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SimplePhotonAnalyzer.cc
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1 
9 
13 //
27 
28 //
29 #include "CLHEP/Units/GlobalPhysicalConstants.h"
30 #include "TFile.h"
31 
32 //========================================================================
34 //========================================================================
35 {
37  photonCollection_ = ps.getParameter<std::string>("photonCollection");
38 
39  barrelEcalHits_ = ps.getParameter<edm::InputTag>("barrelEcalHits");
40  endcapEcalHits_ = ps.getParameter<edm::InputTag>("endcapEcalHits");
41 
42  pfEgammaCandidates_ = ps.getParameter<edm::InputTag>("pfEgammaCandidates");
43  valueMapPFCandPhoton_ = ps.getParameter<std::string>("valueMapPhotons");
44 
45  mcProducer_ = ps.getParameter<std::string>("mcProducer");
46  //mcCollection_ = ps.getParameter<std::string>("mcCollection");
47  vertexProducer_ = ps.getParameter<std::string>("primaryVertexProducer");
48  sample_ = ps.getParameter<int>("sample");
49 }
50 
51 //========================================================================
53 //========================================================================
54 {}
55 
56 //========================================================================
58  //========================================================================
59 
60  dbe_ = nullptr;
61  dbe_ = edm::Service<DQMStore>().operator->();
62 
63  float hiE = 0;
64  float loE = 0;
65  float hiEt = 0;
66  float loEt = 0;
67  float dPhi = 0;
68  float loRes = 0;
69  float hiRes = 0;
70  if (sample_ == 1) {
71  loE = 0.;
72  hiE = 30.;
73  loEt = 0.;
74  hiEt = 30.;
75  dPhi = 0.2;
76  loRes = 0.;
77  hiRes = 1.2;
78  } else if (sample_ == 2) {
79  loE = 0.;
80  hiE = 200.;
81  loEt = 0.;
82  hiEt = 50.;
83  dPhi = 0.05;
84  loRes = 0.7;
85  hiRes = 1.2;
86  } else if (sample_ == 3) {
87  loE = 0.;
88  hiE = 500.;
89  loEt = 0.;
90  hiEt = 500.;
91  dPhi = 0.05;
92  loRes = 0.7;
93  hiRes = 1.2;
94  } else if (sample_ == 4) {
95  loE = 0.;
96  hiE = 6000.;
97  loEt = 0.;
98  hiEt = 1200.;
99  dPhi = 0.05;
100  loRes = 0.7;
101  hiRes = 1.2;
102  }
103 
104  h1_deltaEta_ = dbe_->book1D("deltaEta", " Reco photon Eta minus Generated photon Eta ", 100, -0.2, 0.2);
105  h1_deltaPhi_ = dbe_->book1D("deltaPhi", "Reco photon Phi minus Generated photon Phi ", 100, -dPhi, dPhi);
106  h1_pho_Eta_ = dbe_->book1D("phoEta", "Photon Eta ", 40, -3., 3.);
107  h1_pho_Phi_ = dbe_->book1D("phoPhi", "Photon Phi ", 40, -3.14, 3.14);
108  h1_pho_E_ = dbe_->book1D("phoE", "Photon Energy ", 100, loE, hiE);
109  h1_pho_Et_ = dbe_->book1D("phoEt", "Photon Et ", 100, loEt, hiEt);
110 
111  h1_scEta_ = dbe_->book1D("scEta", " SC Eta ", 40, -3., 3.);
112  h1_deltaEtaSC_ = dbe_->book1D("deltaEtaSC", " SC Eta minus Generated photon Eta ", 100, -0.02, 0.02);
113 
114  //
116  "recEoverTrueEBarrel", " Reco photon Energy over Generated photon Energy: Barrel ", 100, loRes, hiRes);
118  "recEoverTrueEEndcap", " Reco photon Energy over Generated photon Energy: Endcap ", 100, loRes, hiRes);
119 
120  //
121 
122  h1_pho_R9Barrel_ = dbe_->book1D("phoR9Barrel", "Photon 3x3 energy / SuperCluster energy : Barrel ", 100, 0., 1.2);
123  h1_pho_R9Endcap_ = dbe_->book1D("phoR9Endcap", "Photon 3x3 energy / SuperCluster energy : Endcap ", 100, 0., 1.2);
124  h1_pho_sigmaIetaIetaBarrel_ = dbe_->book1D("sigmaIetaIetaBarrel", "sigmaIetaIeta: Barrel", 100, 0., 0.05);
125  h1_pho_sigmaIetaIetaEndcap_ = dbe_->book1D("sigmaIetaIetaEndcap", "sigmaIetaIeta: Endcap", 100, 0., 0.1);
126  h1_pho_hOverEBarrel_ = dbe_->book1D("hOverEBarrel", "H/E: Barrel", 100, 0., 0.1);
127  h1_pho_hOverEEndcap_ = dbe_->book1D("hOverEEndcap", "H/E: Endcap", 100, 0., 0.1);
128  h1_pho_ecalIsoBarrel_ = dbe_->book1D("ecalIsolBarrel", "isolation et sum in Ecal: Barrel", 100, 0., 100.);
129  h1_pho_ecalIsoEndcap_ = dbe_->book1D("ecalIsolEndcap", "isolation et sum in Ecal: Endcap", 100, 0., 100.);
130  h1_pho_hcalIsoBarrel_ = dbe_->book1D("hcalIsolBarrel", "isolation et sum in Hcal: Barrel", 100, 0., 100.);
131  h1_pho_hcalIsoEndcap_ = dbe_->book1D("hcalIsolEndcap", "isolation et sum in Hcal: Endcap", 100, 0., 100.);
132  h1_pho_trkIsoBarrel_ = dbe_->book1D("trkIsolBarrel", "isolation pt sum in the tracker: Barrel", 100, 0., 100.);
133  h1_pho_trkIsoEndcap_ = dbe_->book1D("trkIsolEndcap", "isolation pt sum in the tracker: Endcap", 100, 0., 100.);
134 }
135 
136 //========================================================================
138  //========================================================================
139 
140  using namespace edm; // needed for all fwk related classes
141  edm::LogInfo("PhotonAnalyzer") << "Analyzing event number: " << evt.id() << "\n";
142 
143  // get the calo topology from the event setup:
144  edm::ESHandle<CaloTopology> pTopology;
146 
147  // Get the corrected photon collection (set in the configuration) which also contains infos about conversions
148 
149  Handle<reco::PhotonCollection> photonHandle;
151  const reco::PhotonCollection photonCollection = *(photonHandle.product());
152 
153  Handle<HepMCProduct> hepProd;
154  evt.getByLabel(mcProducer_, hepProd);
155  const HepMC::GenEvent* myGenEvent = hepProd->GetEvent();
156 
157  // Get the PF refined cluster collection
158  Handle<reco::PFCandidateCollection> pfCandidateHandle;
159  evt.getByLabel(pfEgammaCandidates_, pfCandidateHandle);
160  if (!pfCandidateHandle.isValid()) {
161  edm::LogError("SimplePhotonAnalyzer") << "Error! Can't get the product " << pfEgammaCandidates_.label();
162  }
163 
164  edm::Handle<edm::ValueMap<reco::PhotonRef> > pfCandToPhotonMapHandle;
165  edm::ValueMap<reco::PhotonRef> pfCandToPhotonMap;
166  evt.getByLabel("gedPhotons", valueMapPFCandPhoton_, pfCandToPhotonMapHandle);
167  if (!pfCandToPhotonMapHandle.isValid()) {
168  edm::LogInfo("SimplePhotonAnalyzer") << "Error! Can't get the product: valueMapPhotons " << std::endl;
169  }
170  pfCandToPhotonMap = *(pfCandToPhotonMapHandle.product());
171 
172  std::cout << " SimplePhotonAnalyzer valueMap size" << pfCandToPhotonMap.size() << std::endl;
173  unsigned nObj = pfCandidateHandle->size();
174  for (unsigned int lCand = 0; lCand < nObj; lCand++) {
175  reco::PFCandidateRef pfCandRef(reco::PFCandidateRef(pfCandidateHandle, lCand));
176  if (pfCandRef->particleId() != reco::PFCandidate::gamma)
177  continue;
178  reco::PhotonRef myPho = (pfCandToPhotonMap)[pfCandRef];
179  if (myPho.isNonnull())
180  std::cout << " PF SC " << pfCandRef->superClusterRef()->energy() << " Photon SC "
181  << myPho->superCluster()->energy() << std::endl;
182  }
183 
184  for (HepMC::GenEvent::particle_const_iterator p = myGenEvent->particles_begin(); p != myGenEvent->particles_end();
185  ++p) {
186  if (!((*p)->pdg_id() == 22 && (*p)->status() == 1))
187  continue;
188 
189  // single primary photons or photons from Higgs or RS Graviton
190  HepMC::GenParticle* mother = nullptr;
191  if ((*p)->production_vertex()) {
192  if ((*p)->production_vertex()->particles_begin(HepMC::parents) !=
193  (*p)->production_vertex()->particles_end(HepMC::parents))
194  mother = *((*p)->production_vertex()->particles_begin(HepMC::parents));
195  }
196  if (((mother == nullptr) || ((mother != nullptr) && (mother->pdg_id() == 25)) ||
197  ((mother != nullptr) && (mother->pdg_id() == 22)))) {
198  float minDelta = 10000.;
199  std::vector<reco::Photon> localPhotons;
200  int index = 0;
201  int iMatch = -1;
202 
203  float phiPho = (*p)->momentum().phi();
204  float etaPho = (*p)->momentum().eta();
205  etaPho = etaTransformation(etaPho, (*p)->production_vertex()->position().z() / 10.);
206 
207  bool matched = false;
208  // loop Photon candidates
209  for (reco::PhotonCollection::const_iterator iPho = photonCollection.begin(); iPho != photonCollection.end();
210  iPho++) {
211  reco::Photon localPho = reco::Photon(*iPho);
212  localPhotons.push_back(localPho);
213 
215  float phiClu = localPho.phi();
216  float etaClu = localPho.eta();
217  float deltaPhi = phiClu - phiPho;
218  float deltaEta = etaClu - etaPho;
219 
220  if (deltaPhi > pi)
221  deltaPhi -= twopi;
222  if (deltaPhi < -pi)
223  deltaPhi += twopi;
224  deltaPhi = std::pow(deltaPhi, 2);
225  deltaEta = std::pow(deltaEta, 2);
226  float delta = sqrt(deltaPhi + deltaEta);
227  if (delta < 0.1 && delta < minDelta) {
228  minDelta = delta;
229  iMatch = index;
230  }
231  index++;
232  } // End loop over photons
233 
234  if (iMatch > -1)
235  matched = true;
236 
238  if (matched) {
239  reco::Photon matchingPho = localPhotons[iMatch];
240 
241  bool phoIsInBarrel = false;
242  if (fabs(matchingPho.superCluster()->position().eta()) < 1.479) {
243  phoIsInBarrel = true;
244  }
245  edm::Handle<EcalRecHitCollection> ecalRecHitHandle;
246 
247  h1_scEta_->Fill(matchingPho.superCluster()->position().eta());
248  float trueEta = (*p)->momentum().eta();
249  trueEta = etaTransformation(trueEta, (*p)->production_vertex()->position().z() / 10.);
250  h1_deltaEtaSC_->Fill(localPhotons[iMatch].superCluster()->eta() - trueEta);
251 
252  float photonE = matchingPho.energy();
253  float photonEt = matchingPho.et();
254  float photonEta = matchingPho.eta();
255  float photonPhi = matchingPho.phi();
256 
257  float r9 = matchingPho.r9();
258  float sigmaIetaIeta = matchingPho.sigmaIetaIeta();
259  float hOverE = matchingPho.hadronicOverEm();
260  float ecalIso = matchingPho.ecalRecHitSumEtConeDR04();
261  float hcalIso = matchingPho.hcalTowerSumEtConeDR04();
262  float trkIso = matchingPho.trkSumPtSolidConeDR04();
263 
264  h1_pho_E_->Fill(photonE);
265  h1_pho_Et_->Fill(photonEt);
268 
269  h1_deltaEta_->Fill(photonEta - (*p)->momentum().eta());
270  h1_deltaPhi_->Fill(photonPhi - (*p)->momentum().phi());
271 
272  if (phoIsInBarrel) {
273  h1_recEoverTrueEBarrel_->Fill(photonE / (*p)->momentum().e());
275  h1_pho_sigmaIetaIetaBarrel_->Fill(sigmaIetaIeta);
277  h1_pho_ecalIsoBarrel_->Fill(ecalIso);
278  h1_pho_hcalIsoBarrel_->Fill(hcalIso);
280 
281  } else {
282  h1_recEoverTrueEEndcap_->Fill(photonE / (*p)->momentum().e());
284  h1_pho_sigmaIetaIetaEndcap_->Fill(sigmaIetaIeta);
286  h1_pho_ecalIsoEndcap_->Fill(ecalIso);
287  h1_pho_hcalIsoEndcap_->Fill(hcalIso);
289  }
290 
291  } // reco photon matching MC truth
292 
293  } // End loop over MC particles
294  }
295 }
296 
297 float SimplePhotonAnalyzer::etaTransformation(float EtaParticle, float Zvertex) {
298  //---Definitions
299  const float PI = 3.1415927;
300  //UNUSED const float TWOPI = 2.0*PI;
301 
302  //---Definitions for ECAL
303  const float R_ECAL = 136.5;
304  const float Z_Endcap = 328.0;
305  const float etaBarrelEndcap = 1.479;
306 
307  //---ETA correction
308 
309  float Theta = 0.0;
310  float ZEcal = R_ECAL * sinh(EtaParticle) + Zvertex;
311 
312  if (ZEcal != 0.0)
313  Theta = atan(R_ECAL / ZEcal);
314  if (Theta < 0.0)
315  Theta = Theta + PI;
316  float ETA = -log(tan(0.5 * Theta));
317 
318  if (fabs(ETA) > etaBarrelEndcap) {
319  float Zend = Z_Endcap;
320  if (EtaParticle < 0.0)
321  Zend = -Zend;
322  float Zlen = Zend - Zvertex;
323  float RR = Zlen / sinh(EtaParticle);
324  Theta = atan(RR / Zend);
325  if (Theta < 0.0)
326  Theta = Theta + PI;
327  ETA = -log(tan(0.5 * Theta));
328  }
329  //---Return the result
330  return ETA;
331  //---end
332 }
333 
334 //========================================================================
336  //========================================================================
337 }
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Definition: ECALPositionCalculator.cc:10
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MonitorElement * book1D(TString const &name, TString const &title, int const nchX, double const lowX, double const highX, FUNC onbooking=NOOP())
Definition: DQMStore.h:98
SimplePhotonAnalyzer::h1_deltaEtaSC_
MonitorElement * h1_deltaEtaSC_
Definition: SimplePhotonAnalyzer.h:66
etaBarrelEndcap
static constexpr float etaBarrelEndcap
Definition: ECALPositionCalculator.cc:12
edm::ValueMap::size
size_t size() const
Definition: ValueMap.h:156
SimplePhotonAnalyzer::photonCollection_
std::string photonCollection_
Definition: SimplePhotonAnalyzer.h:52
SimplePhotonAnalyzer::barrelEcalHits_
edm::InputTag barrelEcalHits_
Definition: SimplePhotonAnalyzer.h:55