLumiSegs |
edm::ParameterSet | parameters |
int | percentual |
int | prescaleFactor |
int | run |
std::map< std::pair< int, int > , bool > | SigmaFilled |
std::map< std::pair< int, int > , MonitorElement * > | SigmaHistos |
std::map< std::string, MonitorElement * > | SigmaHistosSetRange |
std::map< std::string, MonitorElement * > | SigmaHistosSetRange2D |
std::map< std::pair< int, int > , bool > | SlopeFilled |
std::map< std::pair< int, int > , MonitorElement * > | SlopeHistos |
std::map< std::string, MonitorElement * > | SlopeHistosSetRange |
std::map< std::string, MonitorElement * > | SlopeHistosSetRange2D |
std::map< int, MonitorElement * > | wheelMeanHistos |
std::map< int, MonitorElement * > | wheelSigmaHistos |
std::map< int, MonitorElement * > | wheelSlopeHistos |
* DQM Test Client
Definition at line 41 of file DTResolutionTest.h.
DTResolutionTest::DTResolutionTest | ( | const edm::ParameterSet & | ps | ) |
Constructor.
Definition at line 45 of file DTResolutionTest.cc.
References edm::ParameterSet::getUntrackedParameter(), cmsCodeRules::cppFunctionSkipper::operator, Parameters::parameters, and dtDQMClient_cfg::prescaleFactor.
{ edm::LogVerbatim ("resolution") << "[DTResolutionTest]: Constructor"; parameters = ps; dbe = edm::Service<DQMStore>().operator->(); if(ps.getUntrackedParameter<bool>("readFile", false)) dbe->open(ps.getUntrackedParameter<string>("inputFile", "residuals.root")); prescaleFactor = parameters.getUntrackedParameter<int>("diagnosticPrescale", 1); percentual = parameters.getUntrackedParameter<int>("BadSLpercentual", 10); //debug = parameters.getUntrackedParameter<bool>("debug", false); }
DTResolutionTest::~DTResolutionTest | ( | ) | [virtual] |
Destructor.
Definition at line 63 of file DTResolutionTest.cc.
References nevents.
{ edm::LogVerbatim ("resolution") << "DTResolutionTest: analyzed " << nevents << " events"; }
void DTResolutionTest::analyze | ( | const edm::Event & | e, |
const edm::EventSetup & | c | ||
) | [protected, virtual] |
Analyze.
Implements edm::EDAnalyzer.
Definition at line 100 of file DTResolutionTest.cc.
References nevents.
{ nevents++; edm::LogVerbatim ("resolution") << "[DTResolutionTest]: "<<nevents<<" events"; }
void DTResolutionTest::beginLuminosityBlock | ( | edm::LuminosityBlock const & | lumiSeg, |
edm::EventSetup const & | context | ||
) | [protected, virtual] |
Reimplemented from edm::EDAnalyzer.
Definition at line 91 of file DTResolutionTest.cc.
References edm::LuminosityBlockBase::run(), and DTTTrigCorrFirst::run.
{ edm::LogVerbatim ("resolution") <<"[DTResolutionTest]: Begin of LS transition"; // Get the run number run = lumiSeg.run(); }
void DTResolutionTest::beginRun | ( | const edm::Run & | r, |
const edm::EventSetup & | c | ||
) | [protected, virtual] |
BeginRun.
Reimplemented from edm::EDAnalyzer.
Definition at line 70 of file DTResolutionTest.cc.
References bookHistos(), chambers, edm::EventSetup::get(), and nevents.
{ edm::LogVerbatim ("resolution") <<"[DTResolutionTest]: BeginRun"; nevents = 0; // Get the geometry context.get<MuonGeometryRecord>().get(muonGeom); // book the histos for(int wheel=-2; wheel<3; wheel++){ bookHistos(wheel); } vector<DTChamber*> chambers = muonGeom->chambers(); for(vector<DTChamber*>::const_iterator chamber = chambers.begin(); chamber != chambers.end(); ++chamber) { bookHistos((*chamber)->id()); } }
void DTResolutionTest::bookHistos | ( | const DTChamberId & | ch | ) | [protected] |
book the new ME
Definition at line 504 of file DTResolutionTest.cc.
References Parameters::parameters, DTChamberId::sector(), and DTChamberId::wheel().
{ stringstream wheel; wheel << ch.wheel(); stringstream sector; sector << ch.sector(); string MeanHistoName = "MeanTest_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str() + "_Sec" + sector.str(); string SigmaHistoName = "SigmaTest_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str() + "_Sec" + sector.str(); string SlopeHistoName = "SlopeTest_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str() + "_Sec" + sector.str(); dbe->setCurrentFolder("DT/Tests/DTResolution"); // Book the histo for the mean value and set the axis labels MeanHistos[make_pair(ch.wheel(),ch.sector())] = dbe->book1D(MeanHistoName.c_str(),MeanHistoName.c_str(),11,0,11); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(1,"MB1_SL1",1); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(2,"MB1_SL2",1); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(3,"MB1_SL3",1); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(4,"MB2_SL1",1); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(5,"MB2_SL2",1); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(6,"MB2_SL3",1); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(7,"MB3_SL1",1); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(8,"MB3_SL2",1); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(9,"MB3_SL3",1); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(10,"MB4_SL1",1); (MeanHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(11,"MB4_SL3",1); // Book the histo for the sigma value and set the axis labels if(parameters.getUntrackedParameter<bool>("sigmaTest")){ SigmaHistos[make_pair(ch.wheel(),ch.sector())] = dbe->book1D(SigmaHistoName.c_str(),SigmaHistoName.c_str(),11,0,11); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(1,"MB1_SL1",1); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(2,"MB1_SL2",1); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(3,"MB1_SL3",1); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(4,"MB2_SL1",1); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(5,"MB2_SL2",1); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(6,"MB2_SL3",1); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(7,"MB3_SL1",1); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(8,"MB3_SL2",1); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(9,"MB3_SL3",1); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(10,"MB4_SL1",1); (SigmaHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(11,"MB4_SL3",1); } // Book the histo for the slope value and set the axis labels if(parameters.getUntrackedParameter<bool>("slopeTest")){ SlopeHistos[make_pair(ch.wheel(),ch.sector())] = dbe->book1D(SlopeHistoName.c_str(),SlopeHistoName.c_str(),11,0,11); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(1,"MB1_SL1",1); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(2,"MB1_SL2",1); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(3,"MB1_SL3",1); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(4,"MB2_SL1",1); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(5,"MB2_SL2",1); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(6,"MB2_SL3",1); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(7,"MB3_SL1",1); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(8,"MB3_SL2",1); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(9,"MB3_SL3",1); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(10,"MB4_SL1",1); (SlopeHistos[make_pair(ch.wheel(),ch.sector())])->setBinLabel(11,"MB4_SL3",1); } string HistoName = "W" + wheel.str() + "_Sec" + sector.str(); if(parameters.getUntrackedParameter<bool>("meanWrongHisto")){ string MeanHistoNameSetRange = "MeanWrong_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str() + "_Sec" + sector.str() + "_SetRange"; MeanHistosSetRange[HistoName] = dbe->book1D(MeanHistoNameSetRange.c_str(),MeanHistoNameSetRange.c_str(),11,0.5,11.5); string MeanHistoNameSetRange2D = "MeanWrong_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str() + "_Sec" + sector.str() + "_SetRange" + "_2D"; MeanHistosSetRange2D[HistoName] = dbe->book2D(MeanHistoNameSetRange2D.c_str(),MeanHistoNameSetRange2D.c_str(),11, 0.5, 11.5, 100, -0.05, 0.05); } if(parameters.getUntrackedParameter<bool>("sigmaTest")){ string SigmaHistoNameSetRange = "SigmaWrong_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str() + "_Sec" + sector.str() + "_SetRange"; SigmaHistosSetRange[HistoName] = dbe->book1D(SigmaHistoNameSetRange.c_str(),SigmaHistoNameSetRange.c_str(),11,0.5,11.5); string SigmaHistoNameSetRange2D = "SigmaWrong_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str() + "_Sec" + sector.str() + "_SetRange" + "_2D"; SigmaHistosSetRange2D[HistoName] = dbe->book2D(SigmaHistoNameSetRange2D.c_str(),SigmaHistoNameSetRange2D.c_str(),11, 0.5, 11.5, 500, 0, 0.5); } if(parameters.getUntrackedParameter<bool>("slopeTest")){ string SlopeHistoNameSetRange = "SlopeWrong_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str() + "_Sec" + sector.str() + "_SetRange"; SlopeHistosSetRange[HistoName] = dbe->book1D(SlopeHistoNameSetRange.c_str(),SlopeHistoNameSetRange.c_str(),11,0.5,11.5); string SlopeHistoNameSetRange2D = "SlopeWrong_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str() + "_Sec" + sector.str() + "_SetRange" + "_2D"; SlopeHistosSetRange2D[HistoName] = dbe->book2D(SlopeHistoNameSetRange2D.c_str(),SlopeHistoNameSetRange2D.c_str(),11, 0.5, 11.5, 200, -0.1, 0.1); } }
void DTResolutionTest::bookHistos | ( | int | wh | ) | [protected] |
book the summary histograms
Definition at line 589 of file DTResolutionTest.cc.
References Parameters::parameters.
{ dbe->setCurrentFolder("DT/CalibrationSummary"); if(wheelMeanHistos.find(3) == wheelMeanHistos.end()){ string histoName = "MeanSummaryRes_testFailedByAtLeastBadSL_" + parameters.getUntrackedParameter<string>("STEP", "STEP3"); wheelMeanHistos[3] = dbe->book2D(histoName.c_str(),histoName.c_str(),14,0,14,5,-2,3); wheelMeanHistos[3]->setBinLabel(1,"Sector1",1); wheelMeanHistos[3]->setBinLabel(1,"Sector1",1); wheelMeanHistos[3]->setBinLabel(2,"Sector2",1); wheelMeanHistos[3]->setBinLabel(3,"Sector3",1); wheelMeanHistos[3]->setBinLabel(4,"Sector4",1); wheelMeanHistos[3]->setBinLabel(5,"Sector5",1); wheelMeanHistos[3]->setBinLabel(6,"Sector6",1); wheelMeanHistos[3]->setBinLabel(7,"Sector7",1); wheelMeanHistos[3]->setBinLabel(8,"Sector8",1); wheelMeanHistos[3]->setBinLabel(9,"Sector9",1); wheelMeanHistos[3]->setBinLabel(10,"Sector10",1); wheelMeanHistos[3]->setBinLabel(11,"Sector11",1); wheelMeanHistos[3]->setBinLabel(12,"Sector12",1); wheelMeanHistos[3]->setBinLabel(13,"Sector13",1); wheelMeanHistos[3]->setBinLabel(14,"Sector14",1); wheelMeanHistos[3]->setBinLabel(1,"Wheel-2",2); wheelMeanHistos[3]->setBinLabel(2,"Wheel-1",2); wheelMeanHistos[3]->setBinLabel(3,"Wheel0",2); wheelMeanHistos[3]->setBinLabel(4,"Wheel+1",2); wheelMeanHistos[3]->setBinLabel(5,"Wheel+2",2); } if(parameters.getUntrackedParameter<bool>("sigmaTest")){ if(wheelSigmaHistos.find(3) == wheelSigmaHistos.end()){ string histoName = "SigmaSummaryRes_testFailedByAtLeastBadSL_" + parameters.getUntrackedParameter<string>("STEP", "STEP3"); wheelSigmaHistos[3] = dbe->book2D(histoName.c_str(),histoName.c_str(),14,0,14,5,-2,3); wheelSigmaHistos[3]->setBinLabel(1,"Sector1",1); wheelSigmaHistos[3]->setBinLabel(1,"Sector1",1); wheelSigmaHistos[3]->setBinLabel(2,"Sector2",1); wheelSigmaHistos[3]->setBinLabel(3,"Sector3",1); wheelSigmaHistos[3]->setBinLabel(4,"Sector4",1); wheelSigmaHistos[3]->setBinLabel(5,"Sector5",1); wheelSigmaHistos[3]->setBinLabel(6,"Sector6",1); wheelSigmaHistos[3]->setBinLabel(7,"Sector7",1); wheelSigmaHistos[3]->setBinLabel(8,"Sector8",1); wheelSigmaHistos[3]->setBinLabel(9,"Sector9",1); wheelSigmaHistos[3]->setBinLabel(10,"Sector10",1); wheelSigmaHistos[3]->setBinLabel(11,"Sector11",1); wheelSigmaHistos[3]->setBinLabel(12,"Sector12",1); wheelSigmaHistos[3]->setBinLabel(13,"Sector13",1); wheelSigmaHistos[3]->setBinLabel(14,"Sector14",1); wheelSigmaHistos[3]->setBinLabel(1,"Wheel-2",2); wheelSigmaHistos[3]->setBinLabel(2,"Wheel-1",2); wheelSigmaHistos[3]->setBinLabel(3,"Wheel0",2); wheelSigmaHistos[3]->setBinLabel(4,"Wheel+1",2); wheelSigmaHistos[3]->setBinLabel(5,"Wheel+2",2); } } if(parameters.getUntrackedParameter<bool>("slopeTest")){ if(wheelSlopeHistos.find(3) == wheelSlopeHistos.end()){ string histoName = "SlopeSummaryRes_testFailedByAtLeastBadSL_" + parameters.getUntrackedParameter<string>("STEP", "STEP3"); wheelSlopeHistos[3] = dbe->book2D(histoName.c_str(),histoName.c_str(),14,0,14,5,-2,3); wheelSlopeHistos[3]->setBinLabel(1,"Sector1",1); wheelSlopeHistos[3]->setBinLabel(1,"Sector1",1); wheelSlopeHistos[3]->setBinLabel(2,"Sector2",1); wheelSlopeHistos[3]->setBinLabel(3,"Sector3",1); wheelSlopeHistos[3]->setBinLabel(4,"Sector4",1); wheelSlopeHistos[3]->setBinLabel(5,"Sector5",1); wheelSlopeHistos[3]->setBinLabel(6,"Sector6",1); wheelSlopeHistos[3]->setBinLabel(7,"Sector7",1); wheelSlopeHistos[3]->setBinLabel(8,"Sector8",1); wheelSlopeHistos[3]->setBinLabel(9,"Sector9",1); wheelSlopeHistos[3]->setBinLabel(10,"Sector10",1); wheelSlopeHistos[3]->setBinLabel(11,"Sector11",1); wheelSlopeHistos[3]->setBinLabel(12,"Sector12",1); wheelSlopeHistos[3]->setBinLabel(13,"Sector13",1); wheelSlopeHistos[3]->setBinLabel(14,"Sector14",1); wheelSlopeHistos[3]->setBinLabel(1,"Wheel-2",2); wheelSlopeHistos[3]->setBinLabel(2,"Wheel-1",2); wheelSlopeHistos[3]->setBinLabel(3,"Wheel0",2); wheelSlopeHistos[3]->setBinLabel(4,"Wheel+1",2); wheelSlopeHistos[3]->setBinLabel(5,"Wheel+2",2); } } stringstream wheel; wheel <<wh; if(wheelMeanHistos.find(wh) == wheelMeanHistos.end()){ string histoName = "MeanSummaryRes_testFailed_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str(); wheelMeanHistos[wh] = dbe->book2D(histoName.c_str(),histoName.c_str(),14,0,14,11,0,11); wheelMeanHistos[wh]->setBinLabel(1,"Sector1",1); wheelMeanHistos[wh]->setBinLabel(2,"Sector2",1); wheelMeanHistos[wh]->setBinLabel(3,"Sector3",1); wheelMeanHistos[wh]->setBinLabel(4,"Sector4",1); wheelMeanHistos[wh]->setBinLabel(5,"Sector5",1); wheelMeanHistos[wh]->setBinLabel(6,"Sector6",1); wheelMeanHistos[wh]->setBinLabel(7,"Sector7",1); wheelMeanHistos[wh]->setBinLabel(8,"Sector8",1); wheelMeanHistos[wh]->setBinLabel(9,"Sector9",1); wheelMeanHistos[wh]->setBinLabel(10,"Sector10",1); wheelMeanHistos[wh]->setBinLabel(11,"Sector11",1); wheelMeanHistos[wh]->setBinLabel(12,"Sector12",1); wheelMeanHistos[wh]->setBinLabel(13,"Sector13",1); wheelMeanHistos[wh]->setBinLabel(14,"Sector14",1); wheelMeanHistos[wh]->setBinLabel(1,"MB1_SL1",2); wheelMeanHistos[wh]->setBinLabel(2,"MB1_SL2",2); wheelMeanHistos[wh]->setBinLabel(3,"MB1_SL3",2); wheelMeanHistos[wh]->setBinLabel(4,"MB2_SL1",2); wheelMeanHistos[wh]->setBinLabel(5,"MB2_SL2",2); wheelMeanHistos[wh]->setBinLabel(6,"MB2_SL3",2); wheelMeanHistos[wh]->setBinLabel(7,"MB3_SL1",2); wheelMeanHistos[wh]->setBinLabel(8,"MB3_SL2",2); wheelMeanHistos[wh]->setBinLabel(9,"MB3_SL3",2); wheelMeanHistos[wh]->setBinLabel(10,"MB4_SL1",2); wheelMeanHistos[wh]->setBinLabel(11,"MB4_SL3",2); } if(parameters.getUntrackedParameter<bool>("sigmaTest")){ if(wheelSigmaHistos.find(wh) == wheelSigmaHistos.end()){ string histoName = "SigmaSummaryRes_testFailed_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str(); wheelSigmaHistos[wh] = dbe->book2D(histoName.c_str(),histoName.c_str(),14,0,14,11,0,11); wheelSigmaHistos[wh]->setBinLabel(1,"Sector1",1); wheelSigmaHistos[wh]->setBinLabel(2,"Sector2",1); wheelSigmaHistos[wh]->setBinLabel(3,"Sector3",1); wheelSigmaHistos[wh]->setBinLabel(4,"Sector4",1); wheelSigmaHistos[wh]->setBinLabel(5,"Sector5",1); wheelSigmaHistos[wh]->setBinLabel(6,"Sector6",1); wheelSigmaHistos[wh]->setBinLabel(7,"Sector7",1); wheelSigmaHistos[wh]->setBinLabel(8,"Sector8",1); wheelSigmaHistos[wh]->setBinLabel(9,"Sector9",1); wheelSigmaHistos[wh]->setBinLabel(10,"Sector10",1); wheelSigmaHistos[wh]->setBinLabel(11,"Sector11",1); wheelSigmaHistos[wh]->setBinLabel(12,"Sector12",1); wheelSigmaHistos[wh]->setBinLabel(13,"Sector13",1); wheelSigmaHistos[wh]->setBinLabel(14,"Sector14",1); wheelSigmaHistos[wh]->setBinLabel(1,"MB1_SL1",2); wheelSigmaHistos[wh]->setBinLabel(2,"MB1_SL2",2); wheelSigmaHistos[wh]->setBinLabel(3,"MB1_SL3",2); wheelSigmaHistos[wh]->setBinLabel(4,"MB2_SL1",2); wheelSigmaHistos[wh]->setBinLabel(5,"MB2_SL2",2); wheelSigmaHistos[wh]->setBinLabel(6,"MB2_SL3",2); wheelSigmaHistos[wh]->setBinLabel(7,"MB3_SL1",2); wheelSigmaHistos[wh]->setBinLabel(8,"MB3_SL2",2); wheelSigmaHistos[wh]->setBinLabel(9,"MB3_SL3",2); wheelSigmaHistos[wh]->setBinLabel(10,"MB4_SL1",2); wheelSigmaHistos[wh]->setBinLabel(11,"MB4_SL3",2); } } if(parameters.getUntrackedParameter<bool>("slopeTest")){ if(wheelSlopeHistos.find(wh) == wheelSlopeHistos.end()){ string histoName = "SlopeSummaryRes_testFailed_" + parameters.getUntrackedParameter<string>("STEP", "STEP3") + "_W" + wheel.str(); wheelSlopeHistos[wh] = dbe->book2D(histoName.c_str(),histoName.c_str(),14,0,14,11,0,11); wheelSlopeHistos[wh]->setBinLabel(1,"Sector1",1); wheelSlopeHistos[wh]->setBinLabel(2,"Sector2",1); wheelSlopeHistos[wh]->setBinLabel(3,"Sector3",1); wheelSlopeHistos[wh]->setBinLabel(4,"Sector4",1); wheelSlopeHistos[wh]->setBinLabel(5,"Sector5",1); wheelSlopeHistos[wh]->setBinLabel(6,"Sector6",1); wheelSlopeHistos[wh]->setBinLabel(7,"Sector7",1); wheelSlopeHistos[wh]->setBinLabel(8,"Sector8",1); wheelSlopeHistos[wh]->setBinLabel(9,"Sector9",1); wheelSlopeHistos[wh]->setBinLabel(10,"Sector10",1); wheelSlopeHistos[wh]->setBinLabel(11,"Sector11",1); wheelSlopeHistos[wh]->setBinLabel(12,"Sector12",1); wheelSlopeHistos[wh]->setBinLabel(13,"Sector13",1); wheelSlopeHistos[wh]->setBinLabel(14,"Sector14",1); wheelSlopeHistos[wh]->setBinLabel(1,"MB1_SL1",2); wheelSlopeHistos[wh]->setBinLabel(2,"MB1_SL2",2); wheelSlopeHistos[wh]->setBinLabel(3,"MB1_SL3",2); wheelSlopeHistos[wh]->setBinLabel(4,"MB2_SL1",2); wheelSlopeHistos[wh]->setBinLabel(5,"MB2_SL2",2); wheelSlopeHistos[wh]->setBinLabel(6,"MB2_SL3",2); wheelSlopeHistos[wh]->setBinLabel(7,"MB3_SL1",2); wheelSlopeHistos[wh]->setBinLabel(8,"MB3_SL2",2); wheelSlopeHistos[wh]->setBinLabel(9,"MB3_SL3",2); wheelSlopeHistos[wh]->setBinLabel(10,"MB4_SL1",2); wheelSlopeHistos[wh]->setBinLabel(11,"MB4_SL3",2); } } }
void DTResolutionTest::endJob | ( | void | ) | [protected, virtual] |
Endjob.
Reimplemented from edm::EDAnalyzer.
Definition at line 416 of file DTResolutionTest.cc.
References dumpDBToFile_GT_ttrig_cfg::outputFileName, and Parameters::parameters.
{ edm::LogVerbatim ("resolution") << "[DTResolutionTest] endjob called!"; //dbe->rmdir("DT/DTCalibValidation"); //dbe->rmdir("DT/Tests/DTResolution"); bool outputMEsInRootFile = parameters.getParameter<bool>("OutputMEsInRootFile"); if(outputMEsInRootFile){ std::string outputFileName = parameters.getParameter<std::string>("OutputFileName"); dbe->save(outputFileName,"DT/CalibrationSummary"); } }
void DTResolutionTest::endLuminosityBlock | ( | edm::LuminosityBlock const & | lumiSeg, |
edm::EventSetup const & | c | ||
) | [protected, virtual] |
DQM Client Diagnostic.
Reimplemented from edm::EDAnalyzer.
Definition at line 109 of file DTResolutionTest.cc.
References abs, QReport::getBadChannels(), MonitorElement::getQReport(), MonitorElement::getTH2F(), timingPdfMaker::histo, i, edm::LuminosityBlockBase::id(), j, edm::LuminosityBlockID::luminosityBlock(), timingPdfMaker::mean, Parameters::parameters, dtDQMClient_cfg::prescaleFactor, DTChamberId::sector(), slope, relativeConstraints::station, DTChamberId::station(), DTSuperLayerId::superLayer(), DTSuperLayerId::superlayer(), and DTChamberId::wheel().
{ // counts number of updats (online mode) or number of events (standalone mode) //nevents++; // if running in standalone perform diagnostic only after a reasonalbe amount of events //if ( parameters.getUntrackedParameter<bool>("runningStandalone", false) && // nevents%parameters.getUntrackedParameter<int>("diagnosticPrescale", 1000) != 0 ) return; //edm::LogVerbatim ("resolution") << "[DTResolutionTest]: "<<nevents<<" updates"; edm::LogVerbatim ("resolution") <<"[DTResolutionTest]: End of LS transition, performing the DQM client operation"; // counts number of lumiSegs nLumiSegs = lumiSeg.id().luminosityBlock(); // prescale factor if ( nLumiSegs%prescaleFactor != 0 ) return; for(map<int, MonitorElement*> ::const_iterator histo = wheelMeanHistos.begin(); histo != wheelMeanHistos.end(); histo++) { (*histo).second->Reset(); } if(parameters.getUntrackedParameter<bool>("sigmaTest")){ for(map<int, MonitorElement*> ::const_iterator histo = wheelSigmaHistos.begin(); histo != wheelSigmaHistos.end(); histo++) { (*histo).second->Reset(); } } if(parameters.getUntrackedParameter<bool>("slopeTest")){ for(map<int, MonitorElement*> ::const_iterator histo = wheelSlopeHistos.begin(); histo != wheelSlopeHistos.end(); histo++) { (*histo).second->Reset(); } } cmsMeanHistos.clear(); for(int i=-2; i<3; i++){ for(int j=1; j<15; j++){ MeanFilled[make_pair(i,j)]=false; } } if(parameters.getUntrackedParameter<bool>("sigmaTest")){ cmsSigmaHistos.clear(); for(int i=-2; i<3; i++){ for(int j=1; j<15; j++){ SigmaFilled[make_pair(i,j)]=false; } } } if(parameters.getUntrackedParameter<bool>("slopeTest")){ cmsSlopeHistos.clear(); for(int i=-2; i<3; i++){ for(int j=1; j<15; j++){ SlopeFilled[make_pair(i,j)]=false; } } } // summary histos initialization for(int wh=-2; wh<=3; wh++){ if(wh!=3){ for(int xBin=0; xBin<14; xBin++){ for(int yBin=0; yBin<11; yBin++){ wheelMeanHistos[wh]->setBinContent(xBin,yBin,0); if(parameters.getUntrackedParameter<bool>("sigmaTest")) wheelSigmaHistos[wh]->setBinContent(xBin,yBin,0); if(parameters.getUntrackedParameter<bool>("slopeTest")) wheelSlopeHistos[wh]->setBinContent(xBin,yBin,0); } } } else{ for(int xBin=0; xBin<14; xBin++){ for(int yBin=-2; yBin<3; yBin++){ wheelMeanHistos[wh]->setBinContent(xBin,yBin,0); if(parameters.getUntrackedParameter<bool>("sigmaTest")) wheelSigmaHistos[wh]->setBinContent(xBin,yBin,0); if(parameters.getUntrackedParameter<bool>("slopeTest")) wheelSlopeHistos[wh]->setBinContent(xBin,yBin,0); } } } } edm::LogVerbatim ("resolution") <<"[DTResolutionTest]: "<<nLumiSegs<<" updates"; vector<DTChamber*>::const_iterator ch_it = muonGeom->chambers().begin(); vector<DTChamber*>::const_iterator ch_end = muonGeom->chambers().end(); edm::LogVerbatim ("resolution") << "[DTResolutionTest]: Residual Distribution tests results"; for (; ch_it != ch_end; ++ch_it) { DTChamberId chID = (*ch_it)->id(); // Fill the test histos int entry=-1; if(chID.station() == 1) entry=0; if(chID.station() == 2) entry=3; if(chID.station() == 3) entry=6; if(chID.station() == 4) entry=9; vector<const DTSuperLayer*>::const_iterator sl_it = (*ch_it)->superLayers().begin(); vector<const DTSuperLayer*>::const_iterator sl_end = (*ch_it)->superLayers().end(); for(; sl_it != sl_end; ++sl_it) { DTSuperLayerId slID = (*sl_it)->id(); edm::LogVerbatim ("resolution") << "[DTResolutionTest]: Superlayer: " << slID; stringstream wheel; wheel << slID.wheel(); stringstream station; station << slID.station(); stringstream sector; sector << slID.sector(); stringstream superLayer; superLayer << slID.superlayer(); string HistoName = "W" + wheel.str() + "_Sec" + sector.str(); string supLayer = "W" + wheel.str() + "_St" + station.str() + "_Sec" + sector.str() + "_SL" + superLayer.str(); MonitorElement * res_histo = dbe->get(getMEName(slID)); if (res_histo) { // gaussian test string GaussianCriterionName = parameters.getUntrackedParameter<string>("resDistributionTestName", "ResidualsDistributionGaussianTest"); const QReport * GaussianReport = res_histo->getQReport(GaussianCriterionName); if(GaussianReport){ // FIXE ME: if the quality test fails this cout return a null pointer //edm::LogWarning ("resolution") << "-------- SuperLayer : "<<supLayer<<" "<<GaussianReport->getMessage()<<" ------- "<<GaussianReport->getStatus(); } int BinNumber = entry+slID.superLayer(); if(BinNumber == 12) BinNumber=11; float mean = (*res_histo).getMean(1); float sigma = (*res_histo).getRMS(1); MeanHistos.find(make_pair(slID.wheel(),slID.sector()))->second->setBinContent(BinNumber, mean); if(parameters.getUntrackedParameter<bool>("sigmaTest")) SigmaHistos.find(make_pair(slID.wheel(),slID.sector()))->second->setBinContent(BinNumber, sigma); } if(parameters.getUntrackedParameter<bool>("slopeTest")){ MonitorElement * res_histo_2D = dbe->get(getMEName2D(slID)); if (res_histo_2D) { TH2F * res_histo_2D_root = res_histo_2D->getTH2F(); int BinNumber = entry+slID.superLayer(); if(BinNumber == 12) BinNumber=11; TProfile* prof = res_histo_2D_root->ProfileX(); prof->GetXaxis()->SetRangeUser(0,2); //prof->Fit("pol1","Q0"); try { prof->Fit("pol1","Q0"); } catch (...) { edm::LogError ("resolution") << "[DTResolutionTest]: Exception when fitting..." << "SuperLayer : " << slID << "\n" << " STEP : " << parameters.getUntrackedParameter<string>("STEP", "STEP3") << "\n" << "Filling slope histogram with standard value -99. for bin " << BinNumber; SlopeHistos.find(make_pair(slID.wheel(),slID.sector()))->second->setBinContent(BinNumber, -99.); continue; } TF1 *fitting = prof->GetFunction("pol1"); double slope = fitting->GetParameter(1); SlopeHistos.find(make_pair(slID.wheel(),slID.sector()))->second->setBinContent(BinNumber, slope); } } } } // Mean test string MeanCriterionName = parameters.getUntrackedParameter<string>("meanTestName","ResidualsMeanInRange"); for(map<pair<int,int>, MonitorElement*>::const_iterator hMean = MeanHistos.begin(); hMean != MeanHistos.end(); hMean++) { const QReport * theMeanQReport = (*hMean).second->getQReport(MeanCriterionName); stringstream wheel; wheel << (*hMean).first.first; stringstream sector; sector << (*hMean).first.second; // Report the channels failing the test on the mean if(theMeanQReport) { vector<dqm::me_util::Channel> badChannels = theMeanQReport->getBadChannels(); for (vector<dqm::me_util::Channel>::iterator channel = badChannels.begin(); channel != badChannels.end(); channel++) { edm::LogError("resolution") << "Bad mean channel: wh: " << wheel.str() << " st: " << stationFromBin((*channel).getBin()) << " sect: " <<sector.str() << " sl: " << slFromBin((*channel).getBin()) << " mean (cm): " << (*channel).getContents(); string HistoName = "W" + wheel.str() + "_Sec" + sector.str(); if(parameters.getUntrackedParameter<bool>("meanWrongHisto")){ MeanHistosSetRange.find(HistoName)->second->Fill((*channel).getBin()); MeanHistosSetRange2D.find(HistoName)->second->Fill((*channel).getBin(),(*channel).getContents()); } // fill the wheel summary histos if the SL has not passed the test if(abs((*channel).getContents())<parameters.getUntrackedParameter<double>("meanMaxLimit")) wheelMeanHistos[(*hMean).first.first]->Fill(((*hMean).first.second)-1,(*channel).getBin()-1,1); else wheelMeanHistos[(*hMean).first.first]->Fill(((*hMean).first.second)-1,(*channel).getBin()-1,2); // fill the cms summary histo if the percentual of SL which have not passed the test // is more than a predefined treshold if(abs((*channel).getContents())>parameters.getUntrackedParameter<double>("meanMaxLimit")){ cmsMeanHistos[make_pair((*hMean).first.first,(*hMean).first.second)]++; if(((*hMean).first.second<13 && double(cmsMeanHistos[make_pair((*hMean).first.first,(*hMean).first.second)])/11>double(percentual)/100 && MeanFilled[make_pair((*hMean).first.first,(*hMean).first.second)]==false) || ((*hMean).first.first>=13 && double(cmsMeanHistos[make_pair((*hMean).first.first,(*hMean).first.second)])/2>double(percentual)/100 && MeanFilled[make_pair((*hMean).first.first,(*hMean).first.second)]==false)){ MeanFilled[make_pair((*hMean).first.first,(*hMean).first.second)]=true; wheelMeanHistos[3]->Fill(((*hMean).first.second)-1,(*hMean).first.first); } } } // FIXE ME: if the quality test fails this cout return a null pointer //edm::LogWarning ("resolution") << "-------- wheel: "<<wheel.str()<<" sector: "<<sector.str()<<" "<<theMeanQReport->getMessage()<<" ------- "<<theMeanQReport->getStatus(); } } // Sigma test if(parameters.getUntrackedParameter<bool>("sigmaTest")){ string SigmaCriterionName = parameters.getUntrackedParameter<string>("sigmaTestName","ResidualsSigmaInRange"); for(map<pair<int,int>, MonitorElement*>::const_iterator hSigma = SigmaHistos.begin(); hSigma != SigmaHistos.end(); hSigma++) { const QReport * theSigmaQReport = (*hSigma).second->getQReport(SigmaCriterionName); stringstream wheel; wheel << (*hSigma).first.first; stringstream sector; sector << (*hSigma).first.second; if(theSigmaQReport) { vector<dqm::me_util::Channel> badChannels = theSigmaQReport->getBadChannels(); for (vector<dqm::me_util::Channel>::iterator channel = badChannels.begin(); channel != badChannels.end(); channel++) { edm::LogError("resolution") << "Bad sigma: wh: " << wheel.str() << " st: " << stationFromBin((*channel).getBin()) << " sect: " <<sector.str() << " sl: " << slFromBin((*channel).getBin()) << " sigma (cm): " << (*channel).getContents(); string HistoName = "W" + wheel.str() + "_Sec" + sector.str(); SigmaHistosSetRange.find(HistoName)->second->Fill((*channel).getBin()); SigmaHistosSetRange2D.find(HistoName)->second->Fill((*channel).getBin(),(*channel).getContents()); // fill the wheel summary histos if the SL has not passed the test wheelSigmaHistos[(*hSigma).first.first]->Fill(((*hSigma).first.second)-1,(*channel).getBin()-1); // fill the cms summary histo if the percentual of SL which have not passed the test // is more than a predefined treshold cmsSigmaHistos[make_pair((*hSigma).first.first,(*hSigma).first.second)]++; if(((*hSigma).first.second<13 && double(cmsSigmaHistos[make_pair((*hSigma).first.first,(*hSigma).first.second)])/11>double(percentual)/100 && SigmaFilled[make_pair((*hSigma).first.first,(*hSigma).first.second)]==false) || ((*hSigma).first.first>=13 && double(cmsSigmaHistos[make_pair((*hSigma).first.first,(*hSigma).first.second)])/2>double(percentual)/100 && SigmaFilled[make_pair((*hSigma).first.first,(*hSigma).first.second)]==false)){ SigmaFilled[make_pair((*hSigma).first.first,(*hSigma).first.second)]=true; wheelSigmaHistos[3]->Fill((*hSigma).first.second-1,(*hSigma).first.first); } } // FIXE ME: if the quality test fails this cout return a null pointer //edm::LogWarning ("resolution") << "-------- wheel: "<<wheel.str()<<" sector: "<<sector.str()<<" "<<theSigmaQReport->getMessage()<<" ------- "<<theSigmaQReport->getStatus(); } } } // Slope test if(parameters.getUntrackedParameter<bool>("slopeTest")){ string SlopeCriterionName = parameters.getUntrackedParameter<string>("slopeTestName","ResidualsSlopeInRange"); for(map<pair<int,int>, MonitorElement*>::const_iterator hSlope = SlopeHistos.begin(); hSlope != SlopeHistos.end(); hSlope++) { const QReport * theSlopeQReport = (*hSlope).second->getQReport(SlopeCriterionName); stringstream wheel; wheel << (*hSlope).first.first; stringstream sector; sector << (*hSlope).first.second; if(theSlopeQReport) { vector<dqm::me_util::Channel> badChannels = theSlopeQReport->getBadChannels(); for (vector<dqm::me_util::Channel>::iterator channel = badChannels.begin(); channel != badChannels.end(); channel++) { edm::LogError("resolution") << "Bad slope: wh: " << wheel.str() << " st: " << stationFromBin((*channel).getBin()) << " sect: " <<sector.str() << " sl: " << slFromBin((*channel).getBin()) << " slope: " << (*channel).getContents(); string HistoName = "W" + wheel.str() + "_Sec" + sector.str(); SlopeHistosSetRange.find(HistoName)->second->Fill((*channel).getBin()); SlopeHistosSetRange2D.find(HistoName)->second->Fill((*channel).getBin(),(*channel).getContents()); // fill the wheel summary histos if the SL has not passed the test wheelSlopeHistos[(*hSlope).first.first]->Fill(((*hSlope).first.second)-1,(*channel).getBin()-1); // fill the cms summary histo if the percentual of SL which have not passed the test // is more than a predefined treshold cmsSlopeHistos[make_pair((*hSlope).first.first,(*hSlope).first.second)]++; if(((*hSlope).first.second<13 && double(cmsSlopeHistos[make_pair((*hSlope).first.first,(*hSlope).first.second)])/11>double(percentual)/100 && SlopeFilled[make_pair((*hSlope).first.first,(*hSlope).first.second)]==false) || ((*hSlope).first.first>=13 && double(cmsSlopeHistos[make_pair((*hSlope).first.first,(*hSlope).first.second)])/2>double(percentual)/100 && SlopeFilled[make_pair((*hSlope).first.first,(*hSlope).first.second)]==false)){ SlopeFilled[make_pair((*hSlope).first.first,(*hSlope).first.second)]=true; wheelSlopeHistos[3]->Fill((*hSlope).first.second-1,(*hSlope).first.first); } } // FIXE ME: if the quality test fails this cout return a null pointer //edm::LogWarning ("resolution") << "-------- wheel: "<<wheel.str()<<" sector: "<<sector.str()<<" "<<theSlopeQReport->getMessage()<<" ------- "<<theSlopeQReport->getStatus(); } } } }
string DTResolutionTest::getMEName | ( | const DTSuperLayerId & | slID | ) | [protected] |
Get the ME name.
Definition at line 431 of file DTResolutionTest.cc.
References Parameters::parameters, DTChamberId::sector(), relativeConstraints::station, DTChamberId::station(), DTSuperLayerId::superlayer(), and DTChamberId::wheel().
{ stringstream wheel; wheel << slID.wheel(); stringstream station; station << slID.station(); stringstream sector; sector << slID.sector(); stringstream superLayer; superLayer << slID.superlayer(); string folderRoot = parameters.getUntrackedParameter<string>("folderRoot", "Collector/FU0/"); string folderName; if(parameters.getUntrackedParameter<bool>("calibModule", false)){ folderName = folderRoot + "DT/DTCalibValidation/Wheel" + wheel.str() + "/Station" + station.str() + "/Sector" + sector.str() + "/"; } else{ folderName = folderRoot + "DT/DTResolutionAnalysisTask/Wheel" + wheel.str() + "/Station" + station.str() + "/Sector" + sector.str() + "/"; } string histoTag = parameters.getUntrackedParameter<string>("histoTag", "hResDist"); string histoname = folderName + histoTag + "_W" + wheel.str() + "_St" + station.str() + "_Sec" + sector.str() + "_SL" + superLayer.str(); return histoname; }
string DTResolutionTest::getMEName2D | ( | const DTSuperLayerId & | slID | ) | [protected] |
Definition at line 467 of file DTResolutionTest.cc.
References Parameters::parameters, DTChamberId::sector(), relativeConstraints::station, DTChamberId::station(), DTSuperLayerId::superlayer(), and DTChamberId::wheel().
{ stringstream wheel; wheel << slID.wheel(); stringstream station; station << slID.station(); stringstream sector; sector << slID.sector(); stringstream superLayer; superLayer << slID.superlayer(); string folderRoot = parameters.getUntrackedParameter<string>("folderRoot", "Collector/FU0/"); string folderName; if(parameters.getUntrackedParameter<bool>("calibModule", false)){ folderName = folderRoot + "DT/DTCalibValidation/Wheel" + wheel.str() + "/Station" + station.str() + "/Sector" + sector.str() + "/"; } else{ folderName = folderRoot + "DT/DTResolutionAnalysisTask/Wheel" + wheel.str() + "/Station" + station.str() + "/Sector" + sector.str() + "/"; } string histoTag2D = parameters.getUntrackedParameter<string>("histoTag2D", "hResDistVsDist"); string histoname = folderName + histoTag2D + "_W" + wheel.str() + "_St" + station.str() + "_Sec" + sector.str() + "_SL" + superLayer.str(); return histoname; }
int DTResolutionTest::slFromBin | ( | int | bin | ) | const [private] |
Definition at line 775 of file DTResolutionTest.cc.
References runTheMatrix::ret.
int DTResolutionTest::stationFromBin | ( | int | bin | ) | const [private] |
Definition at line 770 of file DTResolutionTest.cc.
{ return (int) (bin /3.1)+1; }
std::map<std::pair<int,int>, int> DTResolutionTest::cmsMeanHistos [private] |
Definition at line 109 of file DTResolutionTest.h.
std::map<std::pair<int,int>, int> DTResolutionTest::cmsSigmaHistos [private] |
Definition at line 111 of file DTResolutionTest.h.
std::map<std::pair<int,int>, int> DTResolutionTest::cmsSlopeHistos [private] |
Definition at line 113 of file DTResolutionTest.h.
DQMStore* DTResolutionTest::dbe [private] |
Definition at line 87 of file DTResolutionTest.h.
std::map<std::pair<int,int>, bool> DTResolutionTest::MeanFilled [private] |
Definition at line 110 of file DTResolutionTest.h.
std::map< std::pair<int,int> , MonitorElement* > DTResolutionTest::MeanHistos [private] |
Definition at line 93 of file DTResolutionTest.h.
std::map< std::string , MonitorElement* > DTResolutionTest::MeanHistosSetRange [private] |
Definition at line 96 of file DTResolutionTest.h.
std::map< std::string , MonitorElement* > DTResolutionTest::MeanHistosSetRange2D [private] |
Definition at line 99 of file DTResolutionTest.h.
edm::ESHandle<DTGeometry> DTResolutionTest::muonGeom [private] |
Definition at line 90 of file DTResolutionTest.h.
int DTResolutionTest::nevents [private] |
Definition at line 81 of file DTResolutionTest.h.
unsigned int DTResolutionTest::nLumiSegs [private] |
Definition at line 82 of file DTResolutionTest.h.
Definition at line 89 of file DTResolutionTest.h.
int DTResolutionTest::percentual [private] |
Definition at line 85 of file DTResolutionTest.h.
int DTResolutionTest::prescaleFactor [private] |
Definition at line 83 of file DTResolutionTest.h.
int DTResolutionTest::run [private] |
Definition at line 84 of file DTResolutionTest.h.
std::map<std::pair<int,int>, bool> DTResolutionTest::SigmaFilled [private] |
Definition at line 112 of file DTResolutionTest.h.
std::map< std::pair<int,int> , MonitorElement* > DTResolutionTest::SigmaHistos [private] |
Definition at line 94 of file DTResolutionTest.h.
std::map< std::string , MonitorElement* > DTResolutionTest::SigmaHistosSetRange [private] |
Definition at line 97 of file DTResolutionTest.h.
std::map< std::string , MonitorElement* > DTResolutionTest::SigmaHistosSetRange2D [private] |
Definition at line 100 of file DTResolutionTest.h.
std::map<std::pair<int,int>, bool> DTResolutionTest::SlopeFilled [private] |
Definition at line 114 of file DTResolutionTest.h.
std::map< std::pair<int,int> , MonitorElement* > DTResolutionTest::SlopeHistos [private] |
Definition at line 95 of file DTResolutionTest.h.
std::map< std::string , MonitorElement* > DTResolutionTest::SlopeHistosSetRange [private] |
Definition at line 98 of file DTResolutionTest.h.
std::map< std::string , MonitorElement* > DTResolutionTest::SlopeHistosSetRange2D [private] |
Definition at line 101 of file DTResolutionTest.h.
std::map< int, MonitorElement* > DTResolutionTest::wheelMeanHistos [private] |
Definition at line 104 of file DTResolutionTest.h.
std::map< int, MonitorElement* > DTResolutionTest::wheelSigmaHistos [private] |
Definition at line 105 of file DTResolutionTest.h.
std::map< int, MonitorElement* > DTResolutionTest::wheelSlopeHistos [private] |
Definition at line 106 of file DTResolutionTest.h.