#include <HTrack.h>
HTrack::HTrack | ( | std::string | , |
std::string | name, | ||
std::string | whereIs = "" |
||
) |
Definition at line 17 of file HTrack.cc.
References DQMStore::cd(), dbe_, TrackerOfflineValidation_Dqm_cff::dirName, doSubHisto, hPull, hPull_08, hPull_08_12, hPull_10_40, hPull_12_21, hPull_12_21_minus, hPull_12_21_plus, hPull_12_24, hPull_12_24_minus, hPull_12_24_plus, hPull_40_70, hPull_5_10, hPull_70_100, hResolution, hResolution_08, hResolution_08_12, hResolution_10_40, hResolution_12_21, hResolution_12_21_minus, hResolution_12_21_plus, hResolution_12_24, hResolution_12_24_minus, hResolution_12_24_plus, hResolution_40_70, hResolution_5_10, hResolution_70_100, hTDRPull, hTDRResolution, hTDRResolution_08, hTDRResolution_08_12, hTDRResolution_10_40, hTDRResolution_12_21, hTDRResolution_12_21_minus, hTDRResolution_12_21_plus, hTDRResolution_12_24, hTDRResolution_12_24_minus, hTDRResolution_12_24_plus, hTDRResolution_40_70, hTDRResolution_5_10, hTDRResolution_70_100, hVariables, AlCaRecoCosmics_cfg::name, cmsCodeRules::cppFunctionSkipper::operator, and DQMStore::setCurrentFolder().
: theName(name.c_str()),where(whereIs.c_str()){ dbe_ = edm::Service<DQMStore>().operator->(); dbe_->cd(); std::string dirName=dirName_; dirName+="/"; dirName+=name.c_str(); dirName+="_"; dirName+=whereIs.c_str(); dbe_->cd(); dbe_->setCurrentFolder(dirName.c_str()); hVariables = new HTrackVariables(dirName.c_str(),name,whereIs); dbe_->cd(); dbe_->setCurrentFolder(dirName.c_str()); string resName = dirName; resName+="/Resolution"; hResolution = new HResolution(resName.c_str(),name+"_Res",whereIs); dbe_->cd(); dbe_->setCurrentFolder(dirName.c_str()); hTDRResolution = new HResolution(resName.c_str(),name+"_TDRRes",whereIs); dbe_->cd(); dbe_->setCurrentFolder(dirName.c_str()); string pullName = dirName; pullName+="/Pull"; hPull = new HResolution(pullName.c_str(),name+"_Pull",whereIs); hTDRPull = new HResolution(pullName.c_str(),name+"_TDRPull",whereIs); doSubHisto = false; if(doSubHisto){ dbe_->cd(); dbe_->setCurrentFolder(dirName.c_str()); string subName = dirName; subName+="/subHistos"; // [5-10] GeV range hResolution_5_10 = new HResolution(subName.c_str(),name+"_Res_Pt_5_10",whereIs); hTDRResolution_5_10 = new HResolution(subName.c_str(),name+"_TDRRes_Pt_5_10",whereIs); hPull_5_10 = new HResolution(subName.c_str(),name+"_Pull_Pt_5_10",whereIs); hResolution_10_40 = new HResolution(subName.c_str(),name+"_Res_Pt_10_40",whereIs); hTDRResolution_10_40 = new HResolution(subName.c_str(),name+"_TDRRes_Pt_10_40",whereIs); hPull_10_40 = new HResolution(subName.c_str(),name+"_Pull_Pt_10_40",whereIs); hResolution_40_70 = new HResolution(subName.c_str(),name+"_Res_Pt_40_70",whereIs); hTDRResolution_40_70 = new HResolution(subName.c_str(),name+"_TDRRes_Pt_40_70",whereIs); hPull_40_70 = new HResolution(subName.c_str(),name+"_Pull_Pt_40_70",whereIs); hResolution_70_100 = new HResolution(subName.c_str(),name+"_Res_Pt_70_100",whereIs); hTDRResolution_70_100 = new HResolution(subName.c_str(),name+"_TDRRes_Pt_70_100",whereIs); hPull_70_100 = new HResolution(subName.c_str(),name+"_Pull_Pt_70_100",whereIs); hResolution_08 = new HResolution(subName.c_str(),name+"_Res_Eta_08",whereIs); hTDRResolution_08 = new HResolution(subName.c_str(),name+"_TDRRes_Eta_08",whereIs); hPull_08 = new HResolution(subName.c_str(),name+"_Pull_Eta_08",whereIs); hResolution_08_12 = new HResolution(subName.c_str(),name+"_Res_Eta_08_12",whereIs); hTDRResolution_08_12 = new HResolution(subName.c_str(),name+"_TDRRes_Eta_08_12",whereIs); hPull_08_12 = new HResolution(subName.c_str(),name+"_Pull_Eta_08_12",whereIs); hResolution_12_21 = new HResolution(subName.c_str(),name+"_Res_Eta_12_21",whereIs); hTDRResolution_12_21 = new HResolution(subName.c_str(),name+"_TDRRes_Eta_12_21",whereIs); hPull_12_21 = new HResolution(subName.c_str(),name+"_Pull_Eta_12_21",whereIs); hResolution_12_24 = new HResolution(subName.c_str(),name+"_Res_Eta_12_24",whereIs); hTDRResolution_12_24 = new HResolution(subName.c_str(),name+"_TDRRes_Eta_12_24",whereIs); hPull_12_24 = new HResolution(subName.c_str(),name+"_Pull_Eta_12_24",whereIs); hResolution_12_21_plus = new HResolution(subName.c_str(),name+"_Res_Eta_12_21_plus",whereIs); hTDRResolution_12_21_plus = new HResolution(subName.c_str(),name+"_TDRRes_Eta_12_21_plus",whereIs); hPull_12_21_plus = new HResolution(subName.c_str(),name+"_Pull_Eta_12_21_plus",whereIs); hResolution_12_24_plus = new HResolution(subName.c_str(),name+"_Res_Eta_12_24_plus",whereIs); hTDRResolution_12_24_plus = new HResolution(subName.c_str(),name+"_TDRRes_Eta_12_24_plus",whereIs); hPull_12_24_plus = new HResolution(subName.c_str(),name+"_Pull_Eta_12_24_plus",whereIs); hResolution_12_21_minus = new HResolution(subName.c_str(),name+"_Res_Eta_12_21_minus",whereIs); hTDRResolution_12_21_minus = new HResolution(subName.c_str(),name+"_TDRRes_Eta_12_21_minus",whereIs); hPull_12_21_minus = new HResolution(subName.c_str(),name+"_Pull_Eta_12_21_minus",whereIs); hResolution_12_24_minus = new HResolution(subName.c_str(),name+"_Res_Eta_12_24_minus",whereIs); hTDRResolution_12_24_minus = new HResolution(subName.c_str(),name+"_TDRRes_Eta_12_24_minus",whereIs); hPull_12_24_minus = new HResolution(subName.c_str(),name+"_Pull_Eta_12_24_minus",whereIs); } }
double HTrack::computeEfficiency | ( | HTrackVariables * | sim | ) |
Definition at line 372 of file DQMGenericClient.cc.
References i, and mathSSE::sqrt().
{ if ( ! theDQM->dirExists(startDir) ) { if ( verbose_ >= 2 || (verbose_ == 1 && !isWildcardUsed_) ) { LogInfo("DQMGenericClient") << "computeEfficiency() : " << "Cannot find sub-directory " << startDir << endl; } return; } theDQM->cd(); ME* simME = theDQM->get(startDir+"/"+simMEName); ME* recoME = theDQM->get(startDir+"/"+recoMEName); if ( !simME ) { if ( verbose_ >= 2 || (verbose_ == 1 && !isWildcardUsed_) ) { LogInfo("DQMGenericClient") << "computeEfficiency() : " << "No sim-ME '" << simMEName << "' found\n"; } return; } if ( !recoME ) { if ( verbose_ >= 2 || (verbose_ == 1 && !isWildcardUsed_) ) { LogInfo("DQMGenericClient") << "computeEfficiency() : " << "No reco-ME '" << recoMEName << "' found\n"; } return; } // Treat everything as the base class, TH1 TH1* hSim = simME ->getTH1(); TH1* hReco = recoME->getTH1(); if ( !hSim || !hReco ) { if ( verbose_ >= 2 || (verbose_ == 1 && !isWildcardUsed_) ) { LogInfo("DQMGenericClient") << "computeEfficiency() : " << "Cannot create TH1 from ME\n"; } return; } string efficDir = startDir; string newEfficMEName = efficMEName; string::size_type shiftPos; if ( string::npos != (shiftPos = efficMEName.rfind('/')) ) { efficDir += "/"+efficMEName.substr(0, shiftPos); newEfficMEName.erase(0, shiftPos+1); } theDQM->setCurrentFolder(efficDir); if (makeProfile) { TProfile * efficHist = (hReco->GetXaxis()->GetXbins()->GetSize()==0) ? new TProfile(newEfficMEName.c_str(), efficMETitle.c_str(), hReco->GetXaxis()->GetNbins(), hReco->GetXaxis()->GetXmin(), hReco->GetXaxis()->GetXmax()) : new TProfile(newEfficMEName.c_str(), efficMETitle.c_str(), hReco->GetXaxis()->GetNbins(), hReco->GetXaxis()->GetXbins()->GetArray()); #if ROOT_VERSION_CODE >= ROOT_VERSION(5,27,0) for (int i=1; i <= hReco->GetNbinsX(); i++) { const double nReco = hReco->GetBinContent(i); const double nSim = hSim->GetBinContent(i); if ( nSim == 0 || nReco > nSim ) continue; const double effVal = nReco/nSim; const double errLo = TEfficiency::ClopperPearson((int)hSim->GetBinContent(i), (int)hReco->GetBinContent(i), 0.683,false); const double errUp = TEfficiency::ClopperPearson((int)hSim->GetBinContent(i), (int)hReco->GetBinContent(i), 0.683,true); const double errVal = (effVal - errLo > errUp - effVal) ? effVal - errLo : errUp - effVal; efficHist->SetBinContent(i, effVal); efficHist->SetBinEntries(i, 1); efficHist->SetBinError(i, sqrt(effVal * effVal + errVal * errVal)); } #else for (int i=1; i <= hReco->GetNbinsX(); i++) { TGraphAsymmErrorsWrapper asymm; std::pair<double, double> efficiencyWithError; efficiencyWithError = asymm.efficiency((int)hReco->GetBinContent(i), (int)hSim->GetBinContent(i)); double effVal = efficiencyWithError.first; double errVal = efficiencyWithError.second; if ((int)hSim->GetBinContent(i) > 0) { efficHist->SetBinContent(i, effVal); efficHist->SetBinEntries(i, 1); efficHist->SetBinError(i, sqrt(effVal * effVal + errVal * errVal)); } } #endif theDQM->bookProfile(newEfficMEName.c_str(),efficHist); delete efficHist; } else { TH1* efficHist = (TH1*)hSim->Clone(newEfficMEName.c_str()); efficHist->SetTitle(efficMETitle.c_str()); // Here is where you have trouble --- you need // to understand what type of hist you have. ME* efficME = 0; // Parse the class name // This works, but there might be a better way TClass * myHistClass = efficHist->IsA(); TString histClassName = myHistClass->GetName(); if (histClassName == "TH1F"){ efficME = theDQM->book1D(newEfficMEName, (TH1F*)efficHist); } else if (histClassName == "TH2F"){ efficME = theDQM->book2D(newEfficMEName, (TH2F*)efficHist); } else if (histClassName == "TH3F"){ efficME = theDQM->book3D(newEfficMEName, (TH3F*)efficHist); } if ( !efficME ) { LogInfo("DQMGenericClient") << "computeEfficiency() : " << "Cannot book effic-ME from the DQM\n"; return; } // Update: 2009-9-16 slaunwhj // call the most generic efficiency function // works up to 3-d histograms generic_eff (hSim, hReco, efficME, type); // const int nBin = efficME->getNbinsX(); // for(int bin = 0; bin <= nBin; ++bin) { // const float nSim = simME ->getBinContent(bin); // const float nReco = recoME->getBinContent(bin); // float eff =0; // if (type=="fake")eff = nSim ? 1-nReco/nSim : 0.; // else eff= nSim ? nReco/nSim : 0.; // const float err = nSim && eff <= 1 ? sqrt(eff*(1-eff)/nSim) : 0.; // efficME->setBinContent(bin, eff); // efficME->setBinError(bin, err); // } efficME->setEntries(simME->getEntries()); } // Global efficiency ME* globalEfficME = theDQM->get(efficDir+"/globalEfficiencies"); if ( !globalEfficME ) globalEfficME = theDQM->book1D("globalEfficiencies", "Global efficiencies", 1, 0, 1); if ( !globalEfficME ) { LogInfo("DQMGenericClient") << "computeEfficiency() : " << "Cannot book globalEffic-ME from the DQM\n"; return; } TH1F* hGlobalEffic = globalEfficME->getTH1F(); if ( !hGlobalEffic ) { LogInfo("DQMGenericClient") << "computeEfficiency() : " << "Cannot create TH1F from ME, globalEfficME\n"; return; } const float nSimAll = hSim->GetEntries(); const float nRecoAll = hReco->GetEntries(); float efficAll=0; if ( type == 1 ) efficAll = nSimAll ? nRecoAll/nSimAll : 0; else if ( type == 2 ) efficAll = nSimAll ? 1-nRecoAll/nSimAll : 0; const float errorAll = nSimAll && efficAll < 1 ? sqrt(efficAll*(1-efficAll)/nSimAll) : 0; const int iBin = hGlobalEffic->Fill(newEfficMEName.c_str(), 0); hGlobalEffic->SetBinContent(iBin, efficAll); hGlobalEffic->SetBinError(iBin, errorAll); }
void HTrack::computePull | ( | FreeTrajectoryState & | fts, |
SimTrack & | simTracks, | ||
HResolution * | hReso | ||
) |
Definition at line 288 of file HTrack.cc.
References abs, FreeTrajectoryState::cartesianError(), FreeTrajectoryState::charge(), FreeTrajectoryState::curvilinearError(), ExpressReco_HICollisions_FallBack::errors, PV3DBase< T, PVType, FrameType >::eta(), HResolution::Fill(), PV3DBase< T, PVType, FrameType >::mag(), CartesianTrajectoryError::matrix_old(), CurvilinearTrajectoryError::matrix_old(), CoreSimTrack::momentum(), FreeTrajectoryState::momentum(), PV3DBase< T, PVType, FrameType >::perp(), PV3DBase< T, PVType, FrameType >::phi(), funct::pow(), pull(), funct::sin(), mathSSE::sqrt(), PV3DBase< T, PVType, FrameType >::theta(), CoreSimTrack::type(), PV3DBase< T, PVType, FrameType >::x(), PV3DBase< T, PVType, FrameType >::y(), and PV3DBase< T, PVType, FrameType >::z().
Referenced by computeResolutionAndPull().
{ // x,y,z, px,py,pz AlgebraicSymMatrix errors = fts.cartesianError().matrix_old(); double partialPterror = errors[3][3]*pow(fts.momentum().x(),2) + errors[4][4]*pow(fts.momentum().y(),2); // sqrt( (px*spx)^2 + (py*spy)^2 ) / pt double pterror = sqrt(partialPterror)/fts.momentum().perp(); // sqrt( (px*spx)^2 + (py*spy)^2 + (pz*spz)^2 ) / p double perror = sqrt(partialPterror+errors[5][5]*pow(fts.momentum().z(),2))/fts.momentum().mag(); double phierror = sqrt(fts.curvilinearError().matrix_old()[2][2]); double etaerror = sqrt(fts.curvilinearError().matrix_old()[1][1])*abs(sin(fts.momentum().theta())); hReso->Fill(simTrack.momentum().mag(), sqrt(simTrack.momentum().Perp2()), simTrack.momentum().eta(), simTrack.momentum().phi(), pull(fts.momentum().mag(),simTrack.momentum().mag(),perror), pull(fts.momentum().perp(),sqrt(simTrack.momentum().Perp2()),pterror), pull(fts.momentum().eta(),simTrack.momentum().eta(),etaerror), pull(fts.momentum().phi(),simTrack.momentum().phi(),phierror), pull(fts.charge() , -simTrack.type()/ abs(simTrack.type()), 1.)); // FIXME }
void HTrack::computeResolution | ( | FreeTrajectoryState & | fts, |
SimTrack & | simTracks, | ||
HResolution * | hReso | ||
) |
Definition at line 255 of file HTrack.cc.
References abs, FreeTrajectoryState::charge(), PV3DBase< T, PVType, FrameType >::eta(), HResolution::Fill(), PV3DBase< T, PVType, FrameType >::mag(), CoreSimTrack::momentum(), FreeTrajectoryState::momentum(), PV3DBase< T, PVType, FrameType >::perp(), PV3DBase< T, PVType, FrameType >::phi(), resolution(), mathSSE::sqrt(), and CoreSimTrack::type().
Referenced by computeResolutionAndPull().
{ hReso->Fill(simTrack.momentum().mag(), sqrt(simTrack.momentum().Perp2()), simTrack.momentum().eta(), simTrack.momentum().phi(), resolution(fts.momentum().mag(),simTrack.momentum().mag()), resolution(fts.momentum().perp(),sqrt(simTrack.momentum().Perp2())), fts.momentum().eta()-simTrack.momentum().eta(), fts.momentum().phi()-simTrack.momentum().phi(), fts.charge()+simTrack.type()/abs(simTrack.type())); // FIXME }
void HTrack::computeResolutionAndPull | ( | TrajectoryStateOnSurface & | vtx, |
SimTrack & | simTrack | ||
) |
Definition at line 152 of file HTrack.cc.
References TrajectoryStateOnSurface::freeState().
Referenced by MuonTrackAnalyzer::fillPlots().
{ computeResolutionAndPull(*tsos.freeState(),simTrack); }
void HTrack::computeResolutionAndPull | ( | FreeTrajectoryState & | fts, |
SimTrack & | simTrack | ||
) |
Definition at line 157 of file HTrack.cc.
References abs, computePull(), computeResolution(), computeTDRResolution(), doSubHisto, HTrackVariables::Fill(), hPull, hPull_08, hPull_08_12, hPull_10_40, hPull_12_21, hPull_12_21_minus, hPull_12_21_plus, hPull_12_24, hPull_12_24_minus, hPull_12_24_plus, hPull_40_70, hPull_5_10, hPull_70_100, hResolution, hResolution_08, hResolution_08_12, hResolution_10_40, hResolution_12_21, hResolution_12_21_minus, hResolution_12_21_plus, hResolution_12_24, hResolution_12_24_minus, hResolution_12_24_plus, hResolution_40_70, hResolution_5_10, hResolution_70_100, hTDRResolution, hTDRResolution_08, hTDRResolution_08_12, hTDRResolution_10_40, hTDRResolution_12_21, hTDRResolution_12_21_minus, hTDRResolution_12_21_plus, hTDRResolution_12_24, hTDRResolution_12_24_minus, hTDRResolution_12_24_plus, hTDRResolution_40_70, hTDRResolution_5_10, hTDRResolution_70_100, hVariables, CoreSimTrack::momentum(), and mathSSE::sqrt().
{ // Global Resolution computeResolution(fts,simTrack,hResolution); computePull(fts,simTrack,hPull); // TDR Resolution computeTDRResolution(fts,simTrack,hTDRResolution); // computeTDRPull(fts,simTracks,hTDRPull); hVariables->Fill(sqrt(simTrack.momentum().Perp2()), simTrack.momentum().eta(), simTrack.momentum().phi()); //FIXME if(doSubHisto){ // [5-10] GeV range if(sqrt(simTrack.momentum().Perp2()) <10 ){ computeResolution(fts,simTrack,hResolution_5_10); computeTDRResolution(fts,simTrack,hTDRResolution_5_10); computePull(fts,simTrack,hPull_5_10); } // [10-40] GeV range if(sqrt(simTrack.momentum().Perp2()) >=10 && sqrt(simTrack.momentum().Perp2()) < 40){ computeResolution(fts,simTrack,hResolution_10_40); computeTDRResolution(fts,simTrack, hTDRResolution_10_40); computePull(fts,simTrack,hPull_10_40); } // [40-70] GeV range if(sqrt(simTrack.momentum().Perp2()) >=40 && sqrt(simTrack.momentum().Perp2()) < 70){ computeResolution(fts,simTrack,hResolution_40_70); computeTDRResolution(fts,simTrack,hTDRResolution_40_70); computePull(fts,simTrack,hPull_40_70); } // [70-100] GeV range if(sqrt(simTrack.momentum().Perp2()) >= 70 && sqrt(simTrack.momentum().Perp2()) < 100){ computeResolution(fts,simTrack,hResolution_70_100); computeTDRResolution(fts,simTrack,hTDRResolution_70_100); computePull(fts,simTrack,hPull_70_100); } // eta range |eta|<0.8 if(abs(simTrack.momentum().eta()) <= 0.8){ computeResolution(fts,simTrack,hResolution_08); computeTDRResolution(fts,simTrack, hTDRResolution_08); computePull(fts,simTrack,hPull_08); } // eta range 0.8<|eta|<1.2 if( abs(simTrack.momentum().eta()) > 0.8 && abs(simTrack.momentum().eta()) <= 1.2 ){ computeResolution(fts,simTrack,hResolution_08_12); computeTDRResolution(fts,simTrack, hTDRResolution_08_12); computePull(fts,simTrack,hPull_08_12); } // eta range 1.2<|eta|<2.1 if( abs(simTrack.momentum().eta()) > 1.2 && abs(simTrack.momentum().eta()) <= 2.1 ){ computeResolution(fts,simTrack,hResolution_12_21); computeTDRResolution(fts,simTrack, hTDRResolution_12_21); computePull(fts,simTrack,hPull_12_21); if(simTrack.momentum().eta() > 0){ computeResolution(fts,simTrack,hResolution_12_21_plus); computeTDRResolution(fts,simTrack, hTDRResolution_12_21_plus); computePull(fts,simTrack,hPull_12_21_plus); } else{ computeResolution(fts,simTrack,hResolution_12_21_minus); computeTDRResolution(fts,simTrack, hTDRResolution_12_21_minus); computePull(fts,simTrack,hPull_12_21_minus); } } // eta range 1.2<|eta|<2.4 if( abs(simTrack.momentum().eta()) > 1.2 && abs(simTrack.momentum().eta()) <= 2.4 ){ computeResolution(fts,simTrack,hResolution_12_24); computeTDRResolution(fts,simTrack, hTDRResolution_12_24); computePull(fts,simTrack,hPull_12_24); if(simTrack.momentum().eta() > 0){ computeResolution(fts,simTrack,hResolution_12_24_plus); computeTDRResolution(fts,simTrack, hTDRResolution_12_24_plus); computePull(fts,simTrack,hPull_12_24_plus); } else{ computeResolution(fts,simTrack,hResolution_12_24_minus); computeTDRResolution(fts,simTrack, hTDRResolution_12_24_minus); computePull(fts,simTrack,hPull_12_24_minus); } } } }
void HTrack::computeTDRResolution | ( | FreeTrajectoryState & | fts, |
SimTrack & | simTracks, | ||
HResolution * | hReso | ||
) |
Definition at line 271 of file HTrack.cc.
References abs, FreeTrajectoryState::charge(), HResolution::Fill(), CoreSimTrack::momentum(), FreeTrajectoryState::momentum(), PV3DBase< T, PVType, FrameType >::perp(), resolution(), FreeTrajectoryState::signedInverseMomentum(), mathSSE::sqrt(), and CoreSimTrack::type().
Referenced by computeResolutionAndPull().
{ int simCharge = -simTrack.type()/ abs(simTrack.type()); double invSimP = (simTrack.momentum().mag() == 0 ) ? 0 : simTrack.momentum().mag(); double signedInverseRecMom = (simTrack.momentum().mag() == 0 ) ? 0 : fts.signedInverseMomentum(); hReso->Fill(simTrack.momentum().mag(), sqrt(simTrack.momentum().Perp2()), simTrack.momentum().eta(), simTrack.momentum().phi(), resolution(signedInverseRecMom , simCharge*invSimP ), resolution(fts.charge()/fts.momentum().perp(),simCharge/sqrt(simTrack.momentum().Perp2()))); }
void HTrack::Fill | ( | TrajectoryStateOnSurface & | tsos | ) |
Definition at line 129 of file HTrack.cc.
References TrajectoryStateOnSurface::freeState().
Referenced by MuonTrackAnalyzer::fillPlots().
void HTrack::Fill | ( | FreeTrajectoryState & | fts | ) |
Definition at line 133 of file HTrack.cc.
References FreeTrajectoryState::charge(), PV3DBase< T, PVType, FrameType >::eta(), HTrackVariables::Fill(), hVariables, PV3DBase< T, PVType, FrameType >::mag(), FreeTrajectoryState::momentum(), PV3DBase< T, PVType, FrameType >::perp(), and PV3DBase< T, PVType, FrameType >::phi().
void HTrack::FillDeltaR | ( | double | deltaR | ) |
Definition at line 142 of file HTrack.cc.
References HTrackVariables::FillDeltaR(), and hVariables.
Referenced by MuonTrackAnalyzer::fillPlots().
{ hVariables->FillDeltaR(deltaR); }
double HTrack::pull | ( | double | rec, |
double | sim, | ||
double | sigmarec | ||
) |
Definition at line 152 of file LA_Results.cc.
References L1TEmulatorMonitor_cff::p, and funct::pow().
Referenced by computePull().
double HTrack::resolution | ( | double | rec, |
double | sim | ||
) |
Definition at line 124 of file HTrack.cc.
References ExpressReco_HICollisions_FallBack::sim.
Referenced by computeResolution(), and computeTDRResolution().
DQMStore* HTrack::dbe_ [private] |
bool HTrack::doSubHisto [private] |
Definition at line 123 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull [private] |
Definition at line 54 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_08 [private] |
Definition at line 83 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_08_12 [private] |
Definition at line 88 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_10_40 [private] |
Definition at line 68 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_12_21 [private] |
Definition at line 93 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_12_21_minus [private] |
Definition at line 113 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_12_21_plus [private] |
Definition at line 103 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_12_24 [private] |
Definition at line 98 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_12_24_minus [private] |
Definition at line 118 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_12_24_plus [private] |
Definition at line 108 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_40_70 [private] |
Definition at line 73 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_5_10 [private] |
Definition at line 63 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hPull_70_100 [private] |
Definition at line 78 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution [private] |
Definition at line 53 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_08 [private] |
Definition at line 81 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_08_12 [private] |
Definition at line 86 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_10_40 [private] |
Definition at line 66 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_12_21 [private] |
Definition at line 91 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_12_21_minus [private] |
Definition at line 111 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_12_21_plus [private] |
Definition at line 101 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_12_24 [private] |
Definition at line 96 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_12_24_minus [private] |
Definition at line 116 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_12_24_plus [private] |
Definition at line 106 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_40_70 [private] |
Definition at line 71 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_5_10 [private] |
Definition at line 61 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hResolution_70_100 [private] |
Definition at line 76 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRPull [private] |
HResolution* HTrack::hTDRResolution [private] |
Definition at line 57 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_08 [private] |
Definition at line 82 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_08_12 [private] |
Definition at line 87 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_10_40 [private] |
Definition at line 67 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_12_21 [private] |
Definition at line 92 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_12_21_minus [private] |
Definition at line 112 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_12_21_plus [private] |
Definition at line 102 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_12_24 [private] |
Definition at line 97 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_12_24_minus [private] |
Definition at line 117 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_12_24_plus [private] |
Definition at line 107 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_40_70 [private] |
Definition at line 72 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_5_10 [private] |
Definition at line 62 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HResolution* HTrack::hTDRResolution_70_100 [private] |
Definition at line 77 of file HTrack.h.
Referenced by computeResolutionAndPull(), and HTrack().
HTrackVariables* HTrack::hVariables [private] |
Definition at line 50 of file HTrack.h.
Referenced by computeResolutionAndPull(), Fill(), FillDeltaR(), and HTrack().
TString HTrack::theName [private] |
TString HTrack::where [private] |