CMS 3D CMS Logo

List of all members | Public Member Functions | Protected Attributes | Private Member Functions | Private Attributes
GenericBenchmark Class Reference

#include <GenericBenchmark.h>

Inheritance diagram for GenericBenchmark:
GenericBenchmarkAnalyzer

Public Member Functions

template<typename C >
void fill (const C *RecoCollection, const C *GenCollection, bool startFromGen=false, bool PlotAgainstReco=true, bool onlyTwoJets=false, double recPt_cut=-1., double minEta_cut=-1., double maxEta_cut=-1., double deltaR_cut=-1.)
 
 GenericBenchmark ()
 
void setfile (TFile *file)
 
void setup (DQMStore *DQM=NULL, bool PlotAgainstReco_=true, float minDeltaEt=-100., float maxDeltaEt=50., float minDeltaPhi=-0.5, float maxDeltaPhi=0.5, bool doMetPlots=false)
 
void write (std::string Filename)
 
virtual ~GenericBenchmark ()(false)
 

Protected Attributes

PFBenchmarkAlgoalgo_
 
DQMStoredbe_
 

Private Member Functions

bool accepted (const reco::Candidate *particle, double ptCut, double minEtaCut, double maxEtaCut) const
 
void fillHistos (const reco::Candidate *genParticle, const reco::Candidate *recParticle, double deltaR_cut, bool plotAgainstReco)
 

Private Attributes

bool doMetPlots_
 
TFile * file_
 
TH1F * hDeltaEt
 
TH1F * hDeltaEta
 
TH2F * hDeltaEtavsEt
 
TH2F * hDeltaEtavsEta
 
TH2F * hDeltaEtOverEtvsDeltaR
 
TH2F * hDeltaEtOverEtvsEt
 
TH2F * hDeltaEtOverEtvsEta
 
TH2F * hDeltaEtOverEtvsPhi
 
TH2F * hDeltaEtvsDeltaR
 
TH2F * hDeltaEtvsEt
 
TH2F * hDeltaEtvsEta
 
TH2F * hDeltaEtvsPhi
 
TH1F * hDeltaEx
 
TH1F * hDeltaEy
 
TH2F * hDeltaMexvsSet
 
TH1F * hDeltaPhi
 
TH2F * hDeltaPhivsEt
 
TH2F * hDeltaPhivsEta
 
TH1F * hDeltaR
 
TH2F * hDeltaRvsEt
 
TH2F * hDeltaRvsEta
 
TH2F * hDeltaSetOverSetvsSet
 
TH2F * hDeltaSetvsSet
 
TH1F * hEtaGen
 
TH1F * hEtaSeen
 
TH1F * hEtGen
 
TH1F * hEtRec
 
TH2F * hEtRecOverTrueEtvsTrueEt
 
TH2F * hEtRecvsEt
 
TH1F * hEtSeen
 
TH2F * hEtvsEtaGen
 
TH2F * hEtvsEtaSeen
 
TH2F * hEtvsPhiGen
 
TH2F * hEtvsPhiSeen
 
TH1F * hExRec
 
TH1F * hEyRec
 
TH1F * hNGen
 
TH1F * hNRec
 
TH1F * hPhiGen
 
TH1F * hPhiRec
 
TH1F * hPhiSeen
 
TH2F * hRecSetOverTrueSetvsTrueSet
 
TH2F * hRecSetvsTrueSet
 
TH1F * hSumEt
 
TH2F * hTrueMexvsTrueSet
 
TH1F * hTrueSumEt
 
BenchmarkTreetree_
 

Detailed Description

Definition at line 24 of file GenericBenchmark.h.

Constructor & Destructor Documentation

GenericBenchmark::GenericBenchmark ( )

Definition at line 37 of file GenericBenchmark.cc.

37 {}
GenericBenchmark::~GenericBenchmark ( )
virtual

Definition at line 39 of file GenericBenchmark.cc.

39 {}

Member Function Documentation

bool GenericBenchmark::accepted ( const reco::Candidate particle,
double  ptCut,
double  minEtaCut,
double  maxEtaCut 
) const
private

Definition at line 288 of file GenericBenchmark.cc.

References reco::Candidate::eta(), and reco::Candidate::pt().

Referenced by fill().

291  {
292 
293  //skip reconstructed PFJets with p_t < recPt_cut
294  if (particle->pt() < ptCut and ptCut != -1.)
295  return false;
296 
297  if (fabs(particle->eta())>maxEtaCut and maxEtaCut > 0)
298  return false;
299  if (fabs(particle->eta())<minEtaCut and minEtaCut > 0)
300  return false;
301 
302  //accepted!
303  return true;
304 
305 }
virtual double eta() const =0
momentum pseudorapidity
virtual double pt() const =0
transverse momentum
template<typename C >
void GenericBenchmark::fill ( const C *  RecoCollection,
const C *  GenCollection,
bool  startFromGen = false,
bool  PlotAgainstReco = true,
bool  onlyTwoJets = false,
double  recPt_cut = -1.,
double  minEta_cut = -1.,
double  maxEta_cut = -1.,
double  deltaR_cut = -1. 
)

Definition at line 137 of file GenericBenchmark.h.

References accepted(), algo_, deltaR(), PFBenchmarkAlgo::deltaR(), reco::Candidate::et(), reco::Candidate::eta(), fillHistos(), hEtaGen, hEtaSeen, hEtGen, hEtRec, hEtRecOverTrueEtvsTrueEt, hEtRecvsEt, hEtSeen, hEtvsEtaGen, hEtvsEtaSeen, hEtvsPhiGen, hEtvsPhiSeen, hExRec, hEyRec, hNGen, hNRec, hPhiGen, hPhiRec, hPhiSeen, mps_fire::i, PFBenchmarkAlgo::matchByDeltaR(), NULL, reco::Candidate::phi(), reco::Candidate::pt(), reco::Candidate::px(), and reco::Candidate::py().

145  {
146 
147  //if (doMetPlots_)
148  //{
149  // const reco::MET* met1=static_cast<const reco::MET*>(&((*RecoCollection)[0]));
150  // if (met1!=NULL) std::cout << "FL: met1.sumEt() = " << (*met1).sumEt() << std::endl;
151  //}
152 
153  // loop over reco particles
154 
155  if( !startFromGen) {
156  int nRec = 0;
157  for (unsigned int i = 0; i < RecoCollection->size(); i++) {
158 
159  // generate histograms comparing the reco and truth candidate (truth = closest in delta-R)
160  const reco::Candidate *particle = &(*RecoCollection)[i];
161 
162  assert( particle!=NULL );
163  if( !accepted(particle, recPt_cut,
164  minEta_cut, maxEta_cut)) continue;
165 
166 
167  // Count the number of jets with a larger energy
168  if( onlyTwoJets ) {
169  unsigned highJets = 0;
170  for(unsigned j=0; j<RecoCollection->size(); j++) {
171  const reco::Candidate *otherParticle = &(*RecoCollection)[j];
172  if ( j != i && otherParticle->pt() > particle->pt() ) highJets++;
173  }
174  if ( highJets > 1 ) continue;
175  }
176  nRec++;
177 
178  const reco::Candidate *gen_particle = algo_->matchByDeltaR(particle,
179  GenCollection);
180  if(gen_particle==NULL) continue;
181 
182 
183 
184  // fill histograms
185  fillHistos( gen_particle, particle, deltaR_cut, PlotAgainstReco);
186  }
187 
188  hNRec->Fill(nRec);
189  }
190 
191  // loop over gen particles
192 
193  // std::cout<<"Reco size = "<<RecoCollection->size()<<", ";
194  // std::cout<<"Gen size = "<<GenCollection->size()<<std::endl;
195 
196  int nGen = 0;
197  for (unsigned int i = 0; i < GenCollection->size(); i++) {
198 
199  const reco::Candidate *gen_particle = &(*GenCollection)[i];
200 
201  if( !accepted(gen_particle, recPt_cut, minEta_cut, maxEta_cut)) {
202  continue;
203  }
204 
205  hEtaGen->Fill(gen_particle->eta() );
206  hPhiGen->Fill(gen_particle->phi() );
207  hEtGen->Fill(gen_particle->et() );
208  hEtvsEtaGen->Fill(gen_particle->eta(),gen_particle->et() );
209  hEtvsPhiGen->Fill(gen_particle->phi(),gen_particle->et() );
210 
211  const reco::Candidate *rec_particle = algo_->matchByDeltaR(gen_particle,
213  nGen++;
214  if(! rec_particle) continue; // no match
215  // must make a cut on delta R - so let's do the cut
216 
217  double deltaR = algo_->deltaR(rec_particle,gen_particle);
218  if (deltaR>deltaR_cut && deltaR_cut != -1.)
219  continue;
220 
221  hEtaSeen->Fill(gen_particle->eta() );
222  hPhiSeen->Fill(gen_particle->phi() );
223  hEtSeen->Fill(gen_particle->et() );
224  hEtvsEtaSeen->Fill(gen_particle->eta(),gen_particle->et() );
225  hEtvsPhiSeen->Fill(gen_particle->phi(),gen_particle->et() );
226 
227  hPhiRec->Fill(rec_particle->phi() );
228  hEtRec->Fill(rec_particle->et() );
229  hExRec->Fill(rec_particle->px() );
230  hEyRec->Fill(rec_particle->py() );
231 
232  hEtRecvsEt->Fill(gen_particle->et(),rec_particle->et());
233  if (gen_particle->et()!=0.0) hEtRecOverTrueEtvsTrueEt->Fill(gen_particle->et(),rec_particle->et()/gen_particle->et());
234 
235  if( startFromGen )
236  fillHistos( gen_particle, rec_particle, deltaR_cut, PlotAgainstReco);
237 
238 
239  }
240  hNGen->Fill(nGen);
241 
242 }
void fillHistos(const reco::Candidate *genParticle, const reco::Candidate *recParticle, double deltaR_cut, bool plotAgainstReco)
bool onlyTwoJets
PFBenchmarkAlgo * algo_
#define NULL
Definition: scimark2.h:8
bool accepted(const reco::Candidate *particle, double ptCut, double minEtaCut, double maxEtaCut) const
virtual double et() const =0
transverse energy
virtual double py() const =0
y coordinate of momentum vector
static double deltaR(const T *, const U *)
double deltaR(double eta1, double eta2, double phi1, double phi2)
Definition: TreeUtility.cc:17
static const Collection::value_type * matchByDeltaR(const T *, const Collection *)
virtual double eta() const =0
momentum pseudorapidity
virtual double pt() const =0
transverse momentum
TH2F * hEtRecOverTrueEtvsTrueEt
virtual double px() const =0
x coordinate of momentum vector
virtual double phi() const =0
momentum azimuthal angle
void GenericBenchmark::fillHistos ( const reco::Candidate genParticle,
const reco::Candidate recParticle,
double  deltaR_cut,
bool  plotAgainstReco 
)
private

Definition at line 308 of file GenericBenchmark.cc.

References gather_cfg::cout, BenchmarkTreeEntry::deltaEt, spr::deltaEta, BenchmarkTreeEntry::deltaEta, MuonCkfTrajectoryBuilder_cfi::deltaPhi, deltaR(), mps_splice::entry, stringResolutionProvider_cfi::et, BenchmarkTreeEntry::et, reco::Candidate::et(), stringResolutionProvider_cfi::eta, BenchmarkTreeEntry::eta, reco::Candidate::eta(), NULL, reco::Candidate::phi(), reco::Candidate::px(), and reco::Candidate::py().

Referenced by fill().

311  {
312 
313  // get the quantities to place on the denominator and/or divide by
314  double et = genParticle->et();
315  double eta = genParticle->eta();
316  double phi = genParticle->phi();
317  //std::cout << "FL : et = " << et << std::endl;
318  //std::cout << "FL : eta = " << eta << std::endl;
319  //std::cout << "FL : phi = " << phi << std::endl;
320  //std::cout << "FL : rec et = " << recParticle->et() << std::endl;
321  //std::cout << "FL : rec eta = " << recParticle->eta() << std::endl;
322  //std::cout << "FL : rec phi = " <<recParticle-> phi() << std::endl;
323 
324  if (plotAgainstReco) {
325  et = recParticle->et();
326  eta = recParticle->eta();
327  phi = recParticle->phi();
328  }
329 
330 
331  // get the delta quantities
332  double deltaEt = algo_->deltaEt(recParticle,genParticle);
333  double deltaR = algo_->deltaR(recParticle,genParticle);
334  double deltaEta = algo_->deltaEta(recParticle,genParticle);
335  double deltaPhi = algo_->deltaPhi(recParticle,genParticle);
336 
337  //std::cout << "FL :deltaR_cut = " << deltaR_cut << std::endl;
338  //std::cout << "FL :deltaR = " << deltaR << std::endl;
339 
340  if (deltaR>deltaR_cut && deltaR_cut != -1.)
341  return;
342 
343  hDeltaEt->Fill(deltaEt);
344  hDeltaEx->Fill(recParticle->px()-genParticle->px());
345  hDeltaEy->Fill(recParticle->py()-genParticle->py());
346  hDeltaEtvsEt->Fill(et,deltaEt);
347  hDeltaEtOverEtvsEt->Fill(et,deltaEt/et);
348  hDeltaEtvsEta->Fill(eta,deltaEt);
349  hDeltaEtOverEtvsEta->Fill(eta,deltaEt/et);
350  hDeltaEtvsPhi->Fill(phi,deltaEt);
351  hDeltaEtOverEtvsPhi->Fill(phi,deltaEt/et);
352  hDeltaEtvsDeltaR->Fill(deltaR,deltaEt);
353  hDeltaEtOverEtvsDeltaR->Fill(deltaR,deltaEt/et);
354 
355  hDeltaEta->Fill(deltaEta);
356  hDeltaEtavsEt->Fill(et,deltaEta);
357  hDeltaEtavsEta->Fill(eta,deltaEta);
358 
359  hDeltaPhi->Fill(deltaPhi);
360  hDeltaPhivsEt->Fill(et,deltaPhi);
361  hDeltaPhivsEta->Fill(eta,deltaPhi);
362 
363  hDeltaR->Fill(deltaR);
364  hDeltaRvsEt->Fill(et,deltaR);
365  hDeltaRvsEta->Fill(eta,deltaR);
366 
368  entry.deltaEt = deltaEt;
369  entry.deltaEta = deltaEta;
370  entry.et = et;
371  entry.eta = eta;
372 
373  if (doMetPlots_)
374  {
375  const reco::MET* met1=static_cast<const reco::MET*>(genParticle);
376  const reco::MET* met2=static_cast<const reco::MET*>(recParticle);
377  if (met1!=NULL && met2!=NULL)
378  {
379  //std::cout << "FL: met1.sumEt() = " << (*met1).sumEt() << std::endl;
380  hTrueSumEt->Fill((*met1).sumEt());
381  hSumEt->Fill((*met2).sumEt());
382  hDeltaSetvsSet->Fill((*met1).sumEt(),(*met2).sumEt()-(*met1).sumEt());
383  hDeltaMexvsSet->Fill((*met1).sumEt(),recParticle->px()-genParticle->px());
384  hDeltaMexvsSet->Fill((*met1).sumEt(),recParticle->py()-genParticle->py());
385  if ((*met1).sumEt()>0.01) hDeltaSetOverSetvsSet->Fill((*met1).sumEt(),((*met2).sumEt()-(*met1).sumEt())/(*met1).sumEt());
386  hRecSetvsTrueSet->Fill((*met1).sumEt(),(*met2).sumEt());
387  hRecSetOverTrueSetvsTrueSet->Fill((*met1).sumEt(),(*met2).sumEt()/((*met1).sumEt()));
388  hTrueMexvsTrueSet->Fill((*met1).sumEt(),(*met1).px());
389  hTrueMexvsTrueSet->Fill((*met1).sumEt(),(*met1).py());
390  }
391  else
392  {
393  std::cout << "Warning : reco::MET* == NULL" << std::endl;
394  }
395  }
396 
397  // tree_->Fill(entry);
398 
399 }
PFBenchmarkAlgo * algo_
#define NULL
Definition: scimark2.h:8
static double deltaEt(const T *, const U *)
static const double deltaEta
Definition: CaloConstants.h:8
virtual double et() const =0
transverse energy
virtual double py() const =0
y coordinate of momentum vector
static double deltaEta(const T *, const U *)
Definition: MET.h:42
TH2F * hRecSetOverTrueSetvsTrueSet
static double deltaR(const T *, const U *)
TH2F * hDeltaEtOverEtvsDeltaR
double deltaR(double eta1, double eta2, double phi1, double phi2)
Definition: TreeUtility.cc:17
bool plotAgainstReco
virtual double eta() const =0
momentum pseudorapidity
et
define resolution functions of each parameter
static double deltaPhi(const T *, const U *)
virtual double px() const =0
x coordinate of momentum vector
virtual double phi() const =0
momentum azimuthal angle
void GenericBenchmark::setfile ( TFile *  file)
void GenericBenchmark::setup ( DQMStore DQM = NULL,
bool  PlotAgainstReco_ = true,
float  minDeltaEt = -100.,
float  maxDeltaEt = 50.,
float  minDeltaPhi = -0.5,
float  maxDeltaPhi = 0.5,
bool  doMetPlots = false 
)

Definition at line 41 of file GenericBenchmark.cc.

References BOOK1D, BOOK2D, gather_cfg::cout, debug, HiRegitMuonDetachedTripletStep_cff::DeltaEta, benchmark_cfg::doMetPlots, ET, ETA, FrontierConditions_GlobalTag_cff::file, M_PI, maxEta, cutBasedElectronID_CSA14_50ns_V0_cff::minEta, GetRecoTauVFromDQM_MC_cff::next, PHI, and SETAXES.

42  {
43 
44  //std::cout << "minDeltaPhi = " << minDeltaPhi << std::endl;
45 
46  // CMSSW_2_X_X
47  // use bare Root if no DQM (FWLite applications)
48  //if (!DQM)
49  //{
50  // file_ = new TFile("pfmetBenchmark.root", "recreate");
51  // cout << "Info: DQM is not available to provide data storage service. Using TFile to save histograms. "<<endl;
52  //}
53  // Book Histograms
54 
55  //std::cout << "FL : pwd = ";
56  //gDirectory->pwd();
57  //std::cout << std::endl;
58 
59  int nbinsEt = 1000;
60  float minEt = 0;
61  float maxEt = 1000;
62 
63  //float minDeltaEt = -100;
64  //float maxDeltaEt = 50;
65 
66  int nbinsEta = 200;
67  float minEta = -5;
68  float maxEta = 5;
69 
70  int nbinsDeltaEta = 1000;
71  float minDeltaEta = -0.5;
72  float maxDeltaEta = 0.5;
73 
74  int nbinsDeltaPhi = 1000;
75  //float minDeltaPhi = -0.5;
76  //float maxDeltaPhi = 0.5;
77 
78 
79  // delta et quantities
80  BOOK1D(DeltaEt,"#DeltaE_{T}", nbinsEt, minDeltaEt, maxDeltaEt);
81  BOOK1D(DeltaEx,"#DeltaE_{X}", nbinsEt, minDeltaEt, maxDeltaEt);
82  BOOK1D(DeltaEy,"#DeltaE_{Y}", nbinsEt, minDeltaEt, maxDeltaEt);
83  BOOK2D(DeltaEtvsEt,"#DeltaE_{T} vs E_{T}",
84  nbinsEt, minEt, maxEt,
85  nbinsEt,minDeltaEt, maxDeltaEt);
86  BOOK2D(DeltaEtOverEtvsEt,"#DeltaE_{T}/E_{T} vsE_{T}",
87  nbinsEt, minEt, maxEt,
88  nbinsEt,-1,1);
89  BOOK2D(DeltaEtvsEta,"#DeltaE_{T} vs #eta",
90  nbinsEta, minEta, maxEta,
91  nbinsEt,minDeltaEt, maxDeltaEt);
92  BOOK2D(DeltaEtOverEtvsEta,"#DeltaE_{T}/E_{T} vs #eta",
93  nbinsEta, minEta, maxEta,
94  100,-1,1);
95  BOOK2D(DeltaEtvsPhi,"#DeltaE_{T} vs #phi",
96  200,-M_PI,M_PI,
97  nbinsEt,minDeltaEt, maxDeltaEt);
98  BOOK2D(DeltaEtOverEtvsPhi,"#DeltaE_{T}/E_{T} vs #Phi",
99  200,-M_PI,M_PI,
100  100,-1,1);
101  BOOK2D(DeltaEtvsDeltaR,"#DeltaE_{T} vs #DeltaR",
102  100,0,1,
103  nbinsEt,minDeltaEt, maxDeltaEt);
104  BOOK2D(DeltaEtOverEtvsDeltaR,"#DeltaE_{T}/E_{T} vs #DeltaR",
105  100,0,1,
106  100,-1,1);
107 
108  // delta eta quantities
109  BOOK1D(DeltaEta,"#Delta#eta",nbinsDeltaEta,minDeltaEta,maxDeltaEta);
110  BOOK2D(DeltaEtavsEt,"#Delta#eta vs E_{T}",
111  nbinsEt, minEt, maxEt,
112  nbinsDeltaEta,minDeltaEta,maxDeltaEta);
113  BOOK2D(DeltaEtavsEta,"#Delta#eta vs #eta",
114  nbinsEta, minEta, maxEta,
115  nbinsDeltaEta,minDeltaEta,maxDeltaEta);
116 
117  // delta phi quantities
118  BOOK1D(DeltaPhi,"#Delta#phi",nbinsDeltaPhi,minDeltaPhi,maxDeltaPhi);
119  BOOK2D(DeltaPhivsEt,"#Delta#phi vs E_{T}",
120  nbinsEt, minEt, maxEt,
121  nbinsDeltaPhi,minDeltaPhi,maxDeltaPhi);
122  BOOK2D(DeltaPhivsEta,"#Delta#phi vs #eta",
123  nbinsEta, minEta, maxEta,
124  nbinsDeltaPhi,minDeltaPhi,maxDeltaPhi);
125 
126  // delta R quantities
127  BOOK1D(DeltaR,"#DeltaR",100,0,1);
128  BOOK2D(DeltaRvsEt,"#DeltaR vs E_{T}",
129  nbinsEt, minEt, maxEt,
130  100,0,1);
131  BOOK2D(DeltaRvsEta,"#DeltaR vs #eta",
132  nbinsEta, minEta, maxEta,
133  100,0,1);
134 
135  BOOK1D(NRec,"Number of reconstructed objects",20,0,20);
136 
137  // seen and gen distributions, for efficiency computation
138  BOOK1D(EtaSeen,"seen #eta",100,-5,5);
139  BOOK1D(PhiSeen,"seen #phi",100,-3.5,3.5);
140  BOOK1D(EtSeen,"seen E_{T}",nbinsEt, minEt, maxEt);
141  BOOK2D(EtvsEtaSeen,"seen E_{T} vs eta",100,-5,5,200, 0, 200);
142  BOOK2D(EtvsPhiSeen,"seen E_{T} vs seen #phi",100,-3.5,3.5,200, 0, 200);
143 
144  BOOK1D(PhiRec,"Rec #phi",100,-3.5,3.5);
145  BOOK1D(EtRec,"Rec E_{T}",nbinsEt, minEt, maxEt);
146  BOOK1D(ExRec,"Rec E_{X}",nbinsEt, -maxEt, maxEt);
147  BOOK1D(EyRec,"Rec E_{Y}",nbinsEt, -maxEt, maxEt);
148 
149  BOOK2D(EtRecvsEt,"Rec E_{T} vs E_{T}",
150  nbinsEt, minEt, maxEt,
151  nbinsEt, minEt, maxEt);
152  BOOK2D(EtRecOverTrueEtvsTrueEt,"Rec E_{T} / E_{T} vs E_{T}",
153  nbinsEt, minEt, maxEt,
154  1000, 0., 100.);
155 
156  BOOK1D(EtaGen,"generated #eta",100,-5,5);
157  BOOK1D(PhiGen,"generated #phi",100,-3.5,3.5);
158  BOOK1D(EtGen,"generated E_{T}",nbinsEt, minEt, maxEt);
159  BOOK2D(EtvsEtaGen,"generated E_{T} vs generated #eta",100,-5,5,200, 0, 200);
160  BOOK2D(EtvsPhiGen,"generated E_{T} vs generated #phi",100,-3.5,3.5, 200, 0, 200);
161 
162  BOOK1D(NGen,"Number of generated objects",20,0,20);
163 
164  if (doMetPlots)
165  {
166  BOOK1D(SumEt,"SumEt", 1000, 0., 3000.);
167  BOOK1D(TrueSumEt,"TrueSumEt", 1000, 0., 3000.);
168  BOOK2D(DeltaSetvsSet,"#DeltaSEt vs trueSEt",
169  3000, 0., 3000.,
170  1000,-1000., 1000.);
171  BOOK2D(DeltaMexvsSet,"#DeltaMEX vs trueSEt",
172  3000, 0., 3000.,
173  1000,-400., 400.);
174  BOOK2D(DeltaSetOverSetvsSet,"#DeltaSetOverSet vs trueSet",
175  3000, 0., 3000.,
176  1000,-1., 1.);
177  BOOK2D(RecSetvsTrueSet,"Set vs trueSet",
178  3000, 0., 3000.,
179  3000,0., 3000.);
180  BOOK2D(RecSetOverTrueSetvsTrueSet,"Set/trueSet vs trueSet",
181  3000, 0., 3000.,
182  500,0., 2.);
183  BOOK2D(TrueMexvsTrueSet,"trueMex vs trueSet",
184  3000,0., 3000.,
185  nbinsEt, -maxEt, maxEt);
186  }
187  // number of truth particles found within given cone radius of reco
188  //BOOK2D(NumInConeVsConeSize,NumInConeVsConeSize,100,0,1,25,0,25);
189 
190  // Set Axis Titles
191 
192  // delta et quantities
193  SETAXES(DeltaEt,"#DeltaE_{T} [GeV]","");
194  SETAXES(DeltaEx,"#DeltaE_{X} [GeV]","");
195  SETAXES(DeltaEy,"#DeltaE_{Y} [GeV]","");
196  SETAXES(DeltaEtvsEt,ET,"#DeltaE_{T} [GeV]");
197  SETAXES(DeltaEtOverEtvsEt,ET,"#DeltaE_{T}/E_{T}");
198  SETAXES(DeltaEtvsEta,ETA,"#DeltaE_{T} [GeV]");
199  SETAXES(DeltaEtOverEtvsEta,ETA,"#DeltaE_{T}/E_{T}");
200  SETAXES(DeltaEtvsPhi,PHI,"#DeltaE_{T} [GeV]");
201  SETAXES(DeltaEtOverEtvsPhi,PHI,"#DeltaE_{T}/E_{T}");
202  SETAXES(DeltaEtvsDeltaR,"#DeltaR","#DeltaE_{T} [GeV]");
203  SETAXES(DeltaEtOverEtvsDeltaR,"#DeltaR","#DeltaE_{T}/E_{T}");
204 
205  // delta eta quantities
206  SETAXES(DeltaEta,"#Delta#eta","Events");
207  SETAXES(DeltaEtavsEt,ET,"#Delta#eta");
208  SETAXES(DeltaEtavsEta,ETA,"#Delta#eta");
209 
210  // delta phi quantities
211  SETAXES(DeltaPhi,"#Delta#phi [rad]","Events");
212  SETAXES(DeltaPhivsEt,ET,"#Delta#phi [rad]");
213  SETAXES(DeltaPhivsEta,ETA,"#Delta#phi [rad]");
214 
215  // delta R quantities
216  SETAXES(DeltaR,"#DeltaR","Events");
217  SETAXES(DeltaRvsEt,ET,"#DeltaR");
218  SETAXES(DeltaRvsEta,ETA,"#DeltaR");
219 
220  SETAXES(NRec,"Number of Rec Objects","");
221 
222  SETAXES(EtaSeen,"seen #eta","");
223  SETAXES(PhiSeen,"seen #phi [rad]","");
224  SETAXES(EtSeen,"seen E_{T} [GeV]","");
225  SETAXES(EtvsEtaSeen,"seen #eta","seen E_{T}");
226  SETAXES(EtvsPhiSeen,"seen #phi [rad]","seen E_{T}");
227 
228  SETAXES(PhiRec,"#phi [rad]","");
229  SETAXES(EtRec,"E_{T} [GeV]","");
230  SETAXES(ExRec,"E_{X} [GeV]","");
231  SETAXES(EyRec,"E_{Y} [GeV]","");
232  SETAXES(EtRecvsEt,ET,"Rec E_{T} [GeV]");
233  SETAXES(EtRecOverTrueEtvsTrueEt,ET,"Rec E_{T} / E_{T} [GeV]");
234 
235  SETAXES(EtaGen,"generated #eta","");
236  SETAXES(PhiGen,"generated #phi [rad]","");
237  SETAXES(EtGen,"generated E_{T} [GeV]","");
238  SETAXES(EtvsPhiGen,"generated #phi [rad]","generated E_{T} [GeV]");
239  SETAXES(EtvsEtaGen,"generated #eta","generated E_{T} [GeV]");
240 
241  SETAXES(NGen,"Number of Gen Objects","");
242 
243  if (doMetPlots)
244  {
245  SETAXES(SumEt,"SumEt [GeV]","");
246  SETAXES(TrueSumEt,"TrueSumEt [GeV]","");
247  SETAXES(DeltaSetvsSet,"TrueSumEt","#DeltaSumEt [GeV]");
248  SETAXES(DeltaMexvsSet,"TrueSumEt","#DeltaMEX [GeV]");
249  SETAXES(DeltaSetOverSetvsSet,"TrueSumEt","#DeltaSumEt/trueSumEt");
250  SETAXES(RecSetvsTrueSet,"TrueSumEt","SumEt");
251  SETAXES(RecSetOverTrueSetvsTrueSet,"TrueSumEt","SumEt/trueSumEt");
252  SETAXES(TrueMexvsTrueSet,"TrueSumEt","TrueMEX");
253  }
254 
255  TDirectory* oldpwd = gDirectory;
256 
257 
258  TIter next( gROOT->GetListOfFiles() );
259 
260  const bool debug=false;
261 
262  while ( TFile *file = (TFile *)next() )
263  {
264  if (debug) cout<<"file "<<file->GetName()<<endl;
265  }
266  if (DQM)
267  {
268  cout<<"DQM subdir"<<endl;
269  cout<< DQM->pwd().c_str()<<endl;
270 
271  DQM->cd( DQM->pwd() );
272  }
273 
274  if (debug)
275  {
276  cout<<"current dir"<<endl;
277  gDirectory->pwd();
278  }
279 
280  oldpwd->cd();
281  //gDirectory->pwd();
282 
284 
285  // tree_ = new BenchmarkTree("genericBenchmark", "Generic Benchmark TTree");
286 }
Definition: DeltaR.py:1
#define BOOK1D(name, title, nbinsx, lowx, highx)
double maxEta
#define ETA
#define BOOK2D(name, title, nbinsx, lowx, highx, nbinsy, lowy, highy)
#define M_PI
#define debug
Definition: HDRShower.cc:19
#define PHI
#define ET
#define SETAXES(name, xtitle, ytitle)
void GenericBenchmark::write ( std::string  Filename)

Definition at line 401 of file GenericBenchmark.cc.

401  {
402 
403  if (Filename.size() != 0 && file_)
404  file_->Write(Filename.c_str());
405 
406 }

Member Data Documentation

PFBenchmarkAlgo* GenericBenchmark::algo_
protected

Definition at line 132 of file GenericBenchmark.h.

Referenced by fill().

DQMStore* GenericBenchmark::dbe_
protected

Definition at line 131 of file GenericBenchmark.h.

bool GenericBenchmark::doMetPlots_
private

Definition at line 127 of file GenericBenchmark.h.

TFile* GenericBenchmark::file_
private

Definition at line 65 of file GenericBenchmark.h.

TH1F* GenericBenchmark::hDeltaEt
private

Definition at line 67 of file GenericBenchmark.h.

TH1F* GenericBenchmark::hDeltaEta
private

Definition at line 82 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaEtavsEt
private

Definition at line 83 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaEtavsEta
private

Definition at line 84 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaEtOverEtvsDeltaR
private

Definition at line 77 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaEtOverEtvsEt
private

Definition at line 71 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaEtOverEtvsEta
private

Definition at line 73 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaEtOverEtvsPhi
private

Definition at line 75 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaEtvsDeltaR
private

Definition at line 76 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaEtvsEt
private

Definition at line 70 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaEtvsEta
private

Definition at line 72 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaEtvsPhi
private

Definition at line 74 of file GenericBenchmark.h.

TH1F* GenericBenchmark::hDeltaEx
private

Definition at line 68 of file GenericBenchmark.h.

TH1F* GenericBenchmark::hDeltaEy
private

Definition at line 69 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaMexvsSet
private

Definition at line 119 of file GenericBenchmark.h.

TH1F* GenericBenchmark::hDeltaPhi
private

Definition at line 86 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaPhivsEt
private

Definition at line 87 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaPhivsEta
private

Definition at line 88 of file GenericBenchmark.h.

TH1F* GenericBenchmark::hDeltaR
private

Definition at line 90 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaRvsEt
private

Definition at line 91 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaRvsEta
private

Definition at line 92 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaSetOverSetvsSet
private

Definition at line 120 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hDeltaSetvsSet
private

Definition at line 118 of file GenericBenchmark.h.

TH1F* GenericBenchmark::hEtaGen
private

Definition at line 98 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hEtaSeen
private

Definition at line 106 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hEtGen
private

Definition at line 97 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hEtRec
private

Definition at line 111 of file GenericBenchmark.h.

Referenced by fill().

TH2F* GenericBenchmark::hEtRecOverTrueEtvsTrueEt
private

Definition at line 80 of file GenericBenchmark.h.

Referenced by fill().

TH2F* GenericBenchmark::hEtRecvsEt
private

Definition at line 79 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hEtSeen
private

Definition at line 105 of file GenericBenchmark.h.

Referenced by fill().

TH2F* GenericBenchmark::hEtvsEtaGen
private

Definition at line 99 of file GenericBenchmark.h.

Referenced by fill().

TH2F* GenericBenchmark::hEtvsEtaSeen
private

Definition at line 108 of file GenericBenchmark.h.

Referenced by fill().

TH2F* GenericBenchmark::hEtvsPhiGen
private

Definition at line 100 of file GenericBenchmark.h.

Referenced by fill().

TH2F* GenericBenchmark::hEtvsPhiSeen
private

Definition at line 109 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hExRec
private

Definition at line 112 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hEyRec
private

Definition at line 113 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hNGen
private

Definition at line 103 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hNRec
private

Definition at line 94 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hPhiGen
private

Definition at line 101 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hPhiRec
private

Definition at line 114 of file GenericBenchmark.h.

Referenced by fill().

TH1F* GenericBenchmark::hPhiSeen
private

Definition at line 107 of file GenericBenchmark.h.

Referenced by fill().

TH2F* GenericBenchmark::hRecSetOverTrueSetvsTrueSet
private

Definition at line 122 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hRecSetvsTrueSet
private

Definition at line 121 of file GenericBenchmark.h.

TH1F* GenericBenchmark::hSumEt
private

Definition at line 116 of file GenericBenchmark.h.

TH2F* GenericBenchmark::hTrueMexvsTrueSet
private

Definition at line 123 of file GenericBenchmark.h.

TH1F* GenericBenchmark::hTrueSumEt
private

Definition at line 117 of file GenericBenchmark.h.

BenchmarkTree* GenericBenchmark::tree_
private

Definition at line 125 of file GenericBenchmark.h.