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DrellYanValidation.cc
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1 /*class DrellYanValidation
2  *
3  * Class to fill dqm monitor elements from existing EDM file
4  *
5  */
6 
10 #include "TLorentzVector.h"
11 
12 #include "CLHEP/Units/defs.h"
13 #include "CLHEP/Units/PhysicalConstants.h"
14 
17 using namespace edm;
18 
20  wmanager_(iPSet,consumesCollector()),
21  hepmcCollection_(iPSet.getParameter<edm::InputTag>("hepmcCollection")),
22  _flavor(iPSet.getParameter<int>("decaysTo")),
23  _name(iPSet.getParameter<std::string>("name"))
24 {
25  hepmcCollectionToken_=consumes<HepMCProduct>(hepmcCollection_);
26 }
27 
29 
31  c.getData( fPDGTable );
32 }
33 
35 
37  std::string folderName = "Generator/DrellYan";
38  folderName+=_name;
39  DQMHelper dqm(&i); i.setCurrentFolder(folderName.c_str());
40 
41  // Number of analyzed events
42  nEvt = dqm.book1dHisto("nEvt", "n analyzed Events", 1, 0., 1.,"bin","Number of Events");
43 
44  //Kinematics
45  Zmass = dqm.book1dHisto("Zmass","inv. Mass Z", 70 ,0,140,"M_{Z} (GeV)","Number of Events");
46  ZmassPeak = dqm.book1dHisto("ZmassPeak","inv. Mass Z", 80 ,80 ,100,"M_{Z} (GeV)","Number of Events");
47  Zpt = dqm.book1dHisto("Zpt","Z pt",100,0,200,"P_{t}^{Z} (GeV)","Number of Events");
48  ZptLog = dqm.book1dHisto("ZptLog","log(Z pt)",100,0.,5.,"log_{10}(P_{t}^{Z}) (log_{10}(GeV))","Number of Events");
49  Zrap = dqm.book1dHisto("Zrap", "Z y", 100, -5, 5,"Y_{Z}","Number of Events");
50  Zdaughters = dqm.book1dHisto("Zdaughters", "Z daughters", 60, -30, 30,"Z daughters (PDG ID)","Number of Events");
51 
52  dilep_mass = dqm.book1dHisto("dilep_mass","inv. Mass dilepton", 70 ,0,140,"M_{ll} (GeV)","Number of Events");
53  dilep_massPeak = dqm.book1dHisto("dilep_massPeak","inv. Mass dilepton", 80 ,80 ,100,"M_{ll} (GeV)","Number of Events");
54  dilep_pt = dqm.book1dHisto("dilep_pt","dilepton pt",100,0,200,"P_{t}^{ll} (GeV)","Number of Events");
55  dilep_ptLog = dqm.book1dHisto("dilep_ptLog","log(dilepton pt)",100,0.,5.,"log_{10}(P_{t}^{ll}) (log_{10}(GeV))","Number of Events");
56  dilep_rap = dqm.book1dHisto("dilep_rap", "dilepton y", 100, -5, 5,"Y_{ll}","Number of Events");
57 
58  gamma_energy = dqm.book1dHisto("gamma_energy", "photon energy in Z rest frame", 200, 0., 100.,"E_{#gamma}^{Z rest-frame} (GeV)","Number of Events");
59  cos_theta_gamma_lepton = dqm.book1dHisto("cos_theta_gamma_lepton", "cos_theta_gamma_lepton in Z rest frame", 200, -1, 1,"cos(#theta_{#gamma-lepton}^{Z rest-frame})","Number of Events");
60 
61  leadpt = dqm.book1dHisto("leadpt","leading lepton pt", 200, 0., 200.,"P_{t}^{1st-lepton}","Number of Events");
62  secpt = dqm.book1dHisto("secpt","second lepton pt", 200, 0., 200.,"P_{t}^{2nd-lepton}","Number of Events");
63  leadeta = dqm.book1dHisto("leadeta","leading lepton eta", 100, -5., 5.,"#eta^{1st-lepton}","Number of Events");
64  seceta = dqm.book1dHisto("seceta","second lepton eta", 100, -5., 5.,"#eta^{2nd-lepton}","Number of Events");
65 
66  return;
67 }
68 
70 {
71 
72  // we *DO NOT* rely on a Z entry in the particle listings!
73 
76  iEvent.getByToken(hepmcCollectionToken_, evt);
77 
78  //Get EVENT
79  const HepMC::GenEvent *myGenEvent = evt->GetEvent();
80 
81  double weight = wmanager_.weight(iEvent);
82 
83  //std::cout << "weight: " << weight << std::endl;
84 
85  nEvt->Fill(0.5,weight);
86 
87  std::vector<const HepMC::GenParticle*> allproducts;
88 
89  //requires status 1 for leptons and neutrinos (except tau)
90  int requiredstatus = (abs(_flavor) == 11 || abs(_flavor) == 12 || abs(_flavor) ==13 || abs(_flavor) ==14 || abs(_flavor) ==16) ? 1 : 3;
91 
92  bool vetotau = true; //(abs(_flavor) == 11 || abs(_flavor) == 12 || abs(_flavor) ==13 || abs(_flavor) ==14 || abs(_flavor) ==16) ? true : false;
93 
94  for(HepMC::GenEvent::particle_const_iterator iter = myGenEvent->particles_begin(); iter != myGenEvent->particles_end(); ++iter) {
95  if (vetotau) {
96  if ((*iter)->status()==3 && abs((*iter)->pdg_id() == 15) ) return;
97  }
98  if((*iter)->status()==requiredstatus) {
99  if(abs((*iter)->pdg_id())==_flavor)
100  allproducts.push_back(*iter);
101  }
102  }
103 
104  //nothing to do if we don't have 2 particles
105  if (allproducts.size() < 2) return;
106 
107  //sort them in pt
108  std::sort(allproducts.begin(), allproducts.end(), HepMCValidationHelper::sortByPt);
109 
110  //get the first element and the first following element with opposite charge
111  std::vector<const HepMC::GenParticle*> products;
112  products.push_back(allproducts.front());
113  const HepPDT::ParticleData* PData1 = fPDGTable->particle(HepPDT::ParticleID(allproducts.front()->pdg_id()));
114  double charge1 = PData1->charge();
115  for (unsigned int i = 1; i < allproducts.size(); ++i ){
116  const HepPDT::ParticleData* PData2 = fPDGTable->particle(HepPDT::ParticleID(allproducts[i]->pdg_id()));
117  double charge2 = PData2->charge();
118  if (charge1*charge2 < 0) products.push_back(allproducts[i]);
119  }
120 
121  //if we did not find any opposite charge pair there is nothing to do
122  if (products.size() < 2) return;
123 
124  assert(products[0]->momentum().perp() >= products[1]->momentum().perp());
125 
126  //leading lepton with pt > 20.
127  if (products[0]->momentum().perp() < 20.) return;
128 
129  //assemble FourMomenta
130  TLorentzVector lep1(products[0]->momentum().x(), products[0]->momentum().y(), products[0]->momentum().z(), products[0]->momentum().t());
131  TLorentzVector lep2(products[1]->momentum().x(), products[1]->momentum().y(), products[1]->momentum().z(), products[1]->momentum().t());
132  TLorentzVector dilepton_mom = lep1 + lep2;
133  TLorentzVector dilepton_andphoton_mom = dilepton_mom;
134 
135  //mass > 60.
136  if (dilepton_mom.M() < 60.) return;
137 
138  //find possible qed fsr photons
139  std::vector<const HepMC::GenParticle*> fsrphotons;
140  HepMCValidationHelper::findFSRPhotons(products, myGenEvent, 0.1, fsrphotons);
141 
142  Zdaughters->Fill(products[0]->pdg_id(),weight);
143  Zdaughters->Fill(products[1]->pdg_id(),weight);
144 
145  std::vector<TLorentzVector> gammasMomenta;
146  for (unsigned int ipho = 0; ipho < fsrphotons.size(); ++ipho){
147  TLorentzVector phomom(fsrphotons[ipho]->momentum().x(), fsrphotons[ipho]->momentum().y(), fsrphotons[ipho]->momentum().z(), fsrphotons[ipho]->momentum().t());
148  dilepton_andphoton_mom += phomom;
149  Zdaughters->Fill(fsrphotons[ipho]->pdg_id(),weight);
150  gammasMomenta.push_back(phomom);
151  }
152  //Fill Z histograms
153  Zmass->Fill(dilepton_andphoton_mom.M(),weight);
154  ZmassPeak->Fill(dilepton_andphoton_mom.M(),weight);
155  Zpt->Fill(dilepton_andphoton_mom.Pt(),weight);
156  ZptLog->Fill(log10(dilepton_andphoton_mom.Pt()),weight);
157  Zrap->Fill(dilepton_andphoton_mom.Rapidity(),weight);
158 
159  //Fill dilepton histograms
160  dilep_mass->Fill(dilepton_mom.M(),weight);
161  dilep_massPeak->Fill(dilepton_mom.M(),weight);
162  dilep_pt->Fill(dilepton_mom.Pt(),weight);
163  dilep_ptLog->Fill(log10(dilepton_mom.Pt()),weight);
164  dilep_rap->Fill(dilepton_mom.Rapidity(),weight);
165 
166  //Fill lepton histograms
167  leadpt->Fill(lep1.Pt(),weight);
168  secpt->Fill(lep2.Pt(),weight);
169  leadeta->Fill(lep1.Eta(),weight);
170  seceta->Fill(lep2.Eta(),weight);
171 
172  //boost everything in the Z frame
173  TVector3 boost = dilepton_andphoton_mom.BoostVector();
174  boost*=-1.;
175  lep1.Boost(boost);
176  lep2.Boost(boost);
177  for (unsigned int ipho = 0; ipho < gammasMomenta.size(); ++ipho){
178  gammasMomenta[ipho].Boost(boost);
179  }
180  std::sort(gammasMomenta.begin(), gammasMomenta.end(), HepMCValidationHelper::GreaterByE<TLorentzVector>);
181 
182  //fill gamma histograms
183  if (gammasMomenta.size() != 0 && dilepton_andphoton_mom.M() > 50.) {
184  gamma_energy->Fill(gammasMomenta.front().E(),weight);
185  double dphi = lep1.DeltaR(gammasMomenta.front()) < lep2.DeltaR(gammasMomenta.front()) ?
186  lep1.DeltaPhi(gammasMomenta.front()) : lep2.DeltaPhi(gammasMomenta.front());
187  cos_theta_gamma_lepton->Fill(cos(dphi),weight);
188  }
189 
190 }//analyze
MonitorElement * secpt
MonitorElement * gamma_energy
int i
Definition: DBlmapReader.cc:9
MonitorElement * dilep_rap
void findFSRPhotons(const std::vector< const HepMC::GenParticle * > &leptons, const std::vector< const HepMC::GenParticle * > &all, double deltaR, std::vector< const HepMC::GenParticle * > &photons)
MonitorElement * Zmass
virtual void dqmBeginRun(const edm::Run &r, const edm::EventSetup &c) override
virtual void bookHistograms(DQMStore::IBooker &i, edm::Run const &, edm::EventSetup const &) override
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:462
edm::InputTag hepmcCollection_
MonitorElement * cos_theta_gamma_lepton
MonitorElement * nEvt
assert(m_qm.get())
MonitorElement * leadeta
bool sortByPt(const HepMC::GenParticle *a, const HepMC::GenParticle *b)
MonitorElement * Zrap
MonitorElement * book1dHisto(std::string name, std::string title, int n, double xmin, double xmax, std::string xaxis, std::string yaxis)
Definition: DQMHelper.cc:12
MonitorElement * leadpt
void getData(T &iHolder) const
Definition: EventSetup.h:79
void Fill(long long x)
edm::ESHandle< HepPDT::ParticleDataTable > fPDGTable
PDT table.
int _flavor
decay flavor
int iEvent
Definition: GenABIO.cc:230
MonitorElement * dilep_massPeak
virtual void analyze(edm::Event const &, edm::EventSetup const &) override
ESProducts< T, S > products(const T &i1, const S &i2)
Definition: ESProducts.h:189
tuple lep1
print &#39;MRbb(1b)&#39;,event.mr_bb
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
WeightManager wmanager_
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
MonitorElement * Zdaughters
MonitorElement * dilep_pt
HepPDT::ParticleData ParticleData
MonitorElement * ZptLog
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:276
edm::EDGetTokenT< edm::HepMCProduct > hepmcCollectionToken_
std::string _name
decay flavor name
MonitorElement * seceta
T perp() const
Magnitude of transverse component.
MonitorElement * dilep_mass
MonitorElement * ZmassPeak
MonitorElement * dilep_ptLog
int weight
Definition: histoStyle.py:50
double weight(const edm::Event &)
DrellYanValidation(const edm::ParameterSet &)
MonitorElement * Zpt
Definition: Run.h:43