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HLTBJet Class Reference

#include <HLTBJet.h>

Public Member Functions

void analyze (const edm::Handle< edm::View< reco::Jet > > &rawBJets, const edm::Handle< edm::View< reco::Jet > > &correctedBJets, const edm::Handle< edm::View< reco::Jet > > &correctedBJetsL1FastJet, const edm::Handle< edm::View< reco::Jet > > &pfBJets, const edm::Handle< reco::JetTagCollection > &lifetimeBJetsL25, const edm::Handle< reco::JetTagCollection > &lifetimeBJetsL3, const edm::Handle< reco::JetTagCollection > &lifetimeBJetsL25L1FastJet, const edm::Handle< reco::JetTagCollection > &lifetimeBJetsL3L1FastJet, const edm::Handle< reco::JetTagCollection > &lifetimePFBJetsL3, const edm::Handle< reco::JetTagCollection > &lifetimeBJetsL25SingleTrack, const edm::Handle< reco::JetTagCollection > &lifetimeBJetsL3SingleTrack, const edm::Handle< reco::JetTagCollection > &lifetimeBJetsL25SingleTrackL1FastJet, const edm::Handle< reco::JetTagCollection > &lifetimeBJetsL3SingleTrackL1FastJet, const edm::Handle< reco::JetTagCollection > &performanceBJetsL25, const edm::Handle< reco::JetTagCollection > &performanceBJetsL3, const edm::Handle< reco::JetTagCollection > &performanceBJetsL25L1FastJet, const edm::Handle< reco::JetTagCollection > &performanceBJetsL3L1FastJet, TTree *tree)
 
void clear (void)
 
 HLTBJet ()
 
void setup (const edm::ParameterSet &config, TTree *tree)
 
 ~HLTBJet ()
 

Private Member Functions

void analyseCorrectedJets (const edm::View< reco::Jet > &jets)
 
void analyseCorrectedJetsL1FastJet (const edm::View< reco::Jet > &jets)
 
void analyseJets (const edm::View< reco::Jet > &jets)
 
void analyseLifetime (const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
 
void analyseLifetimeL1FastJet (const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
 
void analyseLifetimePF (const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL3)
 
void analyseLifetimeSingleTrack (const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
 
void analyseLifetimeSingleTrackL1FastJet (const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
 
void analysePerformance (const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
 
void analysePerformanceL1FastJet (const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
 
void analysePFJets (const edm::View< reco::Jet > &jets)
 

Private Attributes

int NohBJetL2
 
int NohBJetL2Corrected
 
int NohBJetL2CorrectedL1FastJet
 
int NohpfBJetL2
 
float * ohBJetIPL25Tag
 
float * ohBJetIPL25TagL1FastJet
 
float * ohBJetIPL25TagSingleTrack
 
float * ohBJetIPL25TagSingleTrackL1FastJet
 
float * ohBJetIPL3Tag
 
float * ohBJetIPL3TagL1FastJet
 
float * ohBJetIPL3TagSingleTrack
 
float * ohBJetIPL3TagSingleTrackL1FastJet
 
float * ohBJetL2CorrectedEnergy
 
float * ohBJetL2CorrectedEnergyL1FastJet
 
float * ohBJetL2CorrectedEt
 
float * ohBJetL2CorrectedEta
 
float * ohBJetL2CorrectedEtaL1FastJet
 
float * ohBJetL2CorrectedEtL1FastJet
 
float * ohBJetL2CorrectedPhi
 
float * ohBJetL2CorrectedPhiL1FastJet
 
float * ohBJetL2CorrectedPt
 
float * ohBJetL2CorrectedPtL1FastJet
 
float * ohBJetL2Energy
 
float * ohBJetL2Et
 
float * ohBJetL2Eta
 
float * ohBJetL2Phi
 
float * ohBJetL2Pt
 
int * ohBJetPerfL25Tag
 
int * ohBJetPerfL25TagL1FastJet
 
int * ohBJetPerfL3Tag
 
int * ohBJetPerfL3TagL1FastJet
 
float * ohpfBJetIPL3Tag
 
float * ohpfBJetL2Energy
 
float * ohpfBJetL2Et
 
float * ohpfBJetL2Eta
 
float * ohpfBJetL2Phi
 
float * ohpfBJetL2Pt
 

Detailed Description

Definition at line 14 of file HLTBJet.h.

Constructor & Destructor Documentation

HLTBJet::HLTBJet ( )

Definition at line 24 of file HLTBJet.cc.

References kMaxBJets, NohBJetL2, NohBJetL2Corrected, NohBJetL2CorrectedL1FastJet, NohpfBJetL2, ohBJetIPL25Tag, ohBJetIPL25TagL1FastJet, ohBJetIPL25TagSingleTrack, ohBJetIPL25TagSingleTrackL1FastJet, ohBJetIPL3Tag, ohBJetIPL3TagL1FastJet, ohBJetIPL3TagSingleTrack, ohBJetIPL3TagSingleTrackL1FastJet, ohBJetL2CorrectedEnergy, ohBJetL2CorrectedEnergyL1FastJet, ohBJetL2CorrectedEt, ohBJetL2CorrectedEta, ohBJetL2CorrectedEtaL1FastJet, ohBJetL2CorrectedEtL1FastJet, ohBJetL2CorrectedPhi, ohBJetL2CorrectedPhiL1FastJet, ohBJetL2CorrectedPt, ohBJetL2CorrectedPtL1FastJet, ohBJetL2Energy, ohBJetL2Et, ohBJetL2Eta, ohBJetL2Phi, ohBJetL2Pt, ohBJetPerfL25Tag, ohBJetPerfL25TagL1FastJet, ohBJetPerfL3Tag, ohBJetPerfL3TagL1FastJet, ohpfBJetIPL3Tag, ohpfBJetL2Energy, ohpfBJetL2Et, ohpfBJetL2Eta, ohpfBJetL2Phi, and ohpfBJetL2Pt.

25 {
26  // set of variables for uncorrected L2 jets
27  NohBJetL2 = 0;
28  ohBJetL2Energy = new float[kMaxBJets];
29  ohBJetL2Et = new float[kMaxBJets];
30  ohBJetL2Pt = new float[kMaxBJets];
31  ohBJetL2Eta = new float[kMaxBJets];
32  ohBJetL2Phi = new float[kMaxBJets];
33 
34  // set of variables for corrected L2 jets
37  ohBJetL2CorrectedEt = new float[kMaxBJets];
38  ohBJetL2CorrectedPt = new float[kMaxBJets];
39  ohBJetL2CorrectedEta = new float[kMaxBJets];
40  ohBJetL2CorrectedPhi = new float[kMaxBJets];
41 
42  // set of variables for corrected L2 jets L1FastJet
49 
50  // set of variables for uncorrected L2 jets
51  NohpfBJetL2 = 0;
52  ohpfBJetL2Energy = new float[kMaxBJets];
53  ohpfBJetL2Et = new float[kMaxBJets];
54  ohpfBJetL2Pt = new float[kMaxBJets];
55  ohpfBJetL2Eta = new float[kMaxBJets];
56  ohpfBJetL2Phi = new float[kMaxBJets];
57 
58  // set of variables for lifetime-based b-tag
59  ohBJetIPL25Tag = new float[kMaxBJets];
60  ohBJetIPL3Tag = new float[kMaxBJets];
61 
62  // set of variables for lifetime-based b-tag L1FastJet
64  ohBJetIPL3TagL1FastJet = new float[kMaxBJets];
65 
66  // set of variables for lifetime-based b-tag PF jets
67  ohpfBJetIPL3Tag = new float[kMaxBJets];
68 
69  // set of variables for lifetime-based b-tag Single Track
74 
75  // set of variables for b-tagging performance measurements
76  // SoftMuonbyDR
77  ohBJetPerfL25Tag = new int[kMaxBJets]; // do not optimize
78  ohBJetPerfL3Tag = new int[kMaxBJets]; // do not optimize
79  // set of variables for b-tagging performance measurements L1FastJet
80  // SoftMuonbyDR
81  ohBJetPerfL25TagL1FastJet = new int[kMaxBJets]; // do not optimize
82  ohBJetPerfL3TagL1FastJet = new int[kMaxBJets]; // do not optimize
83 }
int NohpfBJetL2
Definition: HLTBJet.h:112
float * ohBJetL2Pt
Definition: HLTBJet.h:91
int * ohBJetPerfL3TagL1FastJet
Definition: HLTBJet.h:141
float * ohBJetIPL3TagSingleTrackL1FastJet
Definition: HLTBJet.h:134
float * ohBJetL2CorrectedEtaL1FastJet
Definition: HLTBJet.h:108
float * ohBJetIPL3TagL1FastJet
Definition: HLTBJet.h:125
float * ohBJetL2Eta
Definition: HLTBJet.h:92
float * ohBJetL2CorrectedPhiL1FastJet
Definition: HLTBJet.h:109
int NohBJetL2
Definition: HLTBJet.h:88
int NohBJetL2Corrected
Definition: HLTBJet.h:96
float * ohBJetIPL25TagSingleTrackL1FastJet
Definition: HLTBJet.h:133
int * ohBJetPerfL3Tag
Definition: HLTBJet.h:138
float * ohpfBJetL2Energy
Definition: HLTBJet.h:113
float * ohBJetL2CorrectedEt
Definition: HLTBJet.h:98
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
float * ohBJetL2CorrectedEta
Definition: HLTBJet.h:100
float * ohBJetL2CorrectedEnergyL1FastJet
Definition: HLTBJet.h:105
float * ohBJetL2Et
Definition: HLTBJet.h:90
float * ohpfBJetL2Et
Definition: HLTBJet.h:114
float * ohBJetL2CorrectedPtL1FastJet
Definition: HLTBJet.h:107
float * ohpfBJetL2Eta
Definition: HLTBJet.h:116
float * ohBJetL2CorrectedEnergy
Definition: HLTBJet.h:97
float * ohBJetIPL3TagSingleTrack
Definition: HLTBJet.h:132
float * ohBJetIPL3Tag
Definition: HLTBJet.h:121
float * ohBJetL2CorrectedPt
Definition: HLTBJet.h:99
int NohBJetL2CorrectedL1FastJet
Definition: HLTBJet.h:104
int * ohBJetPerfL25TagL1FastJet
Definition: HLTBJet.h:140
float * ohpfBJetIPL3Tag
Definition: HLTBJet.h:128
float * ohpfBJetL2Phi
Definition: HLTBJet.h:117
float * ohBJetIPL25TagSingleTrack
Definition: HLTBJet.h:131
float * ohBJetIPL25Tag
Definition: HLTBJet.h:120
float * ohBJetL2CorrectedPhi
Definition: HLTBJet.h:101
float * ohBJetL2Phi
Definition: HLTBJet.h:93
float * ohBJetL2Energy
Definition: HLTBJet.h:89
int * ohBJetPerfL25Tag
Definition: HLTBJet.h:137
float * ohBJetIPL25TagL1FastJet
Definition: HLTBJet.h:124
float * ohBJetL2CorrectedEtL1FastJet
Definition: HLTBJet.h:106
float * ohpfBJetL2Pt
Definition: HLTBJet.h:115
HLTBJet::~HLTBJet ( )

Definition at line 129 of file HLTBJet.cc.

References ohBJetIPL25Tag, ohBJetIPL25TagL1FastJet, ohBJetIPL25TagSingleTrack, ohBJetIPL25TagSingleTrackL1FastJet, ohBJetIPL3Tag, ohBJetIPL3TagL1FastJet, ohBJetIPL3TagSingleTrack, ohBJetIPL3TagSingleTrackL1FastJet, ohBJetL2CorrectedEnergy, ohBJetL2CorrectedEnergyL1FastJet, ohBJetL2CorrectedEt, ohBJetL2CorrectedEta, ohBJetL2CorrectedEtaL1FastJet, ohBJetL2CorrectedEtL1FastJet, ohBJetL2CorrectedPhi, ohBJetL2CorrectedPhiL1FastJet, ohBJetL2CorrectedPt, ohBJetL2CorrectedPtL1FastJet, ohBJetL2Energy, ohBJetL2Et, ohBJetL2Eta, ohBJetL2Phi, ohBJetL2Pt, ohBJetPerfL25Tag, ohBJetPerfL25TagL1FastJet, ohBJetPerfL3Tag, ohBJetPerfL3TagL1FastJet, ohpfBJetIPL3Tag, ohpfBJetL2Energy, ohpfBJetL2Et, ohpfBJetL2Eta, ohpfBJetL2Phi, and ohpfBJetL2Pt.

130 {
131  delete[] ohBJetL2Energy;
132  delete[] ohBJetL2Et;
133  delete[] ohBJetL2Pt;
134  delete[] ohBJetL2Eta;
135  delete[] ohBJetL2Phi;
136  delete[] ohBJetL2CorrectedEnergy;
137  delete[] ohBJetL2CorrectedEt;
138  delete[] ohBJetL2CorrectedPt;
139  delete[] ohBJetL2CorrectedEta;
140  delete[] ohBJetL2CorrectedPhi;
146  delete[] ohpfBJetL2Energy;
147  delete[] ohpfBJetL2Et;
148  delete[] ohpfBJetL2Pt;
149  delete[] ohpfBJetL2Eta;
150  delete[] ohpfBJetL2Phi;
151  delete[] ohBJetIPL25Tag;
152  delete[] ohBJetIPL3Tag;
153  delete[] ohBJetIPL25TagL1FastJet;
154  delete[] ohBJetIPL3TagL1FastJet;
155  delete[] ohpfBJetIPL3Tag;
156  delete[] ohBJetIPL25TagSingleTrack;
157  delete[] ohBJetIPL3TagSingleTrack;
160  delete[] ohBJetPerfL25Tag;
161  delete[] ohBJetPerfL3Tag;
162  delete[] ohBJetPerfL25TagL1FastJet;
163  delete[] ohBJetPerfL3TagL1FastJet;
164 }
float * ohBJetL2Pt
Definition: HLTBJet.h:91
int * ohBJetPerfL3TagL1FastJet
Definition: HLTBJet.h:141
float * ohBJetIPL3TagSingleTrackL1FastJet
Definition: HLTBJet.h:134
float * ohBJetL2CorrectedEtaL1FastJet
Definition: HLTBJet.h:108
float * ohBJetIPL3TagL1FastJet
Definition: HLTBJet.h:125
float * ohBJetL2Eta
Definition: HLTBJet.h:92
float * ohBJetL2CorrectedPhiL1FastJet
Definition: HLTBJet.h:109
float * ohBJetIPL25TagSingleTrackL1FastJet
Definition: HLTBJet.h:133
int * ohBJetPerfL3Tag
Definition: HLTBJet.h:138
float * ohpfBJetL2Energy
Definition: HLTBJet.h:113
float * ohBJetL2CorrectedEt
Definition: HLTBJet.h:98
float * ohBJetL2CorrectedEta
Definition: HLTBJet.h:100
float * ohBJetL2CorrectedEnergyL1FastJet
Definition: HLTBJet.h:105
float * ohBJetL2Et
Definition: HLTBJet.h:90
float * ohpfBJetL2Et
Definition: HLTBJet.h:114
float * ohBJetL2CorrectedPtL1FastJet
Definition: HLTBJet.h:107
float * ohpfBJetL2Eta
Definition: HLTBJet.h:116
float * ohBJetL2CorrectedEnergy
Definition: HLTBJet.h:97
float * ohBJetIPL3TagSingleTrack
Definition: HLTBJet.h:132
float * ohBJetIPL3Tag
Definition: HLTBJet.h:121
float * ohBJetL2CorrectedPt
Definition: HLTBJet.h:99
int * ohBJetPerfL25TagL1FastJet
Definition: HLTBJet.h:140
float * ohpfBJetIPL3Tag
Definition: HLTBJet.h:128
float * ohpfBJetL2Phi
Definition: HLTBJet.h:117
float * ohBJetIPL25TagSingleTrack
Definition: HLTBJet.h:131
float * ohBJetIPL25Tag
Definition: HLTBJet.h:120
float * ohBJetL2CorrectedPhi
Definition: HLTBJet.h:101
float * ohBJetL2Phi
Definition: HLTBJet.h:93
float * ohBJetL2Energy
Definition: HLTBJet.h:89
int * ohBJetPerfL25Tag
Definition: HLTBJet.h:137
float * ohBJetIPL25TagL1FastJet
Definition: HLTBJet.h:124
float * ohBJetL2CorrectedEtL1FastJet
Definition: HLTBJet.h:106
float * ohpfBJetL2Pt
Definition: HLTBJet.h:115

Member Function Documentation

void HLTBJet::analyseCorrectedJets ( const edm::View< reco::Jet > &  jets)
private

Definition at line 290 of file HLTBJet.cc.

References i, kMaxBJets, min, NohBJetL2Corrected, ohBJetL2CorrectedEnergy, ohBJetL2CorrectedEt, ohBJetL2CorrectedEta, ohBJetL2CorrectedPhi, ohBJetL2CorrectedPt, edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

291 {
292  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
293  // so, for the comparison, we cast back to size_t
294  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
296  for (size_t i = 0; i < size; ++i) {
297  ohBJetL2CorrectedEnergy[i] = jets[i].energy();
298  ohBJetL2CorrectedEt[i] = jets[i].et();
299  ohBJetL2CorrectedPt[i] = jets[i].pt();
300  ohBJetL2CorrectedEta[i] = jets[i].eta();
301  ohBJetL2CorrectedPhi[i] = jets[i].phi();
302  }
303 }
int i
Definition: DBlmapReader.cc:9
#define min(a, b)
Definition: mlp_lapack.h:161
int NohBJetL2Corrected
Definition: HLTBJet.h:96
float * ohBJetL2CorrectedEt
Definition: HLTBJet.h:98
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
float * ohBJetL2CorrectedEta
Definition: HLTBJet.h:100
float * ohBJetL2CorrectedEnergy
Definition: HLTBJet.h:97
size_type size() const
float * ohBJetL2CorrectedPt
Definition: HLTBJet.h:99
float * ohBJetL2CorrectedPhi
Definition: HLTBJet.h:101
tuple size
Write out results.
void HLTBJet::analyseCorrectedJetsL1FastJet ( const edm::View< reco::Jet > &  jets)
private

Definition at line 305 of file HLTBJet.cc.

References i, kMaxBJets, min, NohBJetL2CorrectedL1FastJet, ohBJetL2CorrectedEnergyL1FastJet, ohBJetL2CorrectedEtaL1FastJet, ohBJetL2CorrectedEtL1FastJet, ohBJetL2CorrectedPhiL1FastJet, ohBJetL2CorrectedPtL1FastJet, edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

306 {
307  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
308  // so, for the comparison, we cast back to size_t
309  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
311  for (size_t i = 0; i < size; ++i) {
312  ohBJetL2CorrectedEnergyL1FastJet[i] = jets[i].energy();
313  ohBJetL2CorrectedEtL1FastJet[i] = jets[i].et();
314  ohBJetL2CorrectedPtL1FastJet[i] = jets[i].pt();
315  ohBJetL2CorrectedEtaL1FastJet[i] = jets[i].eta();
316  ohBJetL2CorrectedPhiL1FastJet[i] = jets[i].phi();
317  }
318 }
int i
Definition: DBlmapReader.cc:9
float * ohBJetL2CorrectedEtaL1FastJet
Definition: HLTBJet.h:108
#define min(a, b)
Definition: mlp_lapack.h:161
float * ohBJetL2CorrectedPhiL1FastJet
Definition: HLTBJet.h:109
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
float * ohBJetL2CorrectedEnergyL1FastJet
Definition: HLTBJet.h:105
float * ohBJetL2CorrectedPtL1FastJet
Definition: HLTBJet.h:107
size_type size() const
int NohBJetL2CorrectedL1FastJet
Definition: HLTBJet.h:104
tuple size
Write out results.
float * ohBJetL2CorrectedEtL1FastJet
Definition: HLTBJet.h:106
void HLTBJet::analyseJets ( const edm::View< reco::Jet > &  jets)
private

Definition at line 275 of file HLTBJet.cc.

References i, kMaxBJets, min, NohBJetL2, ohBJetL2Energy, ohBJetL2Et, ohBJetL2Eta, ohBJetL2Phi, ohBJetL2Pt, edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

276 {
277  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
278  // so, for the comparison, we cast back to size_t
279  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
280  NohBJetL2 = size;
281  for (size_t i = 0; i < size; ++i) {
282  ohBJetL2Energy[i] = jets[i].energy();
283  ohBJetL2Et[i] = jets[i].et();
284  ohBJetL2Pt[i] = jets[i].pt();
285  ohBJetL2Eta[i] = jets[i].eta();
286  ohBJetL2Phi[i] = jets[i].phi();
287  }
288 }
float * ohBJetL2Pt
Definition: HLTBJet.h:91
int i
Definition: DBlmapReader.cc:9
#define min(a, b)
Definition: mlp_lapack.h:161
float * ohBJetL2Eta
Definition: HLTBJet.h:92
int NohBJetL2
Definition: HLTBJet.h:88
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
float * ohBJetL2Et
Definition: HLTBJet.h:90
size_type size() const
float * ohBJetL2Phi
Definition: HLTBJet.h:93
float * ohBJetL2Energy
Definition: HLTBJet.h:89
tuple size
Write out results.
void HLTBJet::analyseLifetime ( const edm::View< reco::Jet > &  jets,
const reco::JetTagCollection tagsL25,
const reco::JetTagCollection tagsL3 
)
private

Definition at line 335 of file HLTBJet.cc.

References i, kBTagLifetimeBJetsL25, kBTagLifetimeBJetsL3, kMaxBJets, min, ohBJetIPL25Tag, ohBJetIPL3Tag, edm::AssociationVector< KeyRefProd, CVal, KeyRef, SizeType, KeyReferenceHelper >::size(), edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

339 {
340  if (tagsL25.size() != jets.size()) {
341  edm::LogWarning("OpenHLT") << kBTagLifetimeBJetsL25 << " collection has " << tagsL25.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
342  return;
343  }
344  if (tagsL3.size() != jets.size()) {
345  edm::LogWarning("OpenHLT") << kBTagLifetimeBJetsL3 << " collection has " << tagsL3.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
346  return;
347  }
348  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
349  // so, for the comparison, we cast back to size_t
350  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
351  for (size_t i = 0; i < size; i++) {
352  ohBJetIPL25Tag[i] = tagsL25[i].second;
353  ohBJetIPL3Tag[i] = tagsL3[i].second;
354  }
355 }
int i
Definition: DBlmapReader.cc:9
#define min(a, b)
Definition: mlp_lapack.h:161
const char * kBTagLifetimeBJetsL25
Definition: HLTMessages.cc:67
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
const char * kBTagLifetimeBJetsL3
Definition: HLTMessages.cc:68
size_type size() const
float * ohBJetIPL3Tag
Definition: HLTBJet.h:121
float * ohBJetIPL25Tag
Definition: HLTBJet.h:120
tuple size
Write out results.
size_type size() const
void HLTBJet::analyseLifetimeL1FastJet ( const edm::View< reco::Jet > &  jets,
const reco::JetTagCollection tagsL25,
const reco::JetTagCollection tagsL3 
)
private

Definition at line 357 of file HLTBJet.cc.

References i, kBTagLifetimeBJetsL25L1FastJet, kBTagLifetimeBJetsL3L1FastJet, kMaxBJets, min, ohBJetIPL25TagL1FastJet, ohBJetIPL3TagL1FastJet, edm::AssociationVector< KeyRefProd, CVal, KeyRef, SizeType, KeyReferenceHelper >::size(), edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

361 {
362  if (tagsL25.size() != jets.size()) {
363  edm::LogWarning("OpenHLT") << kBTagLifetimeBJetsL25L1FastJet << " collection has " << tagsL25.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
364  return;
365  }
366  if (tagsL3.size() != jets.size()) {
367  edm::LogWarning("OpenHLT") << kBTagLifetimeBJetsL3L1FastJet << " collection has " << tagsL3.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
368  return;
369  }
370  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
371  // so, for the comparison, we cast back to size_t
372  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
373  for (size_t i = 0; i < size; i++) {
374  ohBJetIPL25TagL1FastJet[i] = tagsL25[i].second;
375  ohBJetIPL3TagL1FastJet[i] = tagsL3[i].second;
376  }
377 }
int i
Definition: DBlmapReader.cc:9
float * ohBJetIPL3TagL1FastJet
Definition: HLTBJet.h:125
#define min(a, b)
Definition: mlp_lapack.h:161
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
const char * kBTagLifetimeBJetsL25L1FastJet
Definition: HLTMessages.cc:69
const char * kBTagLifetimeBJetsL3L1FastJet
Definition: HLTMessages.cc:70
size_type size() const
float * ohBJetIPL25TagL1FastJet
Definition: HLTBJet.h:124
tuple size
Write out results.
size_type size() const
void HLTBJet::analyseLifetimePF ( const edm::View< reco::Jet > &  jets,
const reco::JetTagCollection tagsL3 
)
private

Definition at line 379 of file HLTBJet.cc.

References i, kBTagLifetimePFBJetsL3, kMaxBJets, min, ohpfBJetIPL3Tag, edm::AssociationVector< KeyRefProd, CVal, KeyRef, SizeType, KeyReferenceHelper >::size(), edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

382 {
383  if (tagsL3.size() != jets.size()) {
384  edm::LogWarning("OpenHLT") << kBTagLifetimePFBJetsL3 << " collection has " << tagsL3.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
385  return;
386  }
387  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
388  // so, for the comparison, we cast back to size_t
389  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
390  for (size_t i = 0; i < size; i++) {
391  ohpfBJetIPL3Tag[i] = tagsL3[i].second;
392  }
393 }
int i
Definition: DBlmapReader.cc:9
#define min(a, b)
Definition: mlp_lapack.h:161
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
const char * kBTagLifetimePFBJetsL3
Definition: HLTMessages.cc:71
size_type size() const
float * ohpfBJetIPL3Tag
Definition: HLTBJet.h:128
tuple size
Write out results.
size_type size() const
void HLTBJet::analyseLifetimeSingleTrack ( const edm::View< reco::Jet > &  jets,
const reco::JetTagCollection tagsL25,
const reco::JetTagCollection tagsL3 
)
private

Definition at line 395 of file HLTBJet.cc.

References i, kBTagLifetimeBJetsL25SingleTrack, kBTagLifetimeBJetsL3SingleTrack, kMaxBJets, min, ohBJetIPL25TagSingleTrack, ohBJetIPL3TagSingleTrack, edm::AssociationVector< KeyRefProd, CVal, KeyRef, SizeType, KeyReferenceHelper >::size(), edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

399 {
400  if (tagsL25.size() != jets.size()) {
401  edm::LogWarning("OpenHLT") << kBTagLifetimeBJetsL25SingleTrack << " collection has " << tagsL25.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
402  return;
403  }
404  if (tagsL3.size() != jets.size()) {
405  edm::LogWarning("OpenHLT") << kBTagLifetimeBJetsL3SingleTrack << " collection has " << tagsL3.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
406  return;
407  }
408  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
409  // so, for the comparison, we cast back to size_t
410  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
411  for (size_t i = 0; i < size; i++) {
412  ohBJetIPL25TagSingleTrack[i] = tagsL25[i].second;
413  ohBJetIPL3TagSingleTrack[i] = tagsL3[i].second;
414  }
415 }
const char * kBTagLifetimeBJetsL25SingleTrack
Definition: HLTMessages.cc:72
int i
Definition: DBlmapReader.cc:9
#define min(a, b)
Definition: mlp_lapack.h:161
const char * kBTagLifetimeBJetsL3SingleTrack
Definition: HLTMessages.cc:73
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
size_type size() const
float * ohBJetIPL3TagSingleTrack
Definition: HLTBJet.h:132
float * ohBJetIPL25TagSingleTrack
Definition: HLTBJet.h:131
tuple size
Write out results.
size_type size() const
void HLTBJet::analyseLifetimeSingleTrackL1FastJet ( const edm::View< reco::Jet > &  jets,
const reco::JetTagCollection tagsL25,
const reco::JetTagCollection tagsL3 
)
private

Definition at line 417 of file HLTBJet.cc.

References i, kBTagLifetimeBJetsL25SingleTrackL1FastJet, kBTagLifetimeBJetsL3SingleTrackL1FastJet, kMaxBJets, min, ohBJetIPL25TagSingleTrackL1FastJet, ohBJetIPL3TagSingleTrackL1FastJet, edm::AssociationVector< KeyRefProd, CVal, KeyRef, SizeType, KeyReferenceHelper >::size(), edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

421 {
422  if (tagsL25.size() != jets.size()) {
423  edm::LogWarning("OpenHLT") << kBTagLifetimeBJetsL25SingleTrackL1FastJet << " collection has " << tagsL25.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
424  return;
425  }
426  if (tagsL3.size() != jets.size()) {
427  edm::LogWarning("OpenHLT") << kBTagLifetimeBJetsL3SingleTrackL1FastJet << " collection has " << tagsL3.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
428  return;
429  }
430  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
431  // so, for the comparison, we cast back to size_t
432  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
433  for (size_t i = 0; i < size; i++) {
434  ohBJetIPL25TagSingleTrackL1FastJet[i] = tagsL25[i].second;
435  ohBJetIPL3TagSingleTrackL1FastJet[i] = tagsL3[i].second;
436  }
437 }
int i
Definition: DBlmapReader.cc:9
float * ohBJetIPL3TagSingleTrackL1FastJet
Definition: HLTBJet.h:134
const char * kBTagLifetimeBJetsL3SingleTrackL1FastJet
Definition: HLTMessages.cc:75
#define min(a, b)
Definition: mlp_lapack.h:161
const char * kBTagLifetimeBJetsL25SingleTrackL1FastJet
Definition: HLTMessages.cc:74
float * ohBJetIPL25TagSingleTrackL1FastJet
Definition: HLTBJet.h:133
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
size_type size() const
tuple size
Write out results.
size_type size() const
void HLTBJet::analysePerformance ( const edm::View< reco::Jet > &  jets,
const reco::JetTagCollection tagsL25,
const reco::JetTagCollection tagsL3 
)
private

Definition at line 439 of file HLTBJet.cc.

References i, kBTagPerformanceBJetsL25, kBTagPerformanceBJetsL3, kMaxBJets, min, ohBJetPerfL25Tag, ohBJetPerfL3Tag, edm::AssociationVector< KeyRefProd, CVal, KeyRef, SizeType, KeyReferenceHelper >::size(), edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

443 {
444  if (tagsL25.size() != jets.size()) {
445  edm::LogWarning("OpenHLT") << kBTagPerformanceBJetsL25 << " collection has " << tagsL25.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
446  return;
447  }
448  if (tagsL3.size() != jets.size()) {
449  edm::LogWarning("OpenHLT") << kBTagPerformanceBJetsL3 << " collection has " << tagsL3.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
450  return;
451  }
452  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
453  // so, for the comparison, we cast back to size_t
454  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
455  for (size_t i = 0; i < size; i++) {
456  ohBJetPerfL25Tag[i] = (tagsL25[i].second > 0.) ? 1 : 0;
457  ohBJetPerfL3Tag[i] = (tagsL3[i].second > 0.) ? 1 : 0;
458  }
459 }
int i
Definition: DBlmapReader.cc:9
#define min(a, b)
Definition: mlp_lapack.h:161
const char * kBTagPerformanceBJetsL25
Definition: HLTMessages.cc:78
int * ohBJetPerfL3Tag
Definition: HLTBJet.h:138
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
const char * kBTagPerformanceBJetsL3
Definition: HLTMessages.cc:79
size_type size() const
int * ohBJetPerfL25Tag
Definition: HLTBJet.h:137
tuple size
Write out results.
size_type size() const
void HLTBJet::analysePerformanceL1FastJet ( const edm::View< reco::Jet > &  jets,
const reco::JetTagCollection tagsL25,
const reco::JetTagCollection tagsL3 
)
private

Definition at line 461 of file HLTBJet.cc.

References i, kBTagPerformanceBJetsL25L1FastJet, kBTagPerformanceBJetsL3L1FastJet, kMaxBJets, min, ohBJetPerfL25TagL1FastJet, ohBJetPerfL3TagL1FastJet, edm::AssociationVector< KeyRefProd, CVal, KeyRef, SizeType, KeyReferenceHelper >::size(), edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

465 {
466  if (tagsL25.size() != jets.size()) {
467  edm::LogWarning("OpenHLT") << kBTagPerformanceBJetsL25L1FastJet << " collection has " << tagsL25.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
468  return;
469  }
470  if (tagsL3.size() != jets.size()) {
471  edm::LogWarning("OpenHLT") << kBTagPerformanceBJetsL3L1FastJet << " collection has " << tagsL3.size() << " elements, but " << jets.size() << " where expected from L2" << std::endl;
472  return;
473  }
474  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
475  // so, for the comparison, we cast back to size_t
476  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
477  for (size_t i = 0; i < size; i++) {
478 
479  ohBJetPerfL25TagL1FastJet[i] = (tagsL25[i].second > 0.) ? 1 : 0;
480  ohBJetPerfL3TagL1FastJet[i] = (tagsL3[i].second > 0.) ? 1 : 0;
481  }
482 }
int i
Definition: DBlmapReader.cc:9
int * ohBJetPerfL3TagL1FastJet
Definition: HLTBJet.h:141
#define min(a, b)
Definition: mlp_lapack.h:161
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
const char * kBTagPerformanceBJetsL25L1FastJet
Definition: HLTMessages.cc:80
const char * kBTagPerformanceBJetsL3L1FastJet
Definition: HLTMessages.cc:81
size_type size() const
int * ohBJetPerfL25TagL1FastJet
Definition: HLTBJet.h:140
tuple size
Write out results.
size_type size() const
void HLTBJet::analysePFJets ( const edm::View< reco::Jet > &  jets)
private

Definition at line 320 of file HLTBJet.cc.

References i, kMaxBJets, min, NohpfBJetL2, ohpfBJetL2Energy, ohpfBJetL2Et, ohpfBJetL2Eta, ohpfBJetL2Phi, ohpfBJetL2Pt, edm::View< T >::size(), and findQualityFiles::size.

Referenced by analyze().

321 {
322  // the jets need to be persistable, so .size() returns an 'unsigned int' to be stable across the architectures
323  // so, for the comparison, we cast back to size_t
324  size_t size = std::min(kMaxBJets, size_t(jets.size()) );
325  NohpfBJetL2 = size;
326  for (size_t i = 0; i < size; ++i) {
327  ohpfBJetL2Energy[i] = jets[i].energy();
328  ohpfBJetL2Et[i] = jets[i].et();
329  ohpfBJetL2Pt[i] = jets[i].pt();
330  ohpfBJetL2Eta[i] = jets[i].eta();
331  ohpfBJetL2Phi[i] = jets[i].phi();
332  }
333 }
int NohpfBJetL2
Definition: HLTBJet.h:112
int i
Definition: DBlmapReader.cc:9
#define min(a, b)
Definition: mlp_lapack.h:161
float * ohpfBJetL2Energy
Definition: HLTBJet.h:113
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
float * ohpfBJetL2Et
Definition: HLTBJet.h:114
float * ohpfBJetL2Eta
Definition: HLTBJet.h:116
size_type size() const
float * ohpfBJetL2Phi
Definition: HLTBJet.h:117
tuple size
Write out results.
float * ohpfBJetL2Pt
Definition: HLTBJet.h:115
void HLTBJet::analyze ( const edm::Handle< edm::View< reco::Jet > > &  rawBJets,
const edm::Handle< edm::View< reco::Jet > > &  correctedBJets,
const edm::Handle< edm::View< reco::Jet > > &  correctedBJetsL1FastJet,
const edm::Handle< edm::View< reco::Jet > > &  pfBJets,
const edm::Handle< reco::JetTagCollection > &  lifetimeBJetsL25,
const edm::Handle< reco::JetTagCollection > &  lifetimeBJetsL3,
const edm::Handle< reco::JetTagCollection > &  lifetimeBJetsL25L1FastJet,
const edm::Handle< reco::JetTagCollection > &  lifetimeBJetsL3L1FastJet,
const edm::Handle< reco::JetTagCollection > &  lifetimePFBJetsL3,
const edm::Handle< reco::JetTagCollection > &  lifetimeBJetsL25SingleTrack,
const edm::Handle< reco::JetTagCollection > &  lifetimeBJetsL3SingleTrack,
const edm::Handle< reco::JetTagCollection > &  lifetimeBJetsL25SingleTrackL1FastJet,
const edm::Handle< reco::JetTagCollection > &  lifetimeBJetsL3SingleTrackL1FastJet,
const edm::Handle< reco::JetTagCollection > &  performanceBJetsL25,
const edm::Handle< reco::JetTagCollection > &  performanceBJetsL3,
const edm::Handle< reco::JetTagCollection > &  performanceBJetsL25L1FastJet,
const edm::Handle< reco::JetTagCollection > &  performanceBJetsL3L1FastJet,
TTree *  tree 
)

Definition at line 216 of file HLTBJet.cc.

References analyseCorrectedJets(), analyseCorrectedJetsL1FastJet(), analyseJets(), analyseLifetime(), analyseLifetimeL1FastJet(), analyseLifetimePF(), analyseLifetimeSingleTrack(), analyseLifetimeSingleTrackL1FastJet(), analysePerformance(), analysePerformanceL1FastJet(), analysePFJets(), clear(), and edm::HandleBase::isValid().

Referenced by HLTAnalyzer::analyze().

235 {
236  // reset the tree variables
237  clear();
238 
239  // if the required collections are available, fill the corresponding tree branches
240  if (rawBJets.isValid())
241  analyseJets(* rawBJets);
242 
243  if (correctedBJets.isValid())
244  analyseCorrectedJets(* correctedBJets);
245 
246  if (correctedBJetsL1FastJet.isValid())
247  analyseCorrectedJetsL1FastJet(* correctedBJetsL1FastJet);
248 
249  if (pfBJets.isValid())
250  analysePFJets(* pfBJets);
251 
252  if (correctedBJets.isValid() and lifetimeBJetsL25.isValid() and lifetimeBJetsL3.isValid())
253  analyseLifetime(* correctedBJets, * lifetimeBJetsL25, * lifetimeBJetsL3);
254 
255  if (correctedBJetsL1FastJet.isValid() and lifetimeBJetsL25L1FastJet.isValid() and lifetimeBJetsL3L1FastJet.isValid())
256  analyseLifetimeL1FastJet(* correctedBJetsL1FastJet, * lifetimeBJetsL25L1FastJet, * lifetimeBJetsL3L1FastJet);
257 
258  if (pfBJets.isValid() and lifetimePFBJetsL3.isValid())
259  analyseLifetimePF(* pfBJets, * lifetimePFBJetsL3);
260 
261  if (correctedBJets.isValid() and lifetimeBJetsL25SingleTrack.isValid() and lifetimeBJetsL3SingleTrack.isValid())
262  analyseLifetimeSingleTrack(* correctedBJets, * lifetimeBJetsL25SingleTrack, * lifetimeBJetsL3SingleTrack);
263 
264  if (correctedBJetsL1FastJet.isValid() and lifetimeBJetsL25SingleTrackL1FastJet.isValid() and lifetimeBJetsL3SingleTrackL1FastJet.isValid())
265  analyseLifetimeSingleTrackL1FastJet(* correctedBJetsL1FastJet, * lifetimeBJetsL25SingleTrackL1FastJet, * lifetimeBJetsL3SingleTrackL1FastJet);
266 
267  if (correctedBJets.isValid() and performanceBJetsL25.isValid() and performanceBJetsL3.isValid())
268  analysePerformance(* correctedBJets, * performanceBJetsL25, * performanceBJetsL3);
269 
270  if (correctedBJetsL1FastJet.isValid() and performanceBJetsL25L1FastJet.isValid() and performanceBJetsL3L1FastJet.isValid())
271  analysePerformanceL1FastJet(* correctedBJetsL1FastJet, * performanceBJetsL25L1FastJet, * performanceBJetsL3L1FastJet);
272 
273 }
void analysePerformance(const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
Definition: HLTBJet.cc:439
void analyseJets(const edm::View< reco::Jet > &jets)
Definition: HLTBJet.cc:275
void clear(void)
Definition: HLTBJet.cc:85
void analysePerformanceL1FastJet(const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
Definition: HLTBJet.cc:461
void analyseCorrectedJets(const edm::View< reco::Jet > &jets)
Definition: HLTBJet.cc:290
void analyseLifetimeL1FastJet(const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
Definition: HLTBJet.cc:357
void analyseLifetimeSingleTrackL1FastJet(const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
Definition: HLTBJet.cc:417
bool isValid() const
Definition: HandleBase.h:76
void analyseLifetimePF(const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL3)
Definition: HLTBJet.cc:379
void analyseLifetimeSingleTrack(const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
Definition: HLTBJet.cc:395
void analysePFJets(const edm::View< reco::Jet > &jets)
Definition: HLTBJet.cc:320
void analyseLifetime(const edm::View< reco::Jet > &jets, const reco::JetTagCollection &tagsL25, const reco::JetTagCollection &tagsL3)
Definition: HLTBJet.cc:335
void analyseCorrectedJetsL1FastJet(const edm::View< reco::Jet > &jets)
Definition: HLTBJet.cc:305
void HLTBJet::clear ( void  )

Definition at line 85 of file HLTBJet.cc.

References kMaxBJets, NohBJetL2, NohBJetL2Corrected, ohBJetIPL25Tag, ohBJetIPL25TagL1FastJet, ohBJetIPL25TagSingleTrack, ohBJetIPL25TagSingleTrackL1FastJet, ohBJetIPL3Tag, ohBJetIPL3TagL1FastJet, ohBJetIPL3TagSingleTrack, ohBJetIPL3TagSingleTrackL1FastJet, ohBJetL2CorrectedEnergy, ohBJetL2CorrectedEnergyL1FastJet, ohBJetL2CorrectedEt, ohBJetL2CorrectedEta, ohBJetL2CorrectedEtaL1FastJet, ohBJetL2CorrectedEtL1FastJet, ohBJetL2CorrectedPhi, ohBJetL2CorrectedPhiL1FastJet, ohBJetL2CorrectedPt, ohBJetL2CorrectedPtL1FastJet, ohBJetL2Energy, ohBJetL2Et, ohBJetL2Eta, ohBJetL2Phi, ohBJetL2Pt, ohBJetPerfL25Tag, ohBJetPerfL25TagL1FastJet, ohBJetPerfL3Tag, ohBJetPerfL3TagL1FastJet, ohpfBJetIPL3Tag, ohpfBJetL2Energy, ohpfBJetL2Et, ohpfBJetL2Eta, ohpfBJetL2Phi, and ohpfBJetL2Pt.

Referenced by analyze().

86 {
87  NohBJetL2 = 0;
89  std::memset(ohBJetL2Energy, '\0', kMaxBJets * sizeof(float));
90  std::memset(ohBJetL2Et, '\0', kMaxBJets * sizeof(float));
91  std::memset(ohBJetL2Et, '\0', kMaxBJets * sizeof(float));
92  std::memset(ohBJetL2Pt, '\0', kMaxBJets * sizeof(float));
93  std::memset(ohBJetL2Eta, '\0', kMaxBJets * sizeof(float));
94  std::memset(ohBJetL2Phi, '\0', kMaxBJets * sizeof(float));
95  std::memset(ohBJetL2CorrectedEnergy, '\0', kMaxBJets * sizeof(float));
96  std::memset(ohBJetL2CorrectedEt, '\0', kMaxBJets * sizeof(float));
97  std::memset(ohBJetL2CorrectedPt, '\0', kMaxBJets * sizeof(float));
98  std::memset(ohBJetL2CorrectedEta, '\0', kMaxBJets * sizeof(float));
99  std::memset(ohBJetL2CorrectedPhi, '\0', kMaxBJets * sizeof(float));
100  std::memset(ohBJetL2CorrectedEnergyL1FastJet, '\0', kMaxBJets * sizeof(float));
101  std::memset(ohBJetL2CorrectedEtL1FastJet, '\0', kMaxBJets * sizeof(float));
102  std::memset(ohBJetL2CorrectedPtL1FastJet, '\0', kMaxBJets * sizeof(float));
103  std::memset(ohBJetL2CorrectedEtaL1FastJet, '\0', kMaxBJets * sizeof(float));
104  std::memset(ohBJetL2CorrectedPhiL1FastJet, '\0', kMaxBJets * sizeof(float));
105  std::memset(ohpfBJetL2Energy, '\0', kMaxBJets * sizeof(float));
106  std::memset(ohpfBJetL2Et, '\0', kMaxBJets * sizeof(float));
107  std::memset(ohpfBJetL2Et, '\0', kMaxBJets * sizeof(float));
108  std::memset(ohpfBJetL2Pt, '\0', kMaxBJets * sizeof(float));
109  std::memset(ohpfBJetL2Eta, '\0', kMaxBJets * sizeof(float));
110  std::memset(ohpfBJetL2Phi, '\0', kMaxBJets * sizeof(float));
111 
112  std::memset(ohBJetIPL25Tag, '\0', kMaxBJets * sizeof(float));
113  std::memset(ohBJetIPL3Tag, '\0', kMaxBJets * sizeof(float));
114  std::memset(ohBJetIPL25TagL1FastJet, '\0', kMaxBJets * sizeof(float));
115  std::memset(ohBJetIPL3TagL1FastJet, '\0', kMaxBJets * sizeof(float));
116  std::memset(ohpfBJetIPL3Tag, '\0', kMaxBJets * sizeof(float));
117 
118  std::memset(ohBJetIPL25TagSingleTrack, '\0', kMaxBJets * sizeof(float));
119  std::memset(ohBJetIPL3TagSingleTrack, '\0', kMaxBJets * sizeof(float));
120  std::memset(ohBJetIPL25TagSingleTrackL1FastJet, '\0', kMaxBJets * sizeof(float));
121  std::memset(ohBJetIPL3TagSingleTrackL1FastJet, '\0', kMaxBJets * sizeof(float));
122 
123  std::memset(ohBJetPerfL25Tag, '\0', kMaxBJets * sizeof(int));
124  std::memset(ohBJetPerfL3Tag, '\0', kMaxBJets * sizeof(int));
125  std::memset(ohBJetPerfL25TagL1FastJet, '\0', kMaxBJets * sizeof(int));
126  std::memset(ohBJetPerfL3TagL1FastJet, '\0', kMaxBJets * sizeof(int));
127 }
float * ohBJetL2Pt
Definition: HLTBJet.h:91
int * ohBJetPerfL3TagL1FastJet
Definition: HLTBJet.h:141
float * ohBJetIPL3TagSingleTrackL1FastJet
Definition: HLTBJet.h:134
float * ohBJetL2CorrectedEtaL1FastJet
Definition: HLTBJet.h:108
float * ohBJetIPL3TagL1FastJet
Definition: HLTBJet.h:125
float * ohBJetL2Eta
Definition: HLTBJet.h:92
float * ohBJetL2CorrectedPhiL1FastJet
Definition: HLTBJet.h:109
int NohBJetL2
Definition: HLTBJet.h:88
int NohBJetL2Corrected
Definition: HLTBJet.h:96
float * ohBJetIPL25TagSingleTrackL1FastJet
Definition: HLTBJet.h:133
int * ohBJetPerfL3Tag
Definition: HLTBJet.h:138
float * ohpfBJetL2Energy
Definition: HLTBJet.h:113
float * ohBJetL2CorrectedEt
Definition: HLTBJet.h:98
static const size_t kMaxBJets
Definition: HLTBJet.cc:20
float * ohBJetL2CorrectedEta
Definition: HLTBJet.h:100
float * ohBJetL2CorrectedEnergyL1FastJet
Definition: HLTBJet.h:105
float * ohBJetL2Et
Definition: HLTBJet.h:90
float * ohpfBJetL2Et
Definition: HLTBJet.h:114
float * ohBJetL2CorrectedPtL1FastJet
Definition: HLTBJet.h:107
float * ohpfBJetL2Eta
Definition: HLTBJet.h:116
float * ohBJetL2CorrectedEnergy
Definition: HLTBJet.h:97
float * ohBJetIPL3TagSingleTrack
Definition: HLTBJet.h:132
float * ohBJetIPL3Tag
Definition: HLTBJet.h:121
float * ohBJetL2CorrectedPt
Definition: HLTBJet.h:99
int * ohBJetPerfL25TagL1FastJet
Definition: HLTBJet.h:140
float * ohpfBJetIPL3Tag
Definition: HLTBJet.h:128
float * ohpfBJetL2Phi
Definition: HLTBJet.h:117
float * ohBJetIPL25TagSingleTrack
Definition: HLTBJet.h:131
float * ohBJetIPL25Tag
Definition: HLTBJet.h:120
float * ohBJetL2CorrectedPhi
Definition: HLTBJet.h:101
float * ohBJetL2Phi
Definition: HLTBJet.h:93
float * ohBJetL2Energy
Definition: HLTBJet.h:89
int * ohBJetPerfL25Tag
Definition: HLTBJet.h:137
float * ohBJetIPL25TagL1FastJet
Definition: HLTBJet.h:124
float * ohBJetL2CorrectedEtL1FastJet
Definition: HLTBJet.h:106
float * ohpfBJetL2Pt
Definition: HLTBJet.h:115
void HLTBJet::setup ( const edm::ParameterSet config,
TTree *  tree 
)

Definition at line 166 of file HLTBJet.cc.

References NohBJetL2, NohBJetL2Corrected, NohBJetL2CorrectedL1FastJet, NohpfBJetL2, ohBJetIPL25Tag, ohBJetIPL25TagL1FastJet, ohBJetIPL25TagSingleTrack, ohBJetIPL25TagSingleTrackL1FastJet, ohBJetIPL3Tag, ohBJetIPL3TagL1FastJet, ohBJetIPL3TagSingleTrack, ohBJetIPL3TagSingleTrackL1FastJet, ohBJetL2CorrectedEnergy, ohBJetL2CorrectedEnergyL1FastJet, ohBJetL2CorrectedEt, ohBJetL2CorrectedEta, ohBJetL2CorrectedEtaL1FastJet, ohBJetL2CorrectedEtL1FastJet, ohBJetL2CorrectedPhi, ohBJetL2CorrectedPhiL1FastJet, ohBJetL2CorrectedPt, ohBJetL2CorrectedPtL1FastJet, ohBJetL2Energy, ohBJetL2Et, ohBJetL2Eta, ohBJetL2Phi, ohBJetL2Pt, ohBJetPerfL25Tag, ohBJetPerfL25TagL1FastJet, ohBJetPerfL3Tag, ohBJetPerfL3TagL1FastJet, ohpfBJetIPL3Tag, ohpfBJetL2Energy, ohpfBJetL2Et, ohpfBJetL2Eta, ohpfBJetL2Phi, and ohpfBJetL2Pt.

Referenced by HLTAnalyzer::HLTAnalyzer().

167 {
168  // create the TTree branches
169  if (tree) {
170  tree->Branch("NohBJetL2", & NohBJetL2, "NohBJetL2/I");
171  tree->Branch("ohBJetL2Energy", ohBJetL2Energy, "ohBJetL2Energy[NohBJetL2]/F");
172  tree->Branch("ohBJetL2Et", ohBJetL2Et, "ohBJetL2Et[NohBJetL2]/F");
173  tree->Branch("ohBJetL2Pt", ohBJetL2Pt, "ohBJetL2Pt[NohBJetL2]/F");
174  tree->Branch("ohBJetL2Eta", ohBJetL2Eta, "ohBJetL2Eta[NohBJetL2]/F");
175  tree->Branch("ohBJetL2Phi", ohBJetL2Phi, "ohBJetL2Phi[NohBJetL2]/F");
176 
177  tree->Branch("NohBJetL2Corrected", & NohBJetL2Corrected, "NohBJetL2Corrected/I");
178  tree->Branch("ohBJetL2CorrectedEnergy", ohBJetL2CorrectedEnergy, "ohBJetL2CorrectedEnergy[NohBJetL2Corrected]/F");
179  tree->Branch("ohBJetL2CorrectedEt", ohBJetL2CorrectedEt, "ohBJetL2CorrectedEt[NohBJetL2Corrected]/F");
180  tree->Branch("ohBJetL2CorrectedPt", ohBJetL2CorrectedPt, "ohBJetL2CorrectedPt[NohBJetL2Corrected]/F");
181  tree->Branch("ohBJetL2CorrectedEta", ohBJetL2CorrectedEta, "ohBJetL2CorrectedEta[NohBJetL2Corrected]/F");
182  tree->Branch("ohBJetL2CorrectedPhi", ohBJetL2CorrectedPhi, "ohBJetL2CorrectedPhi[NohBJetL2Corrected]/F");
183 
184  tree->Branch("NohBJetL2CorrectedL1FastJet", & NohBJetL2CorrectedL1FastJet, "NohBJetL2CorrectedL1FastJet/I");
185  tree->Branch("ohBJetL2CorrectedEnergyL1FastJet", ohBJetL2CorrectedEnergyL1FastJet, "ohBJetL2CorrectedEnergyL1FastJet[NohBJetL2CorrectedL1FastJet]/F");
186  tree->Branch("ohBJetL2CorrectedEtL1FastJet", ohBJetL2CorrectedEtL1FastJet, "ohBJetL2CorrectedEtL1FastJet[NohBJetL2CorrectedL1FastJet]/F");
187  tree->Branch("ohBJetL2CorrectedPtL1FastJet", ohBJetL2CorrectedPtL1FastJet, "ohBJetL2CorrectedPtL1FastJet[NohBJetL2CorrectedL1FastJet]/F");
188  tree->Branch("ohBJetL2CorrectedEtaL1FastJet", ohBJetL2CorrectedEtaL1FastJet, "ohBJetL2CorrectedEtaL1FastJet[NohBJetL2CorrectedL1FastJet]/F");
189  tree->Branch("ohBJetL2CorrectedPhiL1FastJet", ohBJetL2CorrectedPhiL1FastJet, "ohBJetL2CorrectedPhiL1FastJet[NohBJetL2CorrectedL1FastJet]/F");
190 
191  tree->Branch("NohpfBJetL2", & NohpfBJetL2, "NohpfBJetL2/I");
192  tree->Branch("ohpfBJetL2Energy", ohpfBJetL2Energy, "ohpfBJetL2Energy[NohpfBJetL2]/F");
193  tree->Branch("ohpfBJetL2Et", ohpfBJetL2Et, "ohpfBJetL2Et[NohpfBJetL2]/F");
194  tree->Branch("ohpfBJetL2Pt", ohpfBJetL2Pt, "ohpfBJetL2Pt[NohpfBJetL2]/F");
195  tree->Branch("ohpfBJetL2Eta", ohpfBJetL2Eta, "ohpfBJetL2Eta[NohpfBJetL2]/F");
196  tree->Branch("ohpfBJetL2Phi", ohpfBJetL2Phi, "ohpfBJetL2Phi[NohpfBJetL2]/F");
197 
198  tree->Branch("ohBJetIPL25Tag", ohBJetIPL25Tag, "ohBJetIPL25Tag[NohBJetL2Corrected]/F");
199  tree->Branch("ohBJetIPL3Tag", ohBJetIPL3Tag, "ohBJetIPL3Tag[NohBJetL2Corrected]/F");
200  tree->Branch("ohBJetIPL25TagL1FastJet", ohBJetIPL25TagL1FastJet, "ohBJetIPL25TagL1FastJet[NohBJetL2CorrectedL1FastJet]/F");
201  tree->Branch("ohBJetIPL3TagL1FastJet", ohBJetIPL3TagL1FastJet, "ohBJetIPL3TagL1FastJet[NohBJetL2CorrectedL1FastJet]/F");
202  tree->Branch("ohpfBJetIPL3Tag", ohpfBJetIPL3Tag, "ohpfBJetIPL3Tag[NohpfBJetL2]/F");
203 
204  tree->Branch("ohBJetIPL25TagSingleTrack", ohBJetIPL25TagSingleTrack, "ohBJetIPL25TagSingleTrack[NohBJetL2Corrected]/F");
205  tree->Branch("ohBJetIPL3TagSingleTrack", ohBJetIPL3TagSingleTrack, "ohBJetIPL3TagSingleTrack[NohBJetL2Corrected]/F");
206  tree->Branch("ohBJetIPL25TagSingleTrackL1FastJet", ohBJetIPL25TagSingleTrackL1FastJet, "ohBJetIPL25TagSingleTrackL1FastJet[NohBJetL2CorrectedL1FastJet]/F");
207  tree->Branch("ohBJetIPL3TagSingleTrackL1FastJet", ohBJetIPL3TagSingleTrackL1FastJet, "ohBJetIPL3TagSingleTrackL1FastJet[NohBJetL2CorrectedL1FastJet]/F");
208 
209  tree->Branch("ohBJetPerfL25Tag", ohBJetPerfL25Tag, "ohBJetPerfL25Tag[NohBJetL2Corrected]/I");
210  tree->Branch("ohBJetPerfL3Tag", ohBJetPerfL3Tag, "ohBJetPerfL3Tag[NohBJetL2Corrected]/I");
211  tree->Branch("ohBJetPerfL25TagL1FastJet", ohBJetPerfL25TagL1FastJet, "ohBJetPerfL25TagL1FastJet[NohBJetL2CorrectedL1FastJet]/I");
212  tree->Branch("ohBJetPerfL3TagL1FastJet", ohBJetPerfL3TagL1FastJet, "ohBJetPerfL3TagL1FastJet[NohBJetL2CorrectedL1FastJet]/I");
213  }
214 }
int NohpfBJetL2
Definition: HLTBJet.h:112
float * ohBJetL2Pt
Definition: HLTBJet.h:91
int * ohBJetPerfL3TagL1FastJet
Definition: HLTBJet.h:141
float * ohBJetIPL3TagSingleTrackL1FastJet
Definition: HLTBJet.h:134
float * ohBJetL2CorrectedEtaL1FastJet
Definition: HLTBJet.h:108
float * ohBJetIPL3TagL1FastJet
Definition: HLTBJet.h:125
float * ohBJetL2Eta
Definition: HLTBJet.h:92
float * ohBJetL2CorrectedPhiL1FastJet
Definition: HLTBJet.h:109
int NohBJetL2
Definition: HLTBJet.h:88
int NohBJetL2Corrected
Definition: HLTBJet.h:96
float * ohBJetIPL25TagSingleTrackL1FastJet
Definition: HLTBJet.h:133
int * ohBJetPerfL3Tag
Definition: HLTBJet.h:138
float * ohpfBJetL2Energy
Definition: HLTBJet.h:113
float * ohBJetL2CorrectedEt
Definition: HLTBJet.h:98
float * ohBJetL2CorrectedEta
Definition: HLTBJet.h:100
float * ohBJetL2CorrectedEnergyL1FastJet
Definition: HLTBJet.h:105
float * ohBJetL2Et
Definition: HLTBJet.h:90
float * ohpfBJetL2Et
Definition: HLTBJet.h:114
float * ohBJetL2CorrectedPtL1FastJet
Definition: HLTBJet.h:107
float * ohpfBJetL2Eta
Definition: HLTBJet.h:116
float * ohBJetL2CorrectedEnergy
Definition: HLTBJet.h:97
float * ohBJetIPL3TagSingleTrack
Definition: HLTBJet.h:132
float * ohBJetIPL3Tag
Definition: HLTBJet.h:121
float * ohBJetL2CorrectedPt
Definition: HLTBJet.h:99
int NohBJetL2CorrectedL1FastJet
Definition: HLTBJet.h:104
int * ohBJetPerfL25TagL1FastJet
Definition: HLTBJet.h:140
float * ohpfBJetIPL3Tag
Definition: HLTBJet.h:128
float * ohpfBJetL2Phi
Definition: HLTBJet.h:117
float * ohBJetIPL25TagSingleTrack
Definition: HLTBJet.h:131
float * ohBJetIPL25Tag
Definition: HLTBJet.h:120
float * ohBJetL2CorrectedPhi
Definition: HLTBJet.h:101
float * ohBJetL2Phi
Definition: HLTBJet.h:93
float * ohBJetL2Energy
Definition: HLTBJet.h:89
int * ohBJetPerfL25Tag
Definition: HLTBJet.h:137
float * ohBJetIPL25TagL1FastJet
Definition: HLTBJet.h:124
float * ohBJetL2CorrectedEtL1FastJet
Definition: HLTBJet.h:106
float * ohpfBJetL2Pt
Definition: HLTBJet.h:115

Member Data Documentation

int HLTBJet::NohBJetL2
private

Definition at line 88 of file HLTBJet.h.

Referenced by analyseJets(), clear(), HLTBJet(), and setup().

int HLTBJet::NohBJetL2Corrected
private

Definition at line 96 of file HLTBJet.h.

Referenced by analyseCorrectedJets(), clear(), HLTBJet(), and setup().

int HLTBJet::NohBJetL2CorrectedL1FastJet
private

Definition at line 104 of file HLTBJet.h.

Referenced by analyseCorrectedJetsL1FastJet(), HLTBJet(), and setup().

int HLTBJet::NohpfBJetL2
private

Definition at line 112 of file HLTBJet.h.

Referenced by analysePFJets(), HLTBJet(), and setup().

float* HLTBJet::ohBJetIPL25Tag
private

Definition at line 120 of file HLTBJet.h.

Referenced by analyseLifetime(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetIPL25TagL1FastJet
private

Definition at line 124 of file HLTBJet.h.

Referenced by analyseLifetimeL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetIPL25TagSingleTrack
private

Definition at line 131 of file HLTBJet.h.

Referenced by analyseLifetimeSingleTrack(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetIPL25TagSingleTrackL1FastJet
private

Definition at line 133 of file HLTBJet.h.

Referenced by analyseLifetimeSingleTrackL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetIPL3Tag
private

Definition at line 121 of file HLTBJet.h.

Referenced by analyseLifetime(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetIPL3TagL1FastJet
private

Definition at line 125 of file HLTBJet.h.

Referenced by analyseLifetimeL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetIPL3TagSingleTrack
private

Definition at line 132 of file HLTBJet.h.

Referenced by analyseLifetimeSingleTrack(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetIPL3TagSingleTrackL1FastJet
private

Definition at line 134 of file HLTBJet.h.

Referenced by analyseLifetimeSingleTrackL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2CorrectedEnergy
private

Definition at line 97 of file HLTBJet.h.

Referenced by analyseCorrectedJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2CorrectedEnergyL1FastJet
private

Definition at line 105 of file HLTBJet.h.

Referenced by analyseCorrectedJetsL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2CorrectedEt
private

Definition at line 98 of file HLTBJet.h.

Referenced by analyseCorrectedJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2CorrectedEta
private

Definition at line 100 of file HLTBJet.h.

Referenced by analyseCorrectedJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2CorrectedEtaL1FastJet
private

Definition at line 108 of file HLTBJet.h.

Referenced by analyseCorrectedJetsL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2CorrectedEtL1FastJet
private

Definition at line 106 of file HLTBJet.h.

Referenced by analyseCorrectedJetsL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2CorrectedPhi
private

Definition at line 101 of file HLTBJet.h.

Referenced by analyseCorrectedJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2CorrectedPhiL1FastJet
private

Definition at line 109 of file HLTBJet.h.

Referenced by analyseCorrectedJetsL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2CorrectedPt
private

Definition at line 99 of file HLTBJet.h.

Referenced by analyseCorrectedJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2CorrectedPtL1FastJet
private

Definition at line 107 of file HLTBJet.h.

Referenced by analyseCorrectedJetsL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2Energy
private

Definition at line 89 of file HLTBJet.h.

Referenced by analyseJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2Et
private

Definition at line 90 of file HLTBJet.h.

Referenced by analyseJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2Eta
private

Definition at line 92 of file HLTBJet.h.

Referenced by analyseJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2Phi
private

Definition at line 93 of file HLTBJet.h.

Referenced by analyseJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohBJetL2Pt
private

Definition at line 91 of file HLTBJet.h.

Referenced by analyseJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

int* HLTBJet::ohBJetPerfL25Tag
private

Definition at line 137 of file HLTBJet.h.

Referenced by analysePerformance(), clear(), HLTBJet(), setup(), and ~HLTBJet().

int* HLTBJet::ohBJetPerfL25TagL1FastJet
private

Definition at line 140 of file HLTBJet.h.

Referenced by analysePerformanceL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

int* HLTBJet::ohBJetPerfL3Tag
private

Definition at line 138 of file HLTBJet.h.

Referenced by analysePerformance(), clear(), HLTBJet(), setup(), and ~HLTBJet().

int* HLTBJet::ohBJetPerfL3TagL1FastJet
private

Definition at line 141 of file HLTBJet.h.

Referenced by analysePerformanceL1FastJet(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohpfBJetIPL3Tag
private

Definition at line 128 of file HLTBJet.h.

Referenced by analyseLifetimePF(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohpfBJetL2Energy
private

Definition at line 113 of file HLTBJet.h.

Referenced by analysePFJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohpfBJetL2Et
private

Definition at line 114 of file HLTBJet.h.

Referenced by analysePFJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohpfBJetL2Eta
private

Definition at line 116 of file HLTBJet.h.

Referenced by analysePFJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohpfBJetL2Phi
private

Definition at line 117 of file HLTBJet.h.

Referenced by analysePFJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().

float* HLTBJet::ohpfBJetL2Pt
private

Definition at line 115 of file HLTBJet.h.

Referenced by analysePFJets(), clear(), HLTBJet(), setup(), and ~HLTBJet().