HEff1DHit Class Reference

#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

Detailed Description

Definition at line 163 of file Histograms.h.

Constructor & Destructor Documentation

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, DQMStore::setCurrentFolder(), and AlCaHLTBitMon_QueryRunRegistry::string.

                                             {
      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;

    }

Member Function Documentation

void HEff1DHit::ComputeEfficiency ( )

inline

Definition at line 234 of file Histograms.h.

References newFWLiteAna::bin, relativeConstraints::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);
      }
    }

Member Data Documentation

MonitorElement* HEff1DHit::hDistMuSimHit

Definition at line 319 of file Histograms.h.

Referenced by ComputeEfficiency(), Fill(), and HEff1DHit().

MonitorElement* HEff1DHit::hDistRecHit

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().

MonitorElement* HEff1DHit::hEtaMuSimHit

Definition at line 311 of file Histograms.h.

Referenced by ComputeEfficiency(), Fill(), and HEff1DHit().

MonitorElement* HEff1DHit::hEtaRecHit

Definition at line 312 of file Histograms.h.

Referenced by ComputeEfficiency(), Fill(), and HEff1DHit().

MonitorElement* HEff1DHit::hPhiMuSimHit

Definition at line 315 of file Histograms.h.

Referenced by ComputeEfficiency(), Fill(), and HEff1DHit().

MonitorElement* HEff1DHit::hPhiRecHit

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 dataset.Dataset::__getDataType(), dataset.Dataset::__getFileInfoList(), cuy.divideElement::__init__(), cuy.plotElement::__init__(), cuy.additionElement::__init__(), cuy.superimposeElement::__init__(), cuy.graphElement::__init__(), ComputeEfficiency(), HEff1DHit(), and Vispa.Views.PropertyView.Property::valueChanged().