#include <Histograms.h>
Public Member Functions | |
void | ComputeEfficiency () |
void | Fill (float distSimHit, float etaSimHit, float phiSimHit, bool fillRecHit) |
HEff1DHit (std::string name_, DQMStore *dbe_) | |
~HEff1DHit () | |
Public Attributes | |
MonitorElement * | hDistMuSimHit |
MonitorElement * | hDistRecHit |
TH1F * | hEffVsDist |
TH1F * | hEffVsEta |
TH1F * | hEffVsPhi |
MonitorElement * | hEtaMuSimHit |
MonitorElement * | hEtaRecHit |
MonitorElement * | hPhiMuSimHit |
MonitorElement * | hPhiRecHit |
TString | name |
Definition at line 163 of file Histograms.h.
HEff1DHit::HEff1DHit | ( | std::string | name_, |
DQMStore * | dbe_ | ||
) | [inline] |
Definition at line 165 of file Histograms.h.
References DQMStore::book1D(), hDistMuSimHit, hDistRecHit, hEffVsDist, hEffVsEta, hEffVsPhi, hEtaMuSimHit, hEtaRecHit, hPhiMuSimHit, hPhiRecHit, name, Pi, and DQMStore::setCurrentFolder().
{ std::string pre ="1D_"; pre += name_; name = pre; dbe_->setCurrentFolder("DT/1DRecHits/"); hEtaMuSimHit=0; hEtaMuSimHit = dbe_->book1D(pre+"_hEtaMuSimHit", "SimHit Eta distribution",100, -1.5, 1.5); hEtaRecHit=0; hEtaRecHit = dbe_->book1D(pre+"_hEtaRecHit", "SimHit Eta distribution with 1D RecHit",100, -1.5, 1.5); hEffVsEta = 0; hPhiMuSimHit=0; hPhiMuSimHit = dbe_->book1D(pre+"_hPhiMuSimHit", "SimHit Phi distribution",100, -TMath::Pi(),TMath::Pi()); hPhiRecHit=0; hPhiRecHit = dbe_->book1D(pre+"_hPhiRecHit", "SimHit Phi distribution with 1D RecHit",100, -TMath::Pi(),TMath::Pi()); hEffVsPhi = 0; hDistMuSimHit=0;hDistMuSimHit = dbe_->book1D(pre+"_hDistMuSimHit", "SimHit Distance from wire distribution",100, 0, 2.5); hDistRecHit=0; hDistRecHit = dbe_->book1D(pre+"_hDistRecHit", "SimHit Distance from wire distribution with 1D RecHit",100, 0, 2.5); hEffVsDist = 0; }
HEff1DHit::~HEff1DHit | ( | ) | [inline] |
Definition at line 198 of file Histograms.h.
{ // delete hEtaMuSimHit; // delete hEtaRecHit; // if(hEffVsEta != 0) // delete hEffVsEta; // delete hPhiMuSimHit; // delete hPhiRecHit; // if(hEffVsPhi != 0) // delete hEffVsPhi; // delete hDistMuSimHit; // delete hDistRecHit; // if(hEffVsDist != 0) // delete hEffVsDist; }
void HEff1DHit::ComputeEfficiency | ( | ) | [inline] |
Definition at line 234 of file Histograms.h.
References newFWLiteAna::bin, interpolateCardsSimple::eff, error, MonitorElement::getTH1(), hDistMuSimHit, hDistRecHit, hEffVsDist, hEffVsEta, hEffVsPhi, hEtaMuSimHit, hEtaRecHit, hPhiMuSimHit, hPhiRecHit, name, and mathSSE::sqrt().
{ // hEffVsEta = (TH1F *) hEtaRecHit->Clone(); hEffVsEta = (TH1F *) hEtaRecHit->getTH1(); TH1F * hEffEtaMuSimHit = (TH1F *) hEtaMuSimHit->getTH1(); hEffVsEta->SetTitle("1D RecHit Efficiency as a function of Eta"); hEffVsEta->SetName(name+"_hEffVsEta"); //hEffVsEta->Divide(hEtaMuSimHit); hEffVsEta->Divide(hEffEtaMuSimHit); // Set the error accordingly to binomial statistics int nBinsEta = hEffVsEta->GetNbinsX(); for(int bin = 1; bin <= nBinsEta; bin++) { float nSimHit = hEffEtaMuSimHit->GetBinContent(bin); float eff = hEffVsEta->GetBinContent(bin); float error = 0; if(nSimHit != 0) { error = sqrt(eff*(1-eff)/nSimHit); } hEffVsEta->SetBinError(bin, error); } //hEffVsPhi = (TH1F *) hPhiRecHit->Clone(); hEffVsPhi = (TH1F *) hPhiRecHit->getTH1(); TH1F * hEffPhiMuSimHit = (TH1F *) hPhiMuSimHit->getTH1(); hEffVsPhi->SetTitle("1D RecHit Efficiency as a function of Phi"); hEffVsPhi->SetName(name+"_hEffVsPhi"); hEffVsPhi->Divide(hEffPhiMuSimHit); // Set the error accordingly to binomial statistics int nBinsPhi = hEffVsPhi->GetNbinsX(); for(int bin = 1; bin <= nBinsPhi; bin++) { float nSimHit = hEffPhiMuSimHit->GetBinContent(bin); float eff = hEffVsPhi->GetBinContent(bin); float error = 0; if(nSimHit != 0) { error = sqrt(eff*(1-eff)/nSimHit); } hEffVsPhi->SetBinError(bin, error); } //hEffVsDist = (TH1F *) hDistRecHit->Clone(); hEffVsDist = (TH1F *) hDistRecHit->getTH1(); TH1F * hEffDistMuSimHit = (TH1F *) hDistMuSimHit->getTH1(); hEffVsDist->SetTitle("1D RecHit Efficiency as a function of Dist"); hEffVsDist->SetName(name+"_hEffVsDist"); hEffVsDist->Divide(hEffDistMuSimHit); // Set the error accordingly to binomial statistics int nBinsDist = hEffVsDist->GetNbinsX(); for(int bin = 1; bin <= nBinsDist; bin++) { float nSimHit = hEffDistMuSimHit->GetBinContent(bin); float eff = hEffVsDist->GetBinContent(bin); float error = 0; if(nSimHit != 0) { error = sqrt(eff*(1-eff)/nSimHit); } hEffVsDist->SetBinError(bin, error); } }
void HEff1DHit::Fill | ( | float | distSimHit, |
float | etaSimHit, | ||
float | phiSimHit, | ||
bool | fillRecHit | ||
) | [inline] |
Definition at line 217 of file Histograms.h.
References MonitorElement::Fill(), hDistMuSimHit, hDistRecHit, hEtaMuSimHit, hEtaRecHit, hPhiMuSimHit, and hPhiRecHit.
Referenced by DTRecHitQuality::compute().
{ hEtaMuSimHit->Fill(etaSimHit); hPhiMuSimHit->Fill(phiSimHit); hDistMuSimHit->Fill(distSimHit); if(fillRecHit) { hEtaRecHit->Fill(etaSimHit); hPhiRecHit->Fill(phiSimHit); hDistRecHit->Fill(distSimHit); } }
Definition at line 319 of file Histograms.h.
Referenced by ComputeEfficiency(), Fill(), and HEff1DHit().
Definition at line 320 of file Histograms.h.
Referenced by ComputeEfficiency(), Fill(), and HEff1DHit().
TH1F* HEff1DHit::hEffVsDist |
Definition at line 321 of file Histograms.h.
Referenced by ComputeEfficiency(), and HEff1DHit().
TH1F* HEff1DHit::hEffVsEta |
Definition at line 313 of file Histograms.h.
Referenced by ComputeEfficiency(), and HEff1DHit().
TH1F* HEff1DHit::hEffVsPhi |
Definition at line 317 of file Histograms.h.
Referenced by ComputeEfficiency(), and HEff1DHit().
Definition at line 311 of file Histograms.h.
Referenced by ComputeEfficiency(), Fill(), and HEff1DHit().
Definition at line 312 of file Histograms.h.
Referenced by ComputeEfficiency(), Fill(), and HEff1DHit().
Definition at line 315 of file Histograms.h.
Referenced by ComputeEfficiency(), Fill(), and HEff1DHit().
Definition at line 316 of file Histograms.h.
Referenced by ComputeEfficiency(), Fill(), and HEff1DHit().
TString HEff1DHit::name |
Definition at line 323 of file Histograms.h.
Referenced by ComputeEfficiency(), and HEff1DHit().