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EGRegressionModifierV3.cc
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2 
7 
13 
19 
20 #include <vdt/vdtMath.h>
21 
23 public:
24  struct EleRegs {
26  void setEventContent(const edm::EventSetup& iSetup);
30  };
31 
32  struct PhoRegs {
34  void setEventContent(const edm::EventSetup& iSetup);
37  };
38 
40  ~EGRegressionModifierV3() override;
41 
42  void setEvent(const edm::Event&) final;
43  void setEventContent(const edm::EventSetup&) final;
44 
45  void modifyObject(reco::GsfElectron&) const final;
46  void modifyObject(reco::Photon&) const final;
47 
48  // just calls reco versions
49  void modifyObject(pat::Electron&) const final;
50  void modifyObject(pat::Photon&) const final;
51 
52 private:
53  std::array<float, 32> getRegData(const reco::GsfElectron& ele) const;
54  std::array<float, 32> getRegData(const reco::Photon& pho) const;
55  void getSeedCrysCoord(const reco::CaloCluster& clus, int& iEtaOrX, int& iPhiOrY) const;
56 
57  std::unique_ptr<EleRegs> eleRegs_;
58  std::unique_ptr<PhoRegs> phoRegs_;
59 
60  float rhoValue_;
62 
67 };
68 
70 
72  : ModifyObjectValueBase(conf),
73  rhoValue_(0.),
74  rhoToken_(cc.consumes(conf.getParameter<edm::InputTag>("rhoTag"))),
75  useClosestToCentreSeedCrysDef_(conf.getParameter<bool>("useClosestToCentreSeedCrysDef")),
76  maxRawEnergyForLowPtEBSigma_(conf.getParameter<double>("maxRawEnergyForLowPtEBSigma")),
77  maxRawEnergyForLowPtEESigma_(conf.getParameter<double>("maxRawEnergyForLowPtEESigma")) {
78  if (conf.exists("eleRegs")) {
79  eleRegs_ = std::make_unique<EleRegs>(conf.getParameterSet("eleRegs"), cc);
80  }
81  if (conf.exists("phoRegs")) {
82  phoRegs_ = std::make_unique<PhoRegs>(conf.getParameterSet("phoRegs"), cc);
83  }
84 }
85 
87 
89 
91  if (eleRegs_)
92  eleRegs_->setEventContent(iSetup);
93  if (phoRegs_)
94  phoRegs_->setEventContent(iSetup);
97 }
98 
100  //check if we have specified an electron regression correction and
101  //return the object unmodified if so
102  if (!eleRegs_)
103  return;
104 
105  const reco::SuperClusterRef& superClus = ele.superCluster();
106 
107  // skip HGCAL for now
108  if (superClus->seed()->seed().det() == DetId::Forward)
109  return;
110 
111  // do not apply corrections in case of missing info (slimmed MiniAOD electrons)
112  if (!superClus->clusters().isAvailable())
113  return;
114 
115  //check if fbrem is filled as its needed for E/p combination so abort if its set to the default value
116  //this will be the case for <5 (or current cuts) for miniAOD electrons
118  return;
119 
120  auto regData = getRegData(ele);
121  const float rawEnergy = superClus->rawEnergy();
122  const float rawESEnergy = superClus->preshowerEnergy();
123  //bug here, it should include the ES, kept for backwards compat
124  const float rawEt = rawEnergy * superClus->position().rho() / superClus->position().r();
125  const bool isSaturated = ele.nSaturatedXtals() != 0;
126 
127  const float ecalMean = eleRegs_->ecalOnlyMean(rawEt, ele.isEB(), isSaturated, regData.data());
128  const float ecalMeanCorr = ecalMean > 0. ? ecalMean : 1.0;
129  //as the sample is trained flat in pt, the regression's only source of very high energy
130  //electrons is in the high endcap and therefore it gives a very poor resolution estimate
131  //to any electrons with this energy, regardless of their actual eta
132  //hence this lovely hack
133  if (ele.isEB() && maxRawEnergyForLowPtEBSigma_ >= 0 && eleRegs_->ecalOnlySigma.useLowEtBin(rawEt, isSaturated)) {
134  regData[0] = std::min(regData[0], maxRawEnergyForLowPtEBSigma_);
135  }
136  if (!ele.isEB() && maxRawEnergyForLowPtEESigma_ >= 0 && eleRegs_->ecalOnlySigma.useLowEtBin(rawEt, isSaturated)) {
137  regData[0] = std::min(regData[0], maxRawEnergyForLowPtEESigma_);
138  }
139  const float ecalSigma = eleRegs_->ecalOnlySigma(rawEt, ele.isEB(), isSaturated, regData.data());
140 
141  const float corrEnergy = (rawEnergy + rawESEnergy) * ecalMeanCorr;
142  const float corrEnergyErr = corrEnergy * ecalSigma;
143 
144  ele.setCorrectedEcalEnergy(corrEnergy);
145  ele.setCorrectedEcalEnergyError(corrEnergyErr);
146 
147  std::pair<float, float> combEnergyAndErr = eleRegs_->epComb.combine(ele);
148  const math::XYZTLorentzVector newP4 = ele.p4() * combEnergyAndErr.first / ele.p4().t();
149  ele.correctMomentum(newP4, ele.trackMomentumError(), combEnergyAndErr.second);
150 }
151 
153  modifyObject(static_cast<reco::GsfElectron&>(ele));
154 }
155 
157  //check if we have specified an photon regression correction and
158  //return the object unmodified if so
159  if (!phoRegs_)
160  return;
161 
162  const reco::SuperClusterRef& superClus = pho.superCluster();
163 
164  // skip HGCAL for now
165  if (superClus->seed()->seed().det() == DetId::Forward)
166  return;
167 
168  // do not apply corrections in case of missing info (happens for some slimmed MiniAOD photons)
169  if (!superClus->clusters().isAvailable())
170  return;
171 
172  auto regData = getRegData(pho);
173 
174  const float rawEnergy = superClus->rawEnergy();
175  const float rawESEnergy = superClus->preshowerEnergy();
176  //bug here, it should include the ES, kept for backwards compat
177  const float rawEt = rawEnergy * superClus->position().rho() / superClus->position().r();
178  const bool isSaturated = pho.nSaturatedXtals();
179  const float ecalMean = phoRegs_->ecalOnlyMean(rawEt, pho.isEB(), isSaturated, regData.data());
180  const float ecalMeanCorr = ecalMean > 0. ? ecalMean : 1.0;
181 
182  //see the electrons for explaination of this lovely feature
183  if (pho.isEB() && maxRawEnergyForLowPtEBSigma_ >= 0 && phoRegs_->ecalOnlySigma.useLowEtBin(rawEt, isSaturated)) {
184  regData[0] = std::min(regData[0], maxRawEnergyForLowPtEBSigma_);
185  }
186  if (!pho.isEB() && maxRawEnergyForLowPtEESigma_ >= 0 && phoRegs_->ecalOnlySigma.useLowEtBin(rawEt, isSaturated)) {
187  regData[0] = std::min(regData[0], maxRawEnergyForLowPtEESigma_);
188  }
189  const float ecalSigma = phoRegs_->ecalOnlySigma(rawEt, pho.isEB(), isSaturated, regData.data());
190 
191  const double corrEnergy = (rawEnergy + rawESEnergy) * ecalMeanCorr;
192  const double corrEnergyErr = corrEnergy * ecalSigma;
193 
194  pho.setCorrectedEnergy(reco::Photon::P4type::regression2, corrEnergy, corrEnergyErr, true);
195 }
196 
197 void EGRegressionModifierV3::modifyObject(pat::Photon& pho) const { modifyObject(static_cast<reco::Photon&>(pho)); }
198 
199 std::array<float, 32> EGRegressionModifierV3::getRegData(const reco::GsfElectron& ele) const {
200  std::array<float, 32> data;
201 
202  const reco::SuperClusterRef& superClus = ele.superCluster();
203  const edm::Ptr<reco::CaloCluster>& seedClus = superClus->seed();
204 
205  const bool isEB = ele.isEB();
206  const double rawEnergy = superClus->rawEnergy();
207  const double rawESEnergy = superClus->preshowerEnergy();
208  const int numberOfClusters = superClus->clusters().size();
209  const auto& ssFull5x5 = ele.full5x5_showerShape();
210 
211  float e5x5Inverse = ssFull5x5.e5x5 != 0. ? vdt::fast_inv(ssFull5x5.e5x5) : 0.;
212 
213  data[0] = rawEnergy;
214  data[1] = superClus->etaWidth();
215  data[2] = superClus->phiWidth();
216  data[3] = superClus->seed()->energy() / rawEnergy;
217  data[4] = ssFull5x5.e5x5 / rawEnergy;
218  data[5] = ele.hcalOverEcalBc();
219  data[6] = rhoValue_;
220  data[7] = seedClus->eta() - superClus->position().Eta();
221  data[8] = reco::deltaPhi(seedClus->phi(), superClus->position().Phi());
222  data[9] = ssFull5x5.r9;
223  data[10] = ssFull5x5.sigmaIetaIeta;
224  data[11] = ssFull5x5.sigmaIetaIphi;
225  data[12] = ssFull5x5.sigmaIphiIphi;
226  data[13] = ssFull5x5.eMax * e5x5Inverse;
227  data[14] = ssFull5x5.e2nd * e5x5Inverse;
228  data[15] = ssFull5x5.eTop * e5x5Inverse;
229  data[16] = ssFull5x5.eBottom * e5x5Inverse;
230  data[17] = ssFull5x5.eLeft * e5x5Inverse;
231  data[18] = ssFull5x5.eRight * e5x5Inverse;
232  data[19] = ssFull5x5.e2x5Max * e5x5Inverse;
233  data[20] = ssFull5x5.e2x5Left * e5x5Inverse;
234  data[21] = ssFull5x5.e2x5Right * e5x5Inverse;
235  data[22] = ssFull5x5.e2x5Top * e5x5Inverse;
236  data[23] = ssFull5x5.e2x5Bottom * e5x5Inverse;
237  data[24] = ele.nSaturatedXtals();
238  data[25] = std::max(0, numberOfClusters);
239 
240  if (isEB) {
241  int iEta, iPhi;
242  getSeedCrysCoord(*seedClus, iEta, iPhi);
243  int signIEta = iEta > 0 ? +1 : -1;
244  data[26] = iEta;
245  data[27] = iPhi;
246  data[28] = (iEta - signIEta) % 5;
247  data[29] = (iPhi - 1) % 2;
248  const int iEtaCorr = iEta - (iEta > 0 ? +1 : -1);
249  const int iEtaCorr26 = iEta - (iEta > 0 ? +26 : -26);
250  data[30] = std::abs(iEta) <= 25 ? iEtaCorr % 20 : iEtaCorr26 % 20;
251  data[31] = (iPhi - 1) % 20;
252  } else {
253  int iX, iY;
254  getSeedCrysCoord(*seedClus, iX, iY);
255  data[26] = iX;
256  data[27] = iY;
257  data[28] = rawESEnergy / rawEnergy;
258  }
259 
260  return data;
261 }
262 
263 std::array<float, 32> EGRegressionModifierV3::getRegData(const reco::Photon& pho) const {
264  std::array<float, 32> data;
265 
266  const reco::SuperClusterRef& superClus = pho.superCluster();
267  const edm::Ptr<reco::CaloCluster>& seedClus = superClus->seed();
268 
269  const bool isEB = pho.isEB();
270  const double rawEnergy = superClus->rawEnergy();
271  const double rawESEnergy = superClus->preshowerEnergy();
272  const int numberOfClusters = superClus->clusters().size();
273  const auto& ssFull5x5 = pho.full5x5_showerShapeVariables();
274 
275  float e5x5Inverse = ssFull5x5.e5x5 != 0. ? vdt::fast_inv(ssFull5x5.e5x5) : 0.;
276 
277  data[0] = rawEnergy;
278  data[1] = superClus->etaWidth();
279  data[2] = superClus->phiWidth();
280  data[3] = superClus->seed()->energy() / rawEnergy;
281  data[4] = ssFull5x5.e5x5 / rawEnergy;
282  //interestingly enough this differs from electrons where it uses cone based
283  //naively Sam would have thought using cone based is even worse than tower based
284  data[5] = pho.hadronicOverEm();
285  data[6] = rhoValue_;
286  data[7] = seedClus->eta() - superClus->position().Eta();
287  data[8] = reco::deltaPhi(seedClus->phi(), superClus->position().Phi());
288  data[9] = pho.full5x5_r9();
289  data[10] = ssFull5x5.sigmaIetaIeta;
290  //interestingly sigmaIEtaIPhi differs in defination here from
291  //electron & sc definations of sigmaIEtaIPhi
292  data[11] = ssFull5x5.sigmaIetaIphi;
293  data[12] = ssFull5x5.sigmaIphiIphi;
294  data[13] = ssFull5x5.maxEnergyXtal * e5x5Inverse;
295  data[14] = ssFull5x5.e2nd * e5x5Inverse;
296  data[15] = ssFull5x5.eTop * e5x5Inverse;
297  data[16] = ssFull5x5.eBottom * e5x5Inverse;
298  data[17] = ssFull5x5.eLeft * e5x5Inverse;
299  data[18] = ssFull5x5.eRight * e5x5Inverse;
300  data[19] = ssFull5x5.e2x5Max * e5x5Inverse;
301  data[20] = ssFull5x5.e2x5Left * e5x5Inverse;
302  data[21] = ssFull5x5.e2x5Right * e5x5Inverse;
303  data[22] = ssFull5x5.e2x5Top * e5x5Inverse;
304  data[23] = ssFull5x5.e2x5Bottom * e5x5Inverse;
305  data[24] = pho.nSaturatedXtals();
306  data[25] = std::max(0, numberOfClusters);
307 
308  if (isEB) {
309  int iEta, iPhi;
310  getSeedCrysCoord(*seedClus, iEta, iPhi);
311  data[26] = iEta;
312  data[27] = iPhi;
313  int signIEta = iEta > 0 ? +1 : -1;
314  data[28] = (iEta - signIEta) % 5;
315  data[29] = (iPhi - 1) % 2;
316  const int iEtaCorr = iEta - (iEta > 0 ? +1 : -1);
317  const int iEtaCorr26 = iEta - (iEta > 0 ? +26 : -26);
318  data[30] = std::abs(iEta) <= 25 ? iEtaCorr % 20 : iEtaCorr26 % 20;
319  data[31] = (iPhi - 1) % 20;
320  } else {
321  int iX, iY;
322  getSeedCrysCoord(*seedClus, iX, iY);
323  data[26] = iX;
324  data[27] = iY;
325  data[28] = rawESEnergy / rawEnergy;
326  }
327 
328  return data;
329 }
330 
331 void EGRegressionModifierV3::getSeedCrysCoord(const reco::CaloCluster& clus, int& iEtaOrX, int& iPhiOrY) const {
332  iEtaOrX = 0;
333  iPhiOrY = 0;
334 
335  const bool isEB = clus.seed().subdetId() == EcalBarrel;
336 
338  float dummy;
339  if (isEB) {
341  } else {
343  }
344  } else {
345  if (isEB) {
346  const EBDetId ebId(clus.seed());
347  iEtaOrX = ebId.ieta();
348  iPhiOrY = ebId.iphi();
349  } else {
350  const EEDetId eeId(clus.seed());
351  iEtaOrX = eeId.ix();
352  iPhiOrY = eeId.iy();
353  }
354  }
355 }
356 
358  : ecalOnlyMean(iConfig.getParameterSet("ecalOnlyMean"), cc),
359  ecalOnlySigma(iConfig.getParameterSet("ecalOnlySigma"), cc),
360  epComb(iConfig.getParameterSet("epComb"), std::move(cc)) {}
361 
363  ecalOnlyMean.setEventContent(iSetup);
364  ecalOnlySigma.setEventContent(iSetup);
365  epComb.setEventContent(iSetup);
366 }
367 
369  : ecalOnlyMean(iConfig.getParameterSet("ecalOnlyMean"), cc),
370  ecalOnlySigma(iConfig.getParameterSet("ecalOnlySigma"), cc) {}
371 
373  ecalOnlyMean.setEventContent(iSetup);
374  ecalOnlySigma.setEventContent(iSetup);
375 }
reco::CaloCluster::phi
double phi() const
azimuthal angle of cluster centroid
Definition: CaloCluster.h:184
EGRegressionModifierV3::useClosestToCentreSeedCrysDef_
bool useClosestToCentreSeedCrysDef_
Definition: EGRegressionModifierV3.cc:63
reco::GsfElectron::ClassificationVariables::kDefaultValue
constexpr static float kDefaultValue
Definition: GsfElectron.h:721
EGRegressionModifierV3::EleRegs::EleRegs
EleRegs(const edm::ParameterSet &iConfig, edm::ConsumesCollector &cc)
Definition: EGRegressionModifierV3.cc:357
EBDetId::ieta
int ieta() const
get the crystal ieta
Definition: EBDetId.h:49
electrons_cff.bool
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Definition: electrons_cff.py:393
reco::GsfElectron::isEB
bool isEB() const
Definition: GsfElectron.h:336
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reco::SuperClusterRef superCluster() const override
Ref to SuperCluster.
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Definition: GsfElectron.h:829
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bool isAvailable() const
Definition: Ref.h:537
min
T min(T a, T b)
Definition: MathUtil.h:58
reco::deltaPhi
constexpr double deltaPhi(double phi1, double phi2)
Definition: deltaPhi.h:26
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EGRegressionModifierV3::caloGeomHandle_
edm::ESHandle< CaloGeometry > caloGeomHandle_
Definition: EGRegressionModifierV3.cc:66
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Analysis-level Photon class.
Definition: Photon.h:46
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EGRegressionModifierV3::phoRegs_
std::unique_ptr< PhoRegs > phoRegs_
Definition: EGRegressionModifierV3.cc:58
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InputTag
Definition: HLT_FULL_cff.py:85964
EGRegressionModifierV3::maxRawEnergyForLowPtEBSigma_
float maxRawEnergyForLowPtEBSigma_
Definition: EGRegressionModifierV3.cc:64
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void localEcalClusterCoordsEE(const reco::CaloCluster &bclus, const CaloGeometry &geom, float &xcry, float &ycry, int &ix, int &iy, float &thetatilt, float &phitilt)
Definition: EcalClusterLocal.cc:88
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Definition: EGRegressionModifierV3.cc:32
EEDetId::ix
int ix() const
Definition: EEDetId.h:77
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float fbrem() const
Definition: GsfElectron.h:734
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Definition: EcalSubdetector.h:10
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Definition: regressionModifier_cfi.py:34
EGRegressionModifierV3::eleRegs_
std::unique_ptr< EleRegs > eleRegs_
Definition: EGRegressionModifierV3.cc:57
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const ShowerShape & full5x5_showerShape() const
Definition: GsfElectron.h:464
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Definition: EGRegressionModifierV3.cc:90
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Definition: EGRegressionModifierV3.cc:24
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T get() const
Definition: EventSetup.h:80
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Definition: CaloCluster.h:31
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Definition: regressionModifier_cfi.py:22
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Definition: GsfElectron.h:35
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~EGRegressionModifierV3() override
Definition: EGRegressionModifierV3.cc:86
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#define DEFINE_EDM_PLUGIN(factory, type, name)
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get the contents of the subdetector field (not cast into any detector's numbering enum)
Definition: DetId.h:48
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Definition: EcalClusterLocal.cc:14
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Definition: EGRegressionModifierV3.cc:372
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Definition: Photon.h:119
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Definition: EGRegressionModifierV3.cc:99
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Definition: EGRegressionModifierV3.cc:331
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float nSaturatedXtals() const
Definition: GsfElectron.h:497
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void setCorrectedEnergy(P4type type, float E, float dE, bool toCand=true)
get
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EGRegressionModifierV3::rhoValue_
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Definition: EGRegressionModifierV3.cc:60
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Definition: GsfElectron.cc:211
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Definition: CaloCluster.h:219
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Definition: EGRegressionModifierV3.cc:29
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Definition: EGRegressionModifierV3.cc:199
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Definition: EGRegressionModifierV3.cc:27
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Definition: EGRegressionModifierV3.cc:65
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Definition: EGRegressionModifierV3.cc:71
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Definition: EGRegressionModifierV3.cc:22
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Definition: EGRegressionModifierV3.cc:28
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Definition: EGRegressionModifierV3.cc:368
edm::getParameterSet
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Definition: ParameterSet.cc:862
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def move(src, dest)
Definition: eostools.py:511
std
Definition: JetResolutionObject.h:76
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float hadronicOverEm() const
the total hadronic over electromagnetic fraction
Definition: Photon.h:208
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XYZTLorentzVectorD XYZTLorentzVector
Lorentz vector with cylindrical internal representation using pseudorapidity.
Definition: LorentzVector.h:29
CaloGeometry.h
EgammaRegressionContainer
Definition: EgammaRegressionContainer.h:27
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void setEvent(const edm::Event &) final
Definition: EGRegressionModifierV3.cc:88
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SuperClusterRef superCluster() const override
reference to a SuperCluster
Definition: GsfElectron.h:163
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EgammaRegressionContainer ecalOnlySigma
Definition: EGRegressionModifierV3.cc:36
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char data[epos_bytes_allocation]
Definition: EPOS_Wrapper.h:79
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iEta
Definition: L1TowerCalibrationProducer_cfi.py:60
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float trackMomentumError() const
Definition: GsfElectron.h:808
pat::Electron
Analysis-level electron class.
Definition: Electron.h:51
funct::abs
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
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Definition: DummySelector.h:38
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void setCorrectedEcalEnergy(float newEnergy)
Definition: GsfElectron.cc:174
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float nSaturatedXtals() const
Definition: Photon.h:265
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Definition: DetId.h:30
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EgammaRegressionContainer ecalOnlyMean
Definition: EGRegressionModifierV3.cc:35
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Definition: Event.h:73
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Definition: GsfElectron.h:372
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Definition: Event.h:338
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Definition: ConsumesCollector.h:45
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Definition: ParameterSet.cc:2128
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Definition: EpCombinationTool.h:10
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Definition: EGRegressionModifierV3.cc:362
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Definition: Photon.h:143