PFO::FlowElement_LinkerPlots Class Reference

#include <FlowElement_LinkerPlots.h>

Inheritance diagram for PFO::FlowElement_LinkerPlots:

Collaboration diagram for PFO::FlowElement_LinkerPlots:

Public Member Functions
	FlowElement_LinkerPlots (PlotBase *pParent, const std::string &sDir, const std::string &sFEContainerName, bool doNeutralFE)
void	fill (const xAOD::FlowElement &FE, const xAOD::EventInfo &eventInfo)
void	initialize ()
void	finalize ()
void	setDetailLevel (int iDetailLevel)
void	RegisterSubPlot (PlotBase *pPlotBase)
std::vector< HistData >	retrieveBookedHistograms ()
	Retrieve all booked histograms.
std::vector< TreeData >	retrieveBookedTrees ()
	Retrieve all booked trees.
std::vector< EfficiencyData >	retrieveBookedEfficiencies ()
	Retrieve all booked efficiency objects.
TTree *	BookTree (const std::string &name, bool prependDir=true)
	Book a TTree.
const std::string &	getDirectory ()
Methods to book monitoring histograms
Note: methods starting with capitals should be deprecated in favour of camel-cased methods
TH1D *	Book1D (const std::string &name, const std::string &labels, int nBins, float start, float end, bool prependDir=true)
	Book a TH1D histogram.
TH1D *	Book1D (const std::string &name, TH1 *refHist, const std::string &labels, bool prependDir=true)
	Book a TH1D histogram using refHist as reference for number of bins and axis range.
TH2F *	Book2D (const std::string &name, const std::string &labels, int nBinsX, float startX, float endX, int nBinsY, float startY, float endY, bool prependDir=true)
	Book a TH2F histogram.
TH2F *	Book2D (const std::string &name, TH2 *refHist, const std::string &labels, bool prependDir=true)
	Book a TH2D histogram using refHist as reference for number of bins and axis range.
TH2F *	Book2D (const std::string &name, const std::string &labels, int nBinsX, Double_t *binsX, int nBinsY, Double_t startY, Double_t endY, bool prependDir=true)
	Book a TH2F histogram with variable x axis binning.
TH3F *	Book3D (const std::string &name, const std::string &labels, int nBinsX, float startX, float endX, int nBinsY, float startY, float endY, int nBinsZ, float startZ, float endZ, bool prependDir=true)
	Book a TH3F histogram.
TH3F *	Book3D (const std::string &name, TH3 *refHist, const std::string &labels, bool prependDir=true)
	Book a TH3F histogram using refHist as reference for number of bins and axis range.
TProfile *	BookTProfile (const std::string &name, const std::string &labels, int nBinsX, float startX, float endX, float startY=-1, float endY=-1, bool prependDir=true, bool useRMS=false)
	Book a TProfile histogram.
TProfile *	BookTProfile (const std::string &name, const std::string &labels, int nBinsX, float *binsX, bool prependDir=true)
	Book a TProfile histogram with variable binning in x-axis.
TProfile *	BookTProfileRangeY (const std::string &name, const std::string &labels, int nBinsX, double *binsX, double startY, double endY, bool prependDir=true)
	Book a TProfile histogram with variable binning in x-axis and limits in y-values.
TProfile2D *	BookTProfile2D (const std::string &name, const std::string &labels, const int nBinsX, const double xlo, const double xhi, const int nBinsY, const double ylo, const double yhi, bool prependDir=true, bool useRMS=false)
	Book a TProfile 2D histogram with variable binning in x-axis and limits in y-values.
TProfile2D *	BookTProfile2D (const std::string &name, const std::string &labels, const int nBinsX, double *binsX, const int nBinsY, double *binsY, bool prependDir=true, bool useRMS=false)
	Book a TProfile 2D histogram with variable binning in x-axis and limits in y-values.
TEfficiency *	BookTEfficiency (const std::string &name, const std::string &labels, const int nBinsX, const float xlo, const float xhi, const bool prependDir=true)
	Book a (1-D) TEfficiency histogram.
TEfficiency *	BookTEfficiency (const std::string &name, const std::string &labels, const int nBinsX, const float xlo, const float xhi, const int nBinsy, const float ylo, const float yhi, const bool prependDir=true)
	Book a (2-D) TEfficiency histogram.

Protected Attributes
std::vector< PlotBase * >	m_vSubNodes
std::vector< HistData >	m_vBookedHistograms
std::vector< TreeData >	m_vBookedTrees
std::vector< EfficiencyData >	m_vBookedEfficiencies
std::string	m_sDirectory
int	m_iDetailLevel

Private Member Functions
void	initializePlots ()
virtual void	finalizePlots ()

Static Private Member Functions
static std::string	constructPrefix (std::string dir, bool prependDir)

Private Attributes
TH1 *	m_CFE_tau_dR {}
TH1 *	m_CFE_tau_NMatchedTau {}
TH1 *	m_NFE_tau_dR {}
TH1 *	m_NFE_tau_NMatchedTau {}
TH1 *	m_CFE_muon_dR {}
TH1 *	m_CFE_muon_NMatchedMuon {}
TH1 *	m_CFE_muon_largeDR_debug_author {}
TH1 *	m_CFE_muon_largeDR_debug_type {}
TH1 *	m_NFE_muon_dR {}
TH1 *	m_NFE_muon_NMatchedMuon {}
TH1 *	m_CFE_photon_dR {}
TH1 *	m_CFE_photon_NMatchedPhoton {}
TH1 *	m_NFE_photon_dR {}
TH1 *	m_NFE_photon_NMatchedPhoton {}
TH1 *	m_CFE_electron_dR {}
TH1 *	m_CFE_electron_NMatchedElectron {}
TH1 *	m_NFE_electron_dR {}
TH1 *	m_NFE_electron_NMatchedElectron {}
std::string	m_sFEContainerName
bool	m_doNeutralFE {}

Detailed Description

Definition at line 19 of file FlowElement_LinkerPlots.h.

Constructor & Destructor Documentation

FlowElement_LinkerPlots()

PFO::FlowElement_LinkerPlots::FlowElement_LinkerPlots	(	PlotBase *	pParent,
		const std::string &	sDir,
		const std::string &	sFEContainerName,
		bool	doNeutralFE )

Definition at line 14 of file FlowElement_LinkerPlots.cxx.

                                                                                                                                                 : 
    PlotBase(pParent, sDir),
    m_sFEContainerName(sFEContainerName),
    m_doNeutralFE(doNeutralFE)
    {
    }

Member Function Documentation

Book1D() [1/2]

TH1D * PlotBase::Book1D ( const std::string & name, const std::string & labels, int nBins, float start, float end, bool prependDir = true )

inherited

Book a TH1D histogram.

Definition at line 94 of file PlotBase.cxx.

                                  {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  Bool_t oldstat = TH1::AddDirectoryStatus();
  TH1::AddDirectory(false);
  TH1D *hist = new TH1D((prefix + name).c_str(), labels.c_str(), nBins, start, end);
  TH1::AddDirectory(oldstat);
 
  hist->Sumw2();
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

Book1D() [2/2]

TH1D * PlotBase::Book1D ( const std::string & name, TH1 * refHist, const std::string & labels, bool prependDir = true )

inherited

Book a TH1D histogram using refHist as reference for number of bins and axis range.

Definition at line 108 of file PlotBase.cxx.

                                                                                              {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  Bool_t oldstat = TH1::AddDirectoryStatus();
  TH1::AddDirectory(false);
  TH1D *hist = new TH1D((prefix + name).c_str(), labels.c_str(), refHist->GetNbinsX(),
                        refHist->GetXaxis()->GetXbins()->GetArray());
  hist->Sumw2();
  TH1::AddDirectory(oldstat);
 
 
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

Book2D() [1/3]

TH2F * PlotBase::Book2D ( const std::string & name, const std::string & labels, int nBinsX, Double_t * binsX, int nBinsY, Double_t startY, Double_t endY, bool prependDir = true )

inherited

Book a TH2F histogram with variable x axis binning.

Definition at line 144 of file PlotBase.cxx.

                                                                  {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  Bool_t oldstat = TH2::AddDirectoryStatus();
  TH2::AddDirectory(false);
  TH2F *hist = new TH2F((prefix + name).c_str(), labels.c_str(), nBinsX, binsX, nBinsY, startY, endY);
  hist->Sumw2();
  TH2::AddDirectory(oldstat);
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

Book2D() [2/3]

TH2F * PlotBase::Book2D ( const std::string & name, const std::string & labels, int nBinsX, float startX, float endX, int nBinsY, float startY, float endY, bool prependDir = true )

inherited

Book a TH2F histogram.

Definition at line 123 of file PlotBase.cxx.

                                                            {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  Bool_t oldstat = TH2::AddDirectoryStatus();
  TH2::AddDirectory(false);
  TH2F *hist = new TH2F((prefix + name).c_str(), labels.c_str(), nBinsX, startX, endX, nBinsY, startY, endY);
  hist->Sumw2();
  TH2::AddDirectory(oldstat);
 
 
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

Book2D() [3/3]

TH2F * PlotBase::Book2D ( const std::string & name, TH2 * refHist, const std::string & labels, bool prependDir = true )

inherited

Book a TH2D histogram using refHist as reference for number of bins and axis range.

Definition at line 138 of file PlotBase.cxx.

                                                                                              {
  return Book2D(name, labels, refHist->GetNbinsX(), refHist->GetXaxis()->GetXmin(), refHist->GetXaxis()->GetXmax(),
                refHist->GetNbinsY(), refHist->GetYaxis()->GetXmin(), refHist->GetYaxis()->GetXmax(), prependDir);
}

Book3D() [1/2]

TH3F * PlotBase::Book3D ( const std::string & name, const std::string & labels, int nBinsX, float startX, float endX, int nBinsY, float startY, float endY, int nBinsZ, float startZ, float endZ, bool prependDir = true )

inherited

Book a TH3F histogram.

Definition at line 157 of file PlotBase.cxx.

                                                                                                  {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  Bool_t oldstat = TH3::AddDirectoryStatus();
  TH3::AddDirectory(false);
  TH3F *hist = new TH3F((prefix + name).c_str(),
                        labels.c_str(), nBinsX, startX, endX, nBinsY, startY, endY, nBinsZ, startZ, endZ);
  hist->Sumw2();
  TH3::AddDirectory(oldstat);
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

Book3D() [2/2]

TH3F * PlotBase::Book3D ( const std::string & name, TH3 * refHist, const std::string & labels, bool prependDir = true )

inherited

Book a TH3F histogram using refHist as reference for number of bins and axis range.

Definition at line 171 of file PlotBase.cxx.

                                                                                              {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  Bool_t oldstat = TH3::AddDirectoryStatus();
  TH3::AddDirectory(false);
  TH3F *hist = new TH3F((prefix + name).c_str(), labels.c_str(), refHist->GetNbinsX(),
                        refHist->GetXaxis()->GetXbins()->GetArray(), refHist->GetNbinsY(),
                        refHist->GetYaxis()->GetXbins()->GetArray(), refHist->GetNbinsZ(),
                        refHist->GetZaxis()->GetXbins()->GetArray());
  TH3::AddDirectory(oldstat);
 
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

BookTEfficiency() [1/2]

TEfficiency * PlotBase::BookTEfficiency ( const std::string & name, const std::string & labels, const int nBinsX, const float xlo, const float xhi, const bool prependDir = true )

inherited

Book a (1-D) TEfficiency histogram.

Definition at line 257 of file PlotBase.cxx.

                                                                                                                                                   {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  //Bool_t oldstat = TEfficiency::AddDirectoryStatus();
  TEfficiency *hist = new TEfficiency((prefix + name).c_str(), labels.c_str(), nBinsX, xlo, xhi);
  //hist->SetAutoSave(0);
  //hist->SetAtoFlush(0);
  hist->SetDirectory(nullptr);
  m_vBookedEfficiencies.emplace_back(hist, m_sDirectory);
  //TEfficiency::AddDirectory(oldstat);
  return hist;
}

BookTEfficiency() [2/2]

TEfficiency * PlotBase::BookTEfficiency ( const std::string & name, const std::string & labels, const int nBinsX, const float xlo, const float xhi, const int nBinsy, const float ylo, const float yhi, const bool prependDir = true )

inherited

Book a (2-D) TEfficiency histogram.

Definition at line 270 of file PlotBase.cxx.

                                                                                                                                                                                                       {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
 
  TEfficiency *hist = new TEfficiency((prefix + name).c_str(), labels.c_str(), nBinsX, xlo, xhi, nBinsY, ylo, yhi);
  hist->SetDirectory(nullptr);
  m_vBookedEfficiencies.emplace_back(hist, m_sDirectory);
 
  return hist;
}

BookTProfile() [1/2]

TProfile * PlotBase::BookTProfile ( const std::string & name, const std::string & labels, int nBinsX, float * binsX, bool prependDir = true )

inherited

Book a TProfile histogram with variable binning in x-axis.

Definition at line 204 of file PlotBase.cxx.

                                                                                                                {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  TProfile *hist(nullptr);
  Bool_t oldstat = TProfile::AddDirectoryStatus();
  TProfile::AddDirectory(false);
 
  hist = new TProfile((prefix + name).c_str(), labels.c_str(), nBinsX, binsX);
  TProfile::AddDirectory(oldstat);
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

BookTProfile() [2/2]

TProfile * PlotBase::BookTProfile ( const std::string & name, const std::string & labels, int nBinsX, float startX, float endX, float startY = -1, float endY = -1, bool prependDir = true, bool useRMS = false )

inherited

Book a TProfile histogram.

Definition at line 186 of file PlotBase.cxx.

                                                                               {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  TProfile *hist(nullptr);
  Bool_t oldstat = TProfile::AddDirectoryStatus();
  TProfile::AddDirectory(false);
  std::string opt = useRMS ? "S" : "";
  if ((startY == -1) and (endY == -1)) {
    hist = new TProfile((prefix + name).c_str(), labels.c_str(), nBinsX, startX, endX, opt.c_str());
  } else {
    hist = new TProfile((prefix + name).c_str(), labels.c_str(), nBinsX, startX, endX, startY, endY, opt.c_str());
  }
  TProfile::AddDirectory(oldstat);
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

BookTProfile2D() [1/2]

TProfile2D * PlotBase::BookTProfile2D ( const std::string & name, const std::string & labels, const int nBinsX, const double xlo, const double xhi, const int nBinsY, const double ylo, const double yhi, bool prependDir = true, bool useRMS = false )

inherited

Book a TProfile 2D histogram with variable binning in x-axis and limits in y-values.

Definition at line 231 of file PlotBase.cxx.

                                                       {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  Bool_t oldstat = TProfile2D::AddDirectoryStatus();
  TProfile2D::AddDirectory(false);
  std::string opt = useRMS ? "S" : "";
  TProfile2D *hist = new TProfile2D((prefix + name).c_str(), labels.c_str(), nBinsX, xlo, xhi, nBinsY, ylo, yhi, opt.c_str());
  TProfile2D::AddDirectory(oldstat);
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

BookTProfile2D() [2/2]

TProfile2D * PlotBase::BookTProfile2D ( const std::string & name, const std::string & labels, const int nBinsX, double * binsX, const int nBinsY, double * binsY, bool prependDir = true, bool useRMS = false )

inherited

Book a TProfile 2D histogram with variable binning in x-axis and limits in y-values.

Definition at line 245 of file PlotBase.cxx.

                                                                                                                                                                       {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  Bool_t oldstat = TProfile2D::AddDirectoryStatus();
  TProfile2D::AddDirectory(false);
  std::string opt = useRMS ? "S" : "";
  TProfile2D *hist = new TProfile2D((prefix + name).c_str(), labels.c_str(), nBinsX, binsX, nBinsY, binsY, opt.c_str());
  TProfile2D::AddDirectory(oldstat);
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

BookTProfileRangeY()

TProfile * PlotBase::BookTProfileRangeY ( const std::string & name, const std::string & labels, int nBinsX, double * binsX, double startY, double endY, bool prependDir = true )

inherited

Book a TProfile histogram with variable binning in x-axis and limits in y-values.

Definition at line 217 of file PlotBase.cxx.

                                                                          {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  TProfile *hist(nullptr);
  Bool_t oldstat = TProfile::AddDirectoryStatus();
  TProfile::AddDirectory(false);
 
  hist = new TProfile((prefix + name).c_str(), labels.c_str(), (Int_t) nBinsX, binsX, startY, endY);
  TProfile::AddDirectory(oldstat);
  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
  return hist;
}

BookTree()

TTree * PlotBase::BookTree ( const std::string & name, bool prependDir = true )

inherited

Book a TTree.

Definition at line 281 of file PlotBase.cxx.

                                                         {
  std::string prefix = constructPrefix(m_sDirectory, prependDir);
  TTree *tree = new TTree((prefix + name).c_str(), "");
 
  tree->SetAutoSave(0);
  tree->SetAutoFlush(0);
  tree->SetDirectory(nullptr);
  m_vBookedTrees.emplace_back(tree, m_sDirectory);
  return tree;
}

constructPrefix()

std::string PlotBase::constructPrefix ( std::string dir, bool prependDir )

staticprivateinherited

Definition at line 293 of file PlotBase.cxx.

                                                        {
  if (!prependDir) {
    return "";
  }
  std::replace(dir.begin(), dir.end(), '/', '_');
  return dir;
}

fill()

void PFO::FlowElement_LinkerPlots::fill	(	const xAOD::FlowElement &	FE,
		const xAOD::EventInfo &	eventInfo )

Definition at line 65 of file FlowElement_LinkerPlots.cxx.

                                                                                             {
    // methods work for both CFE and NFE since the auxvars are named the same
    SG::AuxElement::ConstAccessor< std::vector < ElementLink< xAOD::MuonContainer > > > acc_muon_FE_Link("FE_MuonLinks");
    SG::AuxElement::ConstAccessor< std::vector < ElementLink< xAOD::PhotonContainer > > > acc_photon_FE_Link("FE_PhotonLinks");
    SG::AuxElement::ConstAccessor< std::vector < ElementLink< xAOD::ElectronContainer > > > acc_electron_FE_Link("FE_ElectronLinks");
    SG::AuxElement::ConstAccessor< std::vector < ElementLink< xAOD::TauJetContainer > > > acc_tau_FE_Link("FE_TauLinks");
    
    TLorentzVector FE_fourvec=FE.p4();
    // Muon block
    if(acc_muon_FE_Link.isAvailable(FE)){
      std::vector< ElementLink < xAOD::MuonContainer > > MuonLinks=acc_muon_FE_Link(FE);
      int nMuons_per_FE=MuonLinks.size();
      if(nMuons_per_FE>0){ // skip cases w/o match
        if(m_doNeutralFE)
          m_NFE_muon_NMatchedMuon->Fill(nMuons_per_FE,eventInfo.beamSpotWeight());
        else
          m_CFE_muon_NMatchedMuon->Fill(nMuons_per_FE,eventInfo.beamSpotWeight()); 
      }
            
      for (ElementLink<xAOD::MuonContainer> MuonLink: MuonLinks){
 
          //get Muon from link by de-referencing it
        if (!MuonLink.isValid()){
          std::cerr << "FlowElement_LinkerPlots encountered an invalid muon element link. Skipping. "<<std::endl;
          continue; 
        }
          const xAOD::Muon* muon = *MuonLink;
          TLorentzVector muon_fourvec=muon->p4();
          double deltaR=muon_fourvec.DeltaR(FE_fourvec);
          if(muon->muonType()==4) // skip forward muons, as have tracklets which mis-link to FE.
          continue;
          if(m_doNeutralFE)
            m_NFE_muon_dR->Fill(deltaR,eventInfo.beamSpotWeight());
          else{
            m_CFE_muon_dR->Fill(deltaR,eventInfo.beamSpotWeight());
        if(deltaR>1){// should never happen, but catch for extreme cases
              int auth=muon->author();
              int type=muon->muonType();
              m_CFE_muon_largeDR_debug_author->Fill(auth,eventInfo.beamSpotWeight());
              m_CFE_muon_largeDR_debug_type->Fill(type,eventInfo.beamSpotWeight());
          } 
        }// end of CFE fill block for muon_dR code  
      }
    }// end of muon acc block
     
    // Electron block
    if(acc_electron_FE_Link.isAvailable(FE)){
      std::vector< ElementLink < xAOD::ElectronContainer > > ElectronLinks=acc_electron_FE_Link(FE);
      int nElectrons_per_FE=ElectronLinks.size();
      if(nElectrons_per_FE>0){ // skip cases w/o match
          if(m_doNeutralFE)
            m_NFE_electron_NMatchedElectron->Fill(nElectrons_per_FE,eventInfo.beamSpotWeight());
          else
            m_CFE_electron_NMatchedElectron->Fill(nElectrons_per_FE,eventInfo.beamSpotWeight());   
      }
 
      for (ElementLink<xAOD::ElectronContainer> ElectronLink: ElectronLinks){
          //get Electron from link by de-referencing it
        if (!ElectronLink.isValid()){
          std::cerr << "FlowElement_LinkerPlots encountered an invalid electron element link. Skipping. "<<std::endl;
          continue; 
        }
          const xAOD::Electron* electron = *ElectronLink;
          TLorentzVector electron_fourvec=electron->p4();
          double deltaR=electron_fourvec.DeltaR(FE_fourvec);
          if(m_doNeutralFE)
            m_NFE_electron_dR->Fill(deltaR,eventInfo.beamSpotWeight());
          else
            m_CFE_electron_dR->Fill(deltaR,eventInfo.beamSpotWeight());    
      }
    }// end of electron acc block
    
    // Photon block
    if(acc_photon_FE_Link.isAvailable(FE)){
      std::vector< ElementLink < xAOD::PhotonContainer > > PhotonLinks=acc_photon_FE_Link(FE);
      int nPhotons_per_FE=PhotonLinks.size();
      if(nPhotons_per_FE>0){ // skip cases w/o match
        if(m_doNeutralFE)
            m_NFE_photon_NMatchedPhoton->Fill(nPhotons_per_FE,eventInfo.beamSpotWeight());
          else
            m_CFE_photon_NMatchedPhoton->Fill(nPhotons_per_FE,eventInfo.beamSpotWeight()); 
      }
 
      for (ElementLink<xAOD::PhotonContainer> PhotonLink: PhotonLinks){
      //get Photon from link by de-referencing it
      if (!PhotonLink.isValid()){
        std::cerr << "FlowElement_LinkerPlots encountered an invalid photon element link. Skipping. "<<std::endl;
        continue; 
      }
        const xAOD::Photon* photon = *PhotonLink;
        TLorentzVector photon_fourvec=photon->p4();
        double deltaR=photon_fourvec.DeltaR(FE_fourvec);
        if(m_doNeutralFE)
          m_NFE_photon_dR->Fill(deltaR,eventInfo.beamSpotWeight());
        else
          m_CFE_photon_dR->Fill(deltaR,eventInfo.beamSpotWeight());  
      }
    }// end of photon acc block
 
    // Taujet block
    if(acc_tau_FE_Link.isAvailable(FE)){
      std::vector< ElementLink < xAOD::TauJetContainer > > TaujetLinks=acc_tau_FE_Link(FE);
      int nTaujets_per_FE=TaujetLinks.size();
      if(nTaujets_per_FE>0){ // skip cases w/o match
        if(m_doNeutralFE)
            m_NFE_tau_NMatchedTau->Fill(nTaujets_per_FE,eventInfo.beamSpotWeight());
          else
            m_CFE_tau_NMatchedTau->Fill(nTaujets_per_FE,eventInfo.beamSpotWeight()); 
      }
      
      TLorentzVector FE_fourvec=FE.p4();
      for (ElementLink<xAOD::TauJetContainer> TaujetLink: TaujetLinks){
          //get Taujet from link by de-referencing it
        if (!TaujetLink.isValid()){
          std::cerr << "FlowElement_LinkerPlots encountered an invalid tau jet element link. Skipping. "<<std::endl;
          continue; 
        }
          const xAOD::TauJet* taujet = *TaujetLink;
          TLorentzVector taujet_fourvec=taujet->p4();
          double deltaR=taujet_fourvec.DeltaR(FE_fourvec);
          if(m_doNeutralFE)
            m_NFE_tau_dR->Fill(deltaR,eventInfo.beamSpotWeight());
          else
            m_CFE_tau_dR->Fill(deltaR,eventInfo.beamSpotWeight());  
      }
    }// end of taujet acc block    
  } // end of fill statement

finalize()

void PlotBase::finalize ( )

inherited

Definition at line 47 of file PlotBase.cxx.

                   {
  for (auto *subNode: m_vSubNodes) {
    subNode->finalize();
  }
  finalizePlots();
}

finalizePlots()

virtual void PlotBase::finalizePlots ( )

inlineprivatevirtualinherited

Reimplemented in IDTPM::DuplicateRatePlots, IDTPM::EfficiencyPlots, IDTPM::FakeRatePlots, IDTPM::HitsOnTracksPlots, IDTPM::NtracksPlots, IDTPM::OfflineElectronPlots, IDTPM::ResolutionPlots, IDTPM::SummaryPlots, IDTPM::TrackParametersPlots, IDTPM::VertexParametersPlots, InDetBasicPlot, InDetPerfPlot_Duplicate, InDetPerfPlot_Efficiency, InDetPerfPlot_FakeRate, InDetPerfPlot_Resolution, InDetPerfPlot_TrackParameters, InDetPerfPlot_TRTExtension, InDetPerfPlot_VertexTruthMatching, JetTagDQA::BTaggingValidationPlots, TCCPlots, Trk::EfficiencyPlots, ZeeValidation::ReconElectronsPlots, ZeeValidation::TrueElectronsPlots, and ZeeValidation::TrueFwdElectronsPlots.

Definition at line 92 of file PlotBase.h.

{;}

getDirectory()

const std::string & PlotBase::getDirectory ( )

inlineinherited

Definition at line 88 of file PlotBase.h.

{return m_sDirectory;}

initialize()

void PlotBase::initialize ( )

inherited

Definition at line 39 of file PlotBase.cxx.

                     {
  for (auto *subNode: m_vSubNodes) {
    subNode->initialize();
  }
  initializePlots();
}

initializePlots()

void PFO::FlowElement_LinkerPlots::initializePlots ( )

privatevirtual

Reimplemented from PlotBase.

Definition at line 21 of file FlowElement_LinkerPlots.cxx.

                                               {
    // init only the histograms we're going to use (m_doNeutralFE is the switch)
    //tau
    if(m_sFEContainerName==""){ // skip init if container not used.
      return;
    }
    if(!m_doNeutralFE){
      m_CFE_tau_dR=Book1D("_CFE_tau_dR",m_sFEContainerName+"_CFE_tau_dR",10,0,1); 
      m_CFE_tau_NMatchedTau=Book1D("_CFE_tau_NMatchedTau",m_sFEContainerName+"_CFE_tau_NMatchedTau",5,0,5);
    }
    else{
      m_NFE_tau_dR=Book1D("_NFE_tau_dR",m_sFEContainerName+"_NFE_tau_dR",10,0,1); 
      m_NFE_tau_NMatchedTau=Book1D("_NFE_tau_NMatchedTau",m_sFEContainerName+"_NFE_tau_NMatchedTau",5,0,5);
    }
    //electron
    if(!m_doNeutralFE){
      m_CFE_electron_dR=Book1D("_CFE_electron_dR",m_sFEContainerName+"_CFE_electron_dR",15,0,1.5); 
      m_CFE_electron_NMatchedElectron=Book1D("_CFE_electron_NMatchedElectron",m_sFEContainerName+"_CFE_electron_NMatchedElectron",10,0,10);
    }
    else{
      m_NFE_electron_dR=Book1D("_NFE_electron_dR",m_sFEContainerName+"_NFE_electron_dR",10,0,1); 
      m_NFE_electron_NMatchedElectron=Book1D("_NFE_electron_NMatchedElectron",m_sFEContainerName+"_NFE_electron_NMatchedElectron",5,0,5);
    }
    //muon
    if(!m_doNeutralFE){
      m_CFE_muon_dR=Book1D("_CFE_muon_dR",m_sFEContainerName+"_CFE_muon_dR",10,0,1); 
      m_CFE_muon_NMatchedMuon=Book1D("_CFE_muon_NMatchedMuon",m_sFEContainerName+"_CFE_muon_NMatchedMuon",5,0,5);
      m_CFE_muon_largeDR_debug_author=Book1D("_CFE_muon_largeDR_debug_author",m_sFEContainerName+"_CFE_muon_largeDR_debug_author",20,0,20);
      m_CFE_muon_largeDR_debug_type=Book1D("_CFE_muon_largeDR_debug_type",m_sFEContainerName+"_CFE_muon_largeDR_debug_type",20,0,20);
    }
    else{
      m_NFE_muon_dR=Book1D("_NFE_muon_dR",m_sFEContainerName+"_NFE_muon_dR",10,0,1); 
      m_NFE_muon_NMatchedMuon=Book1D("_NFE_muon_NMatchedMuon",m_sFEContainerName+"_NFE_muon_NMatchedMuon",10,0,10);
    }
    //photon
    if(!m_doNeutralFE){
      m_CFE_photon_dR=Book1D("_CFE_photon_dR",m_sFEContainerName+"_CFE_photon_dR",10,0,1); 
      m_CFE_photon_NMatchedPhoton=Book1D("_CFE_photon_NMatchedPhoton",m_sFEContainerName+"_CFE_photon_NMatchedPhoton",5,0,5);
    }
    else{
      m_NFE_photon_dR=Book1D("_NFE_photon_dR",m_sFEContainerName+"_NFE_photon_dR",10,0,1); 
      m_NFE_photon_NMatchedPhoton=Book1D("_NFE_photon_NMatchedPhoton",m_sFEContainerName+"_NFE_photon_NMatchedPhoton",5,0,5);
    }
  }

RegisterSubPlot()

void PlotBase::RegisterSubPlot ( PlotBase * pPlotBase )

inlineinherited

Definition at line 41 of file PlotBase.h.

{m_vSubNodes.push_back(pPlotBase);}

retrieveBookedEfficiencies()

std::vector< EfficiencyData > PlotBase::retrieveBookedEfficiencies ( )

inherited

Retrieve all booked efficiency objects.

Definition at line 83 of file PlotBase.cxx.

                                     {
  std::vector<EfficiencyData> vBookedEfficiencies = m_vBookedEfficiencies;
  for (const auto &subNode: m_vSubNodes) {
    std::vector<EfficiencyData> subNodeHists = subNode->retrieveBookedEfficiencies();
    vBookedEfficiencies.insert(vBookedEfficiencies.end(), subNodeHists.begin(), subNodeHists.end());
  }
  return vBookedEfficiencies;
}

retrieveBookedHistograms()

std::vector< HistData > PlotBase::retrieveBookedHistograms ( )

inherited

Retrieve all booked histograms.

Definition at line 63 of file PlotBase.cxx.

                                   {
  std::vector<HistData> vBookedHistograms = m_vBookedHistograms;
  for (const auto &subNode: m_vSubNodes) {
    std::vector<HistData> subNodeHists = subNode->retrieveBookedHistograms();
    vBookedHistograms.insert(vBookedHistograms.end(), subNodeHists.begin(), subNodeHists.end());
  }
  return vBookedHistograms;
}

retrieveBookedTrees()

std::vector< TreeData > PlotBase::retrieveBookedTrees ( )

inherited

Retrieve all booked trees.

Definition at line 73 of file PlotBase.cxx.

                              {
  std::vector<TreeData> vBookedTrees = m_vBookedTrees;
  for (auto *subNode: m_vSubNodes) {
    std::vector<TreeData> subNodeTrees = subNode->retrieveBookedTrees();
    vBookedTrees.insert(vBookedTrees.end(), subNodeTrees.begin(), subNodeTrees.end());
  }
  return vBookedTrees;
}

setDetailLevel()

void PlotBase::setDetailLevel ( int iDetailLevel )

inherited

Definition at line 55 of file PlotBase.cxx.

                                         {
  for (auto *subNode: m_vSubNodes) {
    subNode->setDetailLevel(iDetailLevel);
  }
  m_iDetailLevel = iDetailLevel;
}

Member Data Documentation

m_CFE_electron_dR

TH1* PFO::FlowElement_LinkerPlots::m_CFE_electron_dR {}

private

Definition at line 49 of file FlowElement_LinkerPlots.h.

{};

m_CFE_electron_NMatchedElectron

TH1* PFO::FlowElement_LinkerPlots::m_CFE_electron_NMatchedElectron {}

private

Definition at line 50 of file FlowElement_LinkerPlots.h.

{};

m_CFE_muon_dR

TH1* PFO::FlowElement_LinkerPlots::m_CFE_muon_dR {}

private

Definition at line 35 of file FlowElement_LinkerPlots.h.

{};

m_CFE_muon_largeDR_debug_author

TH1* PFO::FlowElement_LinkerPlots::m_CFE_muon_largeDR_debug_author {}

private

Definition at line 37 of file FlowElement_LinkerPlots.h.

{};

m_CFE_muon_largeDR_debug_type

TH1* PFO::FlowElement_LinkerPlots::m_CFE_muon_largeDR_debug_type {}

private

Definition at line 38 of file FlowElement_LinkerPlots.h.

{};

m_CFE_muon_NMatchedMuon

TH1* PFO::FlowElement_LinkerPlots::m_CFE_muon_NMatchedMuon {}

private

Definition at line 36 of file FlowElement_LinkerPlots.h.

{};

m_CFE_photon_dR

TH1* PFO::FlowElement_LinkerPlots::m_CFE_photon_dR {}

private

Definition at line 43 of file FlowElement_LinkerPlots.h.

{};

m_CFE_photon_NMatchedPhoton

TH1* PFO::FlowElement_LinkerPlots::m_CFE_photon_NMatchedPhoton {}

private

Definition at line 44 of file FlowElement_LinkerPlots.h.

{};

m_CFE_tau_dR

TH1* PFO::FlowElement_LinkerPlots::m_CFE_tau_dR {}

private

Definition at line 29 of file FlowElement_LinkerPlots.h.

{};

m_CFE_tau_NMatchedTau

TH1* PFO::FlowElement_LinkerPlots::m_CFE_tau_NMatchedTau {}

private

Definition at line 30 of file FlowElement_LinkerPlots.h.

{};

m_doNeutralFE

bool PFO::FlowElement_LinkerPlots::m_doNeutralFE {}

private

Definition at line 57 of file FlowElement_LinkerPlots.h.

{};

m_iDetailLevel

int PlotBase::m_iDetailLevel

protectedinherited

Definition at line 101 of file PlotBase.h.

m_NFE_electron_dR

TH1* PFO::FlowElement_LinkerPlots::m_NFE_electron_dR {}

private

Definition at line 52 of file FlowElement_LinkerPlots.h.

{};

m_NFE_electron_NMatchedElectron

TH1* PFO::FlowElement_LinkerPlots::m_NFE_electron_NMatchedElectron {}

private

Definition at line 53 of file FlowElement_LinkerPlots.h.

{};

m_NFE_muon_dR

TH1* PFO::FlowElement_LinkerPlots::m_NFE_muon_dR {}

private

Definition at line 40 of file FlowElement_LinkerPlots.h.

{};

m_NFE_muon_NMatchedMuon

TH1* PFO::FlowElement_LinkerPlots::m_NFE_muon_NMatchedMuon {}

private

Definition at line 41 of file FlowElement_LinkerPlots.h.

{};

m_NFE_photon_dR

TH1* PFO::FlowElement_LinkerPlots::m_NFE_photon_dR {}

private

Definition at line 46 of file FlowElement_LinkerPlots.h.

{};

m_NFE_photon_NMatchedPhoton

TH1* PFO::FlowElement_LinkerPlots::m_NFE_photon_NMatchedPhoton {}

private

Definition at line 47 of file FlowElement_LinkerPlots.h.

{};

m_NFE_tau_dR

TH1* PFO::FlowElement_LinkerPlots::m_NFE_tau_dR {}

private

Definition at line 32 of file FlowElement_LinkerPlots.h.

{};

m_NFE_tau_NMatchedTau

TH1* PFO::FlowElement_LinkerPlots::m_NFE_tau_NMatchedTau {}

private

Definition at line 33 of file FlowElement_LinkerPlots.h.

{};

m_sDirectory

std::string PlotBase::m_sDirectory

protectedinherited

Definition at line 100 of file PlotBase.h.

m_sFEContainerName

std::string PFO::FlowElement_LinkerPlots::m_sFEContainerName

private

Definition at line 56 of file FlowElement_LinkerPlots.h.

m_vBookedEfficiencies

std::vector<EfficiencyData> PlotBase::m_vBookedEfficiencies

protectedinherited

Definition at line 99 of file PlotBase.h.

m_vBookedHistograms

std::vector<HistData> PlotBase::m_vBookedHistograms

protectedinherited

Definition at line 97 of file PlotBase.h.

m_vBookedTrees

std::vector<TreeData> PlotBase::m_vBookedTrees

protectedinherited

Definition at line 98 of file PlotBase.h.

m_vSubNodes

std::vector<PlotBase*> PlotBase::m_vSubNodes

protectedinherited

Definition at line 96 of file PlotBase.h.

---

The documentation for this class was generated from the following files:

• FlowElement_LinkerPlots.h
• FlowElement_LinkerPlots.cxx