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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< HistDataretrieveBookedHistograms ()
 Retrieve all booked histograms. More...
 
std::vector< TreeDataretrieveBookedTrees ()
 Retrieve all booked trees. More...
 
std::vector< EfficiencyDataretrieveBookedEfficiencies ()
 Retrieve all booked efficiency objects. More...
 
TTree * BookTree (const std::string &name, bool prependDir=true)
 Book a TTree. More...
 
const std::string & getDirectory ()
 

Protected Attributes

std::vector< PlotBase * > m_vSubNodes
 
std::vector< HistDatam_vBookedHistograms
 
std::vector< TreeDatam_vBookedTrees
 
std::vector< EfficiencyDatam_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.

14  :
15  PlotBase(pParent, sDir),
16  m_sFEContainerName(sFEContainerName),
17  m_doNeutralFE(doNeutralFE)
18  {
19  }

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.

95  {
96  std::string prefix = constructPrefix(m_sDirectory, prependDir);
97  Bool_t oldstat = TH1::AddDirectoryStatus();
98  TH1::AddDirectory(false);
99  TH1D *hist = new TH1D((prefix + name).c_str(), labels.c_str(), nBins, start, end);
100  TH1::AddDirectory(oldstat);
101 
102  hist->Sumw2();
103  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
104  return hist;
105 }

◆ 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.

108  {
109  std::string prefix = constructPrefix(m_sDirectory, prependDir);
110  Bool_t oldstat = TH1::AddDirectoryStatus();
111  TH1::AddDirectory(false);
112  TH1D *hist = new TH1D((prefix + name).c_str(), labels.c_str(), refHist->GetNbinsX(),
113  refHist->GetXaxis()->GetXbins()->GetArray());
114  hist->Sumw2();
115  TH1::AddDirectory(oldstat);
116 
117 
118  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
119  return hist;
120 }

◆ 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.

145  {
146  std::string prefix = constructPrefix(m_sDirectory, prependDir);
147  Bool_t oldstat = TH2::AddDirectoryStatus();
148  TH2::AddDirectory(false);
149  TH2F *hist = new TH2F((prefix + name).c_str(), labels.c_str(), nBinsX, binsX, nBinsY, startY, endY);
150  hist->Sumw2();
151  TH2::AddDirectory(oldstat);
152  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
153  return hist;
154 }

◆ 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.

124  {
125  std::string prefix = constructPrefix(m_sDirectory, prependDir);
126  Bool_t oldstat = TH2::AddDirectoryStatus();
127  TH2::AddDirectory(false);
128  TH2F *hist = new TH2F((prefix + name).c_str(), labels.c_str(), nBinsX, startX, endX, nBinsY, startY, endY);
129  hist->Sumw2();
130  TH2::AddDirectory(oldstat);
131 
132 
133  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
134  return hist;
135 }

◆ 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.

138  {
139  return Book2D(name, labels, refHist->GetNbinsX(), refHist->GetXaxis()->GetXmin(), refHist->GetXaxis()->GetXmax(),
140  refHist->GetNbinsY(), refHist->GetYaxis()->GetXmin(), refHist->GetYaxis()->GetXmax(), prependDir);
141 }

◆ 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.

158  {
159  std::string prefix = constructPrefix(m_sDirectory, prependDir);
160  Bool_t oldstat = TH3::AddDirectoryStatus();
161  TH3::AddDirectory(false);
162  TH3F *hist = new TH3F((prefix + name).c_str(),
163  labels.c_str(), nBinsX, startX, endX, nBinsY, startY, endY, nBinsZ, startZ, endZ);
164  hist->Sumw2();
165  TH3::AddDirectory(oldstat);
166  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
167  return hist;
168 }

◆ 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.

171  {
172  std::string prefix = constructPrefix(m_sDirectory, prependDir);
173  Bool_t oldstat = TH3::AddDirectoryStatus();
174  TH3::AddDirectory(false);
175  TH3F *hist = new TH3F((prefix + name).c_str(), labels.c_str(), refHist->GetNbinsX(),
176  refHist->GetXaxis()->GetXbins()->GetArray(), refHist->GetNbinsY(),
177  refHist->GetYaxis()->GetXbins()->GetArray(), refHist->GetNbinsZ(),
178  refHist->GetZaxis()->GetXbins()->GetArray());
179  TH3::AddDirectory(oldstat);
180 
181  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
182  return hist;
183 }

◆ 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.

257  {
258  std::string prefix = constructPrefix(m_sDirectory, prependDir);
259  //Bool_t oldstat = TEfficiency::AddDirectoryStatus();
260  TEfficiency *hist = new TEfficiency((prefix + name).c_str(), labels.c_str(), nBinsX, xlo, xhi);
261  //hist->SetAutoSave(0);
262  //hist->SetAtoFlush(0);
263  hist->SetDirectory(nullptr);
264  m_vBookedEfficiencies.emplace_back(hist, m_sDirectory);
265  //TEfficiency::AddDirectory(oldstat);
266  return hist;
267 }

◆ 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.

270  {
271  std::string prefix = constructPrefix(m_sDirectory, prependDir);
272 
273  TEfficiency *hist = new TEfficiency((prefix + name).c_str(), labels.c_str(), nBinsX, xlo, xhi, nBinsY, ylo, yhi);
274  hist->SetDirectory(nullptr);
275  m_vBookedEfficiencies.emplace_back(hist, m_sDirectory);
276 
277  return hist;
278 }

◆ 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.

204  {
205  std::string prefix = constructPrefix(m_sDirectory, prependDir);
206  TProfile *hist(nullptr);
207  Bool_t oldstat = TProfile::AddDirectoryStatus();
208  TProfile::AddDirectory(false);
209 
210  hist = new TProfile((prefix + name).c_str(), labels.c_str(), nBinsX, binsX);
211  TProfile::AddDirectory(oldstat);
212  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
213  return hist;
214 }

◆ 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.

187  {
188  std::string prefix = constructPrefix(m_sDirectory, prependDir);
189  TProfile *hist(nullptr);
190  Bool_t oldstat = TProfile::AddDirectoryStatus();
191  TProfile::AddDirectory(false);
192  std::string opt = useRMS ? "S" : "";
193  if ((startY == -1) and (endY == -1)) {
194  hist = new TProfile((prefix + name).c_str(), labels.c_str(), nBinsX, startX, endX, opt.c_str());
195  } else {
196  hist = new TProfile((prefix + name).c_str(), labels.c_str(), nBinsX, startX, endX, startY, endY, opt.c_str());
197  }
198  TProfile::AddDirectory(oldstat);
199  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
200  return hist;
201 }

◆ 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.

233  {
234  std::string prefix = constructPrefix(m_sDirectory, prependDir);
235  Bool_t oldstat = TProfile2D::AddDirectoryStatus();
236  TProfile2D::AddDirectory(false);
237  std::string opt = useRMS ? "S" : "";
238  TProfile2D *hist = new TProfile2D((prefix + name).c_str(), labels.c_str(), nBinsX, xlo, xhi, nBinsY, ylo, yhi, opt.c_str());
239  TProfile2D::AddDirectory(oldstat);
240  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
241  return hist;
242 }

◆ 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.

245  {
246  std::string prefix = constructPrefix(m_sDirectory, prependDir);
247  Bool_t oldstat = TProfile2D::AddDirectoryStatus();
248  TProfile2D::AddDirectory(false);
249  std::string opt = useRMS ? "S" : "";
250  TProfile2D *hist = new TProfile2D((prefix + name).c_str(), labels.c_str(), nBinsX, binsX, nBinsY, binsY, opt.c_str());
251  TProfile2D::AddDirectory(oldstat);
252  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
253  return hist;
254 }

◆ 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.

218  {
219  std::string prefix = constructPrefix(m_sDirectory, prependDir);
220  TProfile *hist(nullptr);
221  Bool_t oldstat = TProfile::AddDirectoryStatus();
222  TProfile::AddDirectory(false);
223 
224  hist = new TProfile((prefix + name).c_str(), labels.c_str(), (Int_t) nBinsX, binsX, startY, endY);
225  TProfile::AddDirectory(oldstat);
226  m_vBookedHistograms.emplace_back(hist, m_sDirectory);
227  return hist;
228 }

◆ BookTree()

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

Book a TTree.

Definition at line 281 of file PlotBase.cxx.

281  {
282  std::string prefix = constructPrefix(m_sDirectory, prependDir);
283  TTree *tree = new TTree((prefix + name).c_str(), "");
284 
285  tree->SetAutoSave(0);
286  tree->SetAutoFlush(0);
287  tree->SetDirectory(nullptr);
288  m_vBookedTrees.emplace_back(tree, m_sDirectory);
289  return tree;
290 }

◆ constructPrefix()

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

Definition at line 293 of file PlotBase.cxx.

293  {
294  if (!prependDir) {
295  return "";
296  }
297  std::replace(dir.begin(), dir.end(), '/', '_');
298  return dir;
299 }

◆ fill()

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

Definition at line 65 of file FlowElement_LinkerPlots.cxx.

65  {
66  // methods work for both CFE and NFE since the auxvars are named the same
71 
72  TLorentzVector FE_fourvec=FE.p4();
73  // Muon block
74  if(acc_muon_FE_Link.isAvailable(FE)){
75  std::vector< ElementLink < xAOD::MuonContainer > > MuonLinks=acc_muon_FE_Link(FE);
76  int nMuons_per_FE=MuonLinks.size();
77  if(nMuons_per_FE>0){ // skip cases w/o match
78  if(m_doNeutralFE)
79  m_NFE_muon_NMatchedMuon->Fill(nMuons_per_FE,eventInfo.beamSpotWeight());
80  else
81  m_CFE_muon_NMatchedMuon->Fill(nMuons_per_FE,eventInfo.beamSpotWeight());
82  }
83 
85 
86  //get Muon from link by de-referencing it
87  if (!MuonLink.isValid()){
88  std::cerr << "FlowElement_LinkerPlots encountered an invalid muon element link. Skipping. "<<std::endl;
89  continue;
90  }
91  const xAOD::Muon* muon = *MuonLink;
92  TLorentzVector muon_fourvec=muon->p4();
93  double deltaR=muon_fourvec.DeltaR(FE_fourvec);
94  if(muon->muonType()==4) // skip forward muons, as have tracklets which mis-link to FE.
95  continue;
96  if(m_doNeutralFE)
97  m_NFE_muon_dR->Fill(deltaR,eventInfo.beamSpotWeight());
98  else{
99  m_CFE_muon_dR->Fill(deltaR,eventInfo.beamSpotWeight());
100  if(deltaR>1){// should never happen, but catch for extreme cases
101  int auth=muon->author();
102  int type=muon->muonType();
105  }
106  }// end of CFE fill block for muon_dR code
107  }
108  }// end of muon acc block
109 
110  // Electron block
111  if(acc_electron_FE_Link.isAvailable(FE)){
112  std::vector< ElementLink < xAOD::ElectronContainer > > ElectronLinks=acc_electron_FE_Link(FE);
113  int nElectrons_per_FE=ElectronLinks.size();
114  if(nElectrons_per_FE>0){ // skip cases w/o match
115  if(m_doNeutralFE)
116  m_NFE_electron_NMatchedElectron->Fill(nElectrons_per_FE,eventInfo.beamSpotWeight());
117  else
118  m_CFE_electron_NMatchedElectron->Fill(nElectrons_per_FE,eventInfo.beamSpotWeight());
119  }
120 
122  //get Electron from link by de-referencing it
123  if (!ElectronLink.isValid()){
124  std::cerr << "FlowElement_LinkerPlots encountered an invalid electron element link. Skipping. "<<std::endl;
125  continue;
126  }
128  TLorentzVector electron_fourvec=electron->p4();
129  double deltaR=electron_fourvec.DeltaR(FE_fourvec);
130  if(m_doNeutralFE)
131  m_NFE_electron_dR->Fill(deltaR,eventInfo.beamSpotWeight());
132  else
133  m_CFE_electron_dR->Fill(deltaR,eventInfo.beamSpotWeight());
134  }
135  }// end of electron acc block
136 
137  // Photon block
138  if(acc_photon_FE_Link.isAvailable(FE)){
139  std::vector< ElementLink < xAOD::PhotonContainer > > PhotonLinks=acc_photon_FE_Link(FE);
140  int nPhotons_per_FE=PhotonLinks.size();
141  if(nPhotons_per_FE>0){ // skip cases w/o match
142  if(m_doNeutralFE)
143  m_NFE_photon_NMatchedPhoton->Fill(nPhotons_per_FE,eventInfo.beamSpotWeight());
144  else
145  m_CFE_photon_NMatchedPhoton->Fill(nPhotons_per_FE,eventInfo.beamSpotWeight());
146  }
147 
148  for (ElementLink<xAOD::PhotonContainer> PhotonLink: PhotonLinks){
149  //get Photon from link by de-referencing it
150  if (!PhotonLink.isValid()){
151  std::cerr << "FlowElement_LinkerPlots encountered an invalid photon element link. Skipping. "<<std::endl;
152  continue;
153  }
154  const xAOD::Photon* photon = *PhotonLink;
155  TLorentzVector photon_fourvec=photon->p4();
156  double deltaR=photon_fourvec.DeltaR(FE_fourvec);
157  if(m_doNeutralFE)
158  m_NFE_photon_dR->Fill(deltaR,eventInfo.beamSpotWeight());
159  else
160  m_CFE_photon_dR->Fill(deltaR,eventInfo.beamSpotWeight());
161  }
162  }// end of photon acc block
163 
164  // Taujet block
165  if(acc_tau_FE_Link.isAvailable(FE)){
166  std::vector< ElementLink < xAOD::TauJetContainer > > TaujetLinks=acc_tau_FE_Link(FE);
167  int nTaujets_per_FE=TaujetLinks.size();
168  if(nTaujets_per_FE>0){ // skip cases w/o match
169  if(m_doNeutralFE)
170  m_NFE_tau_NMatchedTau->Fill(nTaujets_per_FE,eventInfo.beamSpotWeight());
171  else
172  m_CFE_tau_NMatchedTau->Fill(nTaujets_per_FE,eventInfo.beamSpotWeight());
173  }
174 
175  TLorentzVector FE_fourvec=FE.p4();
176  for (ElementLink<xAOD::TauJetContainer> TaujetLink: TaujetLinks){
177  //get Taujet from link by de-referencing it
178  if (!TaujetLink.isValid()){
179  std::cerr << "FlowElement_LinkerPlots encountered an invalid tau jet element link. Skipping. "<<std::endl;
180  continue;
181  }
182  const xAOD::TauJet* taujet = *TaujetLink;
183  TLorentzVector taujet_fourvec=taujet->p4();
184  double deltaR=taujet_fourvec.DeltaR(FE_fourvec);
185  if(m_doNeutralFE)
186  m_NFE_tau_dR->Fill(deltaR,eventInfo.beamSpotWeight());
187  else
188  m_CFE_tau_dR->Fill(deltaR,eventInfo.beamSpotWeight());
189  }
190  }// end of taujet acc block
191  } // end of fill statement

◆ finalize()

void PlotBase::finalize ( )
inherited

Definition at line 47 of file PlotBase.cxx.

47  {
48  for (auto *subNode: m_vSubNodes) {
49  subNode->finalize();
50  }
51  finalizePlots();
52 }

◆ finalizePlots()

virtual void PlotBase::finalizePlots ( )
inlineprivatevirtualinherited

◆ getDirectory()

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

Definition at line 88 of file PlotBase.h.

88 {return m_sDirectory;}

◆ initialize()

void PlotBase::initialize ( )
inherited

Definition at line 39 of file PlotBase.cxx.

39  {
40  for (auto *subNode: m_vSubNodes) {
41  subNode->initialize();
42  }
44 }

◆ initializePlots()

void PFO::FlowElement_LinkerPlots::initializePlots ( )
privatevirtual

Reimplemented from PlotBase.

Definition at line 21 of file FlowElement_LinkerPlots.cxx.

21  {
22  // init only the histograms we're going to use (m_doNeutralFE is the switch)
23  //tau
24  if(m_sFEContainerName==""){ // skip init if container not used.
25  return;
26  }
27  if(!m_doNeutralFE){
28  m_CFE_tau_dR=Book1D("_CFE_tau_dR",m_sFEContainerName+"_CFE_tau_dR",10,0,1);
29  m_CFE_tau_NMatchedTau=Book1D("_CFE_tau_NMatchedTau",m_sFEContainerName+"_CFE_tau_NMatchedTau",5,0,5);
30  }
31  else{
32  m_NFE_tau_dR=Book1D("_NFE_tau_dR",m_sFEContainerName+"_NFE_tau_dR",10,0,1);
33  m_NFE_tau_NMatchedTau=Book1D("_NFE_tau_NMatchedTau",m_sFEContainerName+"_NFE_tau_NMatchedTau",5,0,5);
34  }
35  //electron
36  if(!m_doNeutralFE){
37  m_CFE_electron_dR=Book1D("_CFE_electron_dR",m_sFEContainerName+"_CFE_electron_dR",15,0,1.5);
38  m_CFE_electron_NMatchedElectron=Book1D("_CFE_electron_NMatchedElectron",m_sFEContainerName+"_CFE_electron_NMatchedElectron",10,0,10);
39  }
40  else{
41  m_NFE_electron_dR=Book1D("_NFE_electron_dR",m_sFEContainerName+"_NFE_electron_dR",10,0,1);
42  m_NFE_electron_NMatchedElectron=Book1D("_NFE_electron_NMatchedElectron",m_sFEContainerName+"_NFE_electron_NMatchedElectron",5,0,5);
43  }
44  //muon
45  if(!m_doNeutralFE){
46  m_CFE_muon_dR=Book1D("_CFE_muon_dR",m_sFEContainerName+"_CFE_muon_dR",10,0,1);
47  m_CFE_muon_NMatchedMuon=Book1D("_CFE_muon_NMatchedMuon",m_sFEContainerName+"_CFE_muon_NMatchedMuon",5,0,5);
48  m_CFE_muon_largeDR_debug_author=Book1D("_CFE_muon_largeDR_debug_author",m_sFEContainerName+"_CFE_muon_largeDR_debug_author",20,0,20);
49  m_CFE_muon_largeDR_debug_type=Book1D("_CFE_muon_largeDR_debug_type",m_sFEContainerName+"_CFE_muon_largeDR_debug_type",20,0,20);
50  }
51  else{
52  m_NFE_muon_dR=Book1D("_NFE_muon_dR",m_sFEContainerName+"_NFE_muon_dR",10,0,1);
53  m_NFE_muon_NMatchedMuon=Book1D("_NFE_muon_NMatchedMuon",m_sFEContainerName+"_NFE_muon_NMatchedMuon",10,0,10);
54  }
55  //photon
56  if(!m_doNeutralFE){
57  m_CFE_photon_dR=Book1D("_CFE_photon_dR",m_sFEContainerName+"_CFE_photon_dR",10,0,1);
58  m_CFE_photon_NMatchedPhoton=Book1D("_CFE_photon_NMatchedPhoton",m_sFEContainerName+"_CFE_photon_NMatchedPhoton",5,0,5);
59  }
60  else{
61  m_NFE_photon_dR=Book1D("_NFE_photon_dR",m_sFEContainerName+"_NFE_photon_dR",10,0,1);
62  m_NFE_photon_NMatchedPhoton=Book1D("_NFE_photon_NMatchedPhoton",m_sFEContainerName+"_NFE_photon_NMatchedPhoton",5,0,5);
63  }
64  }

◆ RegisterSubPlot()

void PlotBase::RegisterSubPlot ( PlotBase pPlotBase)
inlineinherited

Definition at line 41 of file PlotBase.h.

41 {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.

83  {
84  std::vector<EfficiencyData> vBookedEfficiencies = m_vBookedEfficiencies;
85  for (const auto &subNode: m_vSubNodes) {
86  std::vector<EfficiencyData> subNodeHists = subNode->retrieveBookedEfficiencies();
87  vBookedEfficiencies.insert(vBookedEfficiencies.end(), subNodeHists.begin(), subNodeHists.end());
88  }
89  return vBookedEfficiencies;
90 }

◆ retrieveBookedHistograms()

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

Retrieve all booked histograms.

Definition at line 63 of file PlotBase.cxx.

63  {
64  std::vector<HistData> vBookedHistograms = m_vBookedHistograms;
65  for (const auto &subNode: m_vSubNodes) {
66  std::vector<HistData> subNodeHists = subNode->retrieveBookedHistograms();
67  vBookedHistograms.insert(vBookedHistograms.end(), subNodeHists.begin(), subNodeHists.end());
68  }
69  return vBookedHistograms;
70 }

◆ retrieveBookedTrees()

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

Retrieve all booked trees.

Definition at line 73 of file PlotBase.cxx.

73  {
74  std::vector<TreeData> vBookedTrees = m_vBookedTrees;
75  for (auto *subNode: m_vSubNodes) {
76  std::vector<TreeData> subNodeTrees = subNode->retrieveBookedTrees();
77  vBookedTrees.insert(vBookedTrees.end(), subNodeTrees.begin(), subNodeTrees.end());
78  }
79  return vBookedTrees;
80 }

◆ setDetailLevel()

void PlotBase::setDetailLevel ( int  iDetailLevel)
inherited

Definition at line 55 of file PlotBase.cxx.

55  {
56  for (auto *subNode: m_vSubNodes) {
57  subNode->setDetailLevel(iDetailLevel);
58  }
59  m_iDetailLevel = iDetailLevel;
60 }

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:
PlotBase::constructPrefix
static std::string constructPrefix(std::string dir, bool prependDir)
Definition: PlotBase.cxx:293
WritePulseShapeToCool.yhi
yhi
Definition: WritePulseShapeToCool.py:153
replace
std::string replace(std::string s, const std::string &s2, const std::string &s3)
Definition: hcg.cxx:307
PlotBase::m_iDetailLevel
int m_iDetailLevel
Definition: PlotBase.h:101
xAOD::muon
@ muon
Definition: TrackingPrimitives.h:195
PFO::FlowElement_LinkerPlots::m_CFE_photon_NMatchedPhoton
TH1 * m_CFE_photon_NMatchedPhoton
Definition: FlowElement_LinkerPlots.h:44
PlotBase::m_vBookedHistograms
std::vector< HistData > m_vBookedHistograms
Definition: PlotBase.h:97
MuonLink
ElementLink< xAOD::MuonContainer > MuonLink
Definition: BPhysHelper.cxx:21
PFO::FlowElement_LinkerPlots::m_CFE_muon_largeDR_debug_type
TH1 * m_CFE_muon_largeDR_debug_type
Definition: FlowElement_LinkerPlots.h:38
PFO::FlowElement_LinkerPlots::m_NFE_muon_NMatchedMuon
TH1 * m_NFE_muon_NMatchedMuon
Definition: FlowElement_LinkerPlots.h:41
PFO::FlowElement_LinkerPlots::m_NFE_tau_NMatchedTau
TH1 * m_NFE_tau_NMatchedTau
Definition: FlowElement_LinkerPlots.h:33
make_coralServer_rep.opt
opt
Definition: make_coralServer_rep.py:19
PFO::FlowElement_LinkerPlots::m_doNeutralFE
bool m_doNeutralFE
Definition: FlowElement_LinkerPlots.h:57
python.base_data.auth
auth
Definition: base_data.py:57
ElectronLink
ElementLink< xAOD::ElectronContainer > ElectronLink
Definition: BPhysHelper.cxx:23
python.copyTCTOutput.sDir
sDir
Definition: copyTCTOutput.py:60
plotmaker.hist
hist
Definition: plotmaker.py:148
mergePhysValFiles.start
start
Definition: DataQuality/DataQualityUtils/scripts/mergePhysValFiles.py:14
PlotBase::initializePlots
virtual void initializePlots()
Definition: PlotBase.h:91
PlotBase::m_sDirectory
std::string m_sDirectory
Definition: PlotBase.h:100
PlotBase::m_vBookedEfficiencies
std::vector< EfficiencyData > m_vBookedEfficiencies
Definition: PlotBase.h:99
tree
TChain * tree
Definition: tile_monitor.h:30
PFO::FlowElement_LinkerPlots::m_CFE_muon_largeDR_debug_author
TH1 * m_CFE_muon_largeDR_debug_author
Definition: FlowElement_LinkerPlots.h:37
PlotBase::Book2D
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.
Definition: PlotBase.cxx:123
PFO::FlowElement_LinkerPlots::m_NFE_electron_dR
TH1 * m_NFE_electron_dR
Definition: FlowElement_LinkerPlots.h:52
SG::ConstAccessor
Helper class to provide constant type-safe access to aux data.
Definition: ConstAccessor.h:55
PFO::FlowElement_LinkerPlots::m_CFE_muon_dR
TH1 * m_CFE_muon_dR
Definition: FlowElement_LinkerPlots.h:35
python.TrigEgammaMonitorHelper.TH2F
def TH2F(name, title, nxbins, bins_par2, bins_par3, bins_par4, bins_par5=None, bins_par6=None, path='', **kwargs)
Definition: TrigEgammaMonitorHelper.py:45
PFO::FlowElement_LinkerPlots::m_CFE_electron_dR
TH1 * m_CFE_electron_dR
Definition: FlowElement_LinkerPlots.h:49
xAOD::Muon_v1
Class describing a Muon.
Definition: Muon_v1.h:38
PlotBase::PlotBase
PlotBase(PlotBase *parent, const std::string &sDir)
Definition: PlotBase.cxx:29
PFO::FlowElement_LinkerPlots::m_CFE_tau_NMatchedTau
TH1 * m_CFE_tau_NMatchedTau
Definition: FlowElement_LinkerPlots.h:30
mergePhysValFiles.end
end
Definition: DataQuality/DataQualityUtils/scripts/mergePhysValFiles.py:93
PlotBase::Book1D
TH1D * Book1D(const std::string &name, const std::string &labels, int nBins, float start, float end, bool prependDir=true)
Book a TH1D histogram.
Definition: PlotBase.cxx:94
PFO::FlowElement_LinkerPlots::m_sFEContainerName
std::string m_sFEContainerName
Definition: FlowElement_LinkerPlots.h:56
beamspotnt.labels
list labels
Definition: bin/beamspotnt.py:1447
PlotBase::m_vSubNodes
std::vector< PlotBase * > m_vSubNodes
Definition: PlotBase.h:96
PFO::FlowElement_LinkerPlots::m_NFE_photon_dR
TH1 * m_NFE_photon_dR
Definition: FlowElement_LinkerPlots.h:46
WritePulseShapeToCool.xhi
xhi
Definition: WritePulseShapeToCool.py:152
python.TrigEgammaMonitorHelper.TProfile
def TProfile(*args, **kwargs)
Definition: TrigEgammaMonitorHelper.py:81
PFO::FlowElement_LinkerPlots::m_CFE_photon_dR
TH1 * m_CFE_photon_dR
Definition: FlowElement_LinkerPlots.h:43
ChangeHistoRange.binsY
list binsY
Definition: ChangeHistoRange.py:59
xAOD::TauJet_v3
Class describing a tau jet.
Definition: TauJet_v3.h:41
PFO::FlowElement_LinkerPlots::m_CFE_electron_NMatchedElectron
TH1 * m_CFE_electron_NMatchedElectron
Definition: FlowElement_LinkerPlots.h:50
checkCorrelInHIST.prefix
dictionary prefix
Definition: checkCorrelInHIST.py:391
WritePulseShapeToCool.xlo
xlo
Definition: WritePulseShapeToCool.py:133
WritePulseShapeToCool.ylo
ylo
Definition: WritePulseShapeToCool.py:134
PFO::FlowElement_LinkerPlots::m_NFE_photon_NMatchedPhoton
TH1 * m_NFE_photon_NMatchedPhoton
Definition: FlowElement_LinkerPlots.h:47
beamspotman.dir
string dir
Definition: beamspotman.py:623
dumpTgcDigiJitter.nBins
list nBins
Definition: dumpTgcDigiJitter.py:29
name
std::string name
Definition: Control/AthContainers/Root/debug.cxx:228
PFO::FlowElement_LinkerPlots::m_NFE_electron_NMatchedElectron
TH1 * m_NFE_electron_NMatchedElectron
Definition: FlowElement_LinkerPlots.h:53
xAOD::Electron_v1
Definition: Electron_v1.h:34
PFO::FlowElement_LinkerPlots::m_NFE_muon_dR
TH1 * m_NFE_muon_dR
Definition: FlowElement_LinkerPlots.h:40
xAOD::FlowElement_v1::p4
virtual FourMom_t p4() const override
The full 4-momentum of the particle.
Definition: FlowElement_v1.cxx:33
xAOD::photon
@ photon
Definition: TrackingPrimitives.h:199
PFO::FlowElement_LinkerPlots::m_CFE_muon_NMatchedMuon
TH1 * m_CFE_muon_NMatchedMuon
Definition: FlowElement_LinkerPlots.h:36
xAOD::Photon_v1
Definition: Photon_v1.h:37
xAOD::TauJet_v3::p4
virtual FourMom_t p4() const
The full 4-momentum of the particle.
Definition: TauJet_v3.cxx:97
python.CaloScaleNoiseConfig.type
type
Definition: CaloScaleNoiseConfig.py:78
xAOD::EgammaParameters::electron
@ electron
Definition: EgammaEnums.h:18
ChangeHistoRange.binsX
list binsX
Definition: ChangeHistoRange.py:56
makeComparison.deltaR
float deltaR
Definition: makeComparison.py:36
PlotBase::finalizePlots
virtual void finalizePlots()
Definition: PlotBase.h:92
xAOD::EventInfo_v1::beamSpotWeight
float beamSpotWeight() const
Weight for beam spot size reweighting.
Definition: EventInfo_v1.cxx:970
PlotBase::m_vBookedTrees
std::vector< TreeData > m_vBookedTrees
Definition: PlotBase.h:98
PFO::FlowElement_LinkerPlots::m_NFE_tau_dR
TH1 * m_NFE_tau_dR
Definition: FlowElement_LinkerPlots.h:32
PFO::FlowElement_LinkerPlots::m_CFE_tau_dR
TH1 * m_CFE_tau_dR
Definition: FlowElement_LinkerPlots.h:29