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ZMCHistogrammer.cc
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8 #include "TH1.h"
9 
11 public:
13 private:
14  virtual void analyze(const edm::Event& event, const edm::EventSetup& setup) override;
22  TH1F *h_invmMuMu_;
25  //TH1F *h_mZ2vs3MC_, *h_ptZ2vs3MC_, *h_phiZ2vs3MC_, *h_thetaZ2vs3MC_, *h_etaZ2vs3MC_, *h_rapidityZ2vs3MC_;
29  bool isMCatNLO_;
30 };
31 
33 
34 #include "HepMC/WeightContainer.h"
35 #include "HepMC/GenEvent.h"
41 #include <cmath>
42 #include <iostream>
43 
44 using namespace std;
45 using namespace reco;
46 using namespace edm;
47 
49  zToken_(consumes<CandidateView>(pset.getParameter<InputTag>("z"))),
50  genToken_(consumes<CandidateView>(pset.getParameter<InputTag>("gen"))),
51  matchToken_(consumes<std::vector<GenParticleRef> >(pset.getParameter<InputTag>("match"))),
52  hepMCProductToken_(consumes<HepMCProduct>(pset.getParameter<InputTag>("hepMCProductTag"))),
53  nbinsMass_(pset.getUntrackedParameter<unsigned int>("nbinsMass")),
54  nbinsPt_(pset.getUntrackedParameter<unsigned int>("nbinsPt")),
55  nbinsAng_(pset.getUntrackedParameter<unsigned int>("nbinsAng")),
56  nbinsMassRes_(pset.getUntrackedParameter<unsigned int>("nbinsMassRes")),
57  massMax_(pset.getUntrackedParameter<double>("massMax")),
58  ptMax_(pset.getUntrackedParameter<double>("ptMax")),
59  angMax_(pset.getUntrackedParameter<double>("angMax")),
60  massResMax_(pset.getUntrackedParameter<double>("massResMax")),
61  isMCatNLO_(pset.getUntrackedParameter<bool>("isMCatNLO")) {
62  cout << ">>> Z Histogrammer constructor" << endl;
64  TFileDirectory ZHisto = fs->mkdir( "ZRecoHisto" );
65  TFileDirectory ZMCHisto = fs->mkdir( "ZMCHisto" );
66  TFileDirectory ZResHisto = fs->mkdir( "ZResolutionHisto" );
67  //TFileDirectory Z2vs3MCHisto = fs->mkdir( "Z2vs3MCHisto" );
68  h_nZ_ = ZHisto.make<TH1F>("ZNumber", "number of Z particles", 11, -0.5, 10.5);
69  h_mZ_ = ZHisto.make<TH1F>("ZMass", "Z mass (GeV/c^{2})", nbinsMass_, 0, massMax_);
70  h_ptZ_ = ZHisto.make<TH1F>("ZPt", "Z p_{t} (GeV/c)", nbinsPt_, 0, ptMax_);
71  h_phiZ_ = ZHisto.make<TH1F>("ZPhi", "Z #phi", nbinsAng_, -angMax_, angMax_);
72  h_thetaZ_ = ZHisto.make<TH1F>("Ztheta", "Z #theta", nbinsAng_, 0, angMax_);
73  h_etaZ_ = ZHisto.make<TH1F>("ZEta", "Z #eta", nbinsAng_, -angMax_, angMax_);
74  h_rapidityZ_ = ZHisto.make<TH1F>("ZRapidity", "Z rapidity", nbinsAng_, -angMax_, angMax_);
75  h_invmMuMu_ = ZHisto.make<TH1F>("MuMuMass", "#mu #mu invariant mass",nbinsMass_, 0, massMax_);
76  h_weight_histo = ZHisto.make<TH1F>("weight_histo","weight_histo",20,-10,10);
77  h_nZMC_ = ZMCHisto.make<TH1F>("ZMCNumber", "number of Z MC particles", 11, -0.5, 10.5);
78  h_mZMC_ = ZMCHisto.make<TH1F>("ZMCMass", "Z MC mass (GeV/c^{2})", nbinsMass_, 0, massMax_);
79  h_ptZMC_ = ZMCHisto.make<TH1F>("ZMCPt", "Z MC p_{t} (GeV/c)", nbinsPt_, 0, ptMax_);
80  h_phiZMC_ = ZMCHisto.make<TH1F>("ZMCPhi", "Z MC #phi", nbinsAng_, -angMax_, angMax_);
81  h_thetaZMC_ = ZMCHisto.make<TH1F>("ZMCTheta", "Z MC #theta", nbinsAng_, 0, angMax_);
82  h_etaZMC_ = ZMCHisto.make<TH1F>("ZMCEta", "Z MC #eta", nbinsAng_, -angMax_, angMax_);
83  h_rapidityZMC_ = ZMCHisto.make<TH1F>("ZMCRapidity", "Z MC rapidity", nbinsAng_, -angMax_, angMax_);
84  h_invmMuMuMC_ = ZMCHisto.make<TH1F>("MuMuMCMass", "#mu #mu MC invariant mass",
85  nbinsMass_, 0, massMax_);
86  /*
87  h_mZ2vs3MC_ = Z2vs3MCHisto.make<TH1F>("Z2vs3MCMass", "Z MC st 2 vs st 3 mass (GeV/c^{2})",
88  nbinsMassRes_, -massResMax_, massResMax_);
89  h_ptZ2vs3MC_ = Z2vs3MCHisto.make<TH1F>("Z2vs3MCPt", "Z MC st 2 vs st 3 p_{t} (GeV/c)",
90  nbinsPt_, -ptMax_, ptMax_);
91  h_phiZ2vs3MC_ = Z2vs3MCHisto.make<TH1F>("Z2vs3MCPhi", "Z MC st 2 vs st 3 #phi",
92  nbinsAng_, -angMax_, angMax_);
93  h_thetaZ2vs3MC_ = Z2vs3MCHisto.make<TH1F>("Z2vs3MCTheta", "Z MC st 2 vs st 3 #theta",
94  nbinsAng_, -angMax_, angMax_);
95  h_etaZ2vs3MC_ = Z2vs3MCHisto.make<TH1F>("Z2vs3MCEta", "Z MC st 2 vs st 3 #eta",
96  nbinsAng_, -angMax_, angMax_);
97  h_rapidityZ2vs3MC_ = Z2vs3MCHisto.make<TH1F>("Z2vs3MCRapidity", "Z MC st 2 vs st 3 rapidity",
98  nbinsAng_, -angMax_, angMax_);
99  */
100  h_mResZ_ = ZResHisto.make<TH1F>("ZMassResolution", "Z mass Resolution (GeV/c^{2})",
102  h_ptResZ_ = ZResHisto.make<TH1F>("ZPtResolution", "Z p_{t} Resolution (GeV/c)",
103  nbinsPt_, -ptMax_, ptMax_);
104  h_phiResZ_ = ZResHisto.make<TH1F>("ZPhiResolution", "Z #phi Resolution",
106  h_thetaResZ_ = ZResHisto.make<TH1F>("ZThetaResolution", "Z #theta Resolution",
108  h_etaResZ_ = ZResHisto.make<TH1F>("ZEtaResolution", "Z #eta Resolution",
110  h_rapidityResZ_ = ZResHisto.make<TH1F>("ZRapidityResolution", "Z rapidity Resolution",
112  h_mResZMuMu_ = ZResHisto.make<TH1F>("ZToMuMuRecoMassResolution",
113  "Z Reco vs matched final state #mu #mu mass Difference (GeV/c^{2})",
115  h_mRatioZMuMu_ = ZResHisto.make<TH1F>("ZToMuMuRecoMassRatio",
116  "Z Reco vs matched final state #mu #mu mass Ratio",
117  4000, 0, 2);
118  h_mResZMuMuMC_ = ZResHisto.make<TH1F>("ZToMuMuMCMassResolution",
119  "Z vs final state #mu #mu MC mass Difference (GeV/c^{2})",
120  nbinsMassRes_/2 + 1, -2*massResMax_/nbinsMassRes_, massResMax_);
121  h_mRatioZMuMuMC_ = ZResHisto.make<TH1F>("ZToMuMuMCMassRatio",
122  "Z vs final state #mu #mu MC mass Ratio",
123  2002, 0.999, 2);
124 }
125 
127  cout << ">>> Z Histogrammer analyze" << endl;
131  event.getByToken(zToken_, z);
132  event.getByToken(genToken_, gen);
133  event.getByToken(matchToken_, match);
134  h_nZ_->Fill(z->size());
135 
136 // get HepMC::GenEvent ...
137  Handle<HepMCProduct> evt_h;
138  event.getByToken(hepMCProductToken_, evt_h);
139  HepMC::GenEvent* evt = new HepMC::GenEvent(*(evt_h->GetEvent()));
140 
141 
142  // get weight and fill it to histogram
143  HepMC::WeightContainer weights = evt->weights();
144  double weight = weights.front();
145  if(!weight) weight=1.;
146  h_weight_histo->Fill(weight);
147 
148  if(isMCatNLO_) {
149  weight > 0 ? weight=1. : weight=-1.;
150  }
151 
152  for(unsigned int i = 0; i < z->size(); ++i) {
153  const Candidate &zCand = (*z)[i];
154  h_mZ_->Fill(zCand.mass(),weight );
155  h_ptZ_->Fill(zCand.pt(),weight);
156  h_phiZ_->Fill(zCand.phi(),weight);
157  h_thetaZ_->Fill(zCand.theta(),weight);
158  h_etaZ_->Fill(zCand.eta(),weight);
159  h_rapidityZ_->Fill(zCand.rapidity(),weight);
160  CandidateBaseRef zCandRef = z->refAt(i);
161 
162  GenParticleRef zMCMatch = (*match)[i];
163  if(zMCMatch.isNonnull() && zMCMatch->pdgId()==23) {
164  h_mResZ_->Fill(zCandRef->mass() - zMCMatch->mass());
165  h_ptResZ_->Fill(zCandRef->pt() - zMCMatch->pt());
166  h_phiResZ_->Fill(zCandRef->phi() - zMCMatch->phi());
167  h_thetaResZ_->Fill(zCandRef->theta() - zMCMatch->theta());
168  h_etaResZ_->Fill(zCandRef->eta() - zMCMatch->eta());
169  h_rapidityResZ_->Fill(zCandRef->rapidity() - zMCMatch->rapidity());
170  const Candidate * dau0 = zMCMatch->daughter(0);
171  const Candidate * dau1 = zMCMatch->daughter(1);
172  for(unsigned int i0 = 0; i0 < dau0->numberOfDaughters(); ++i0) {
173  const Candidate * ddau0 = dau0->daughter(i0);
174  if(abs(ddau0->pdgId())==13 && ddau0->status()==1) {
175  dau0 = ddau0; break;
176  }
177  }
178  for(unsigned int i1 = 0; i1 < dau1->numberOfDaughters(); ++i1) {
179  const Candidate * ddau1 = dau1->daughter(i1);
180  if(abs(ddau1->pdgId())==13 && ddau1->status()==1) {
181  dau1 = ddau1; break;
182  }
183  }
184  assert(abs(dau0->pdgId())==13 && dau0->status()==1);
185  assert(abs(dau1->pdgId())==13 && dau1->status()==1);
186  double invMass = (dau0->p4()+dau1->p4()).mass();
187  h_invmMuMu_->Fill(invMass,weight);
188  h_mResZMuMu_->Fill(zCand.mass() - invMass);
189  h_mRatioZMuMu_->Fill(zCand.mass()/invMass);
190  }
191  }
192  h_nZMC_->Fill(gen->size());
193  for(unsigned int i = 0; i < gen->size(); ++i) {
194  const Candidate &genCand = (*gen)[i];
195  if((genCand.pdgId() == 23) && (genCand.status() == 2)) //this is an intermediate Z0
196  cout << ">>> intermediate Z0 found, with " << genCand.numberOfDaughters()
197  << " daughters" << endl;
198  if((genCand.pdgId() == 23)&&(genCand.status() == 3)) { //this is a Z0
199  cout << ">>> Z0 found, with " << genCand.numberOfDaughters()
200  << " daughters" << endl;
201  h_mZMC_->Fill(genCand.mass(),weight);
202  h_ptZMC_->Fill(genCand.pt(),weight);
203  h_phiZMC_->Fill(genCand.phi(),weight);
204  h_thetaZMC_->Fill(genCand.theta(),weight);
205  h_etaZMC_->Fill(genCand.eta(),weight);
206  h_rapidityZMC_->Fill(genCand.rapidity(),weight);
207  Particle::LorentzVector pZ(0, 0, 0, 0);
208  int nMu = 0;
209  for(unsigned int j = 0; j < genCand.numberOfDaughters(); ++j) {
210  const Candidate *dauGen = genCand.daughter(j);
211  /*
212  if((dauGen->pdgId() == 23) && (dauGen->status() == 2)) {
213  h_mZ2vs3MC_->Fill(genCand.mass() - dauGen->mass());
214  h_ptZ2vs3MC_->Fill(genCand.pt() - dauGen->pt());
215  h_phiZ2vs3MC_->Fill(genCand.phi() - dauGen->phi());
216  h_thetaZ2vs3MC_->Fill(genCand.theta() - dauGen->theta());
217  h_etaZ2vs3MC_->Fill(genCand.eta() - dauGen->eta());
218  h_rapidityZ2vs3MC_->Fill(genCand.rapidity() - dauGen->rapidity());
219  }
220  */
221  if((abs(dauGen->pdgId()) == 13) && (dauGen->numberOfDaughters() != 0)) {
222  //we are looking for photons of final state radiation
223  cout << ">>> The muon " << j
224  << " has " << dauGen->numberOfDaughters() << " daughters" <<endl;
225  for(unsigned int k = 0; k < dauGen->numberOfDaughters(); ++k) {
226  const Candidate * dauMuGen = dauGen->daughter(k);
227  cout << ">>> Mu " << j
228  << " daughter MC " << k
229  << " PDG Id " << dauMuGen->pdgId()
230  << ", status " << dauMuGen->status()
231  << ", charge " << dauMuGen->charge()
232  << endl;
233  if(abs(dauMuGen->pdgId()) == 13 && dauMuGen->status() ==1) {
234  pZ += dauMuGen->p4();
235  nMu ++;
236  }
237  }
238  }
239  }
240  assert(nMu == 2);
241  double mZ = pZ.mass();
242  h_invmMuMuMC_->Fill(mZ,weight);
243  h_mResZMuMuMC_->Fill(genCand.mass() - mZ);
244  h_mRatioZMuMuMC_->Fill(genCand.mass()/mZ);
245  }
246  }
247 }
248 
250 
252 
bool isNonnull() const
Checks for non-null.
Definition: Ref.h:252
virtual void analyze(const edm::Event &event, const edm::EventSetup &setup) override
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
ZMCHistogrammer(const edm::ParameterSet &pset)
virtual const Candidate * daughter(size_type i) const =0
return daughter at a given position, i = 0, ... numberOfDaughters() - 1 (read only mode) ...
def setup(process, global_tag, zero_tesla=False)
Definition: GeneralSetup.py:1
size_type size() const
Definition: weight.py:1
edm::EDGetTokenT< std::vector< reco::GenParticleRef > > matchToken_
edm::EDGetTokenT< reco::CandidateView > zToken_
EDGetTokenT< ProductType > consumes(edm::InputTag const &tag)
RefToBase< value_type > refAt(size_type i) const
virtual int status() const =0
status word
unsigned int nbinsAng_
virtual const LorentzVector & p4() const =0
four-momentum Lorentz vector
virtual int pdgId() const =0
PDG identifier.
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
T * make(const Args &...args) const
make new ROOT object
def gen(fragment, howMuch)
Production test section ####.
int k[5][pyjets_maxn]
unsigned int nbinsMass_
virtual double theta() const =0
momentum polar angle
virtual double eta() const =0
momentum pseudorapidity
TFileDirectory mkdir(const std::string &dir, const std::string &descr="")
create a new subdirectory
Definition: TFileService.h:69
const HepMC::GenEvent * GetEvent() const
Definition: HepMCProduct.h:38
virtual double pt() const =0
transverse momentum
virtual double mass() const =0
mass
edm::EDGetTokenT< reco::CandidateView > genToken_
virtual double rapidity() const =0
rapidity
virtual int charge() const =0
electric charge
fixed size matrix
HLT enums.
std::pair< typename Association::data_type::first_type, double > match(Reference key, Association association, bool bestMatchByMaxValue)
Generic matching function.
Definition: Utils.h:10
virtual size_type numberOfDaughters() const =0
number of daughters
unsigned int nbinsPt_
virtual double phi() const =0
momentum azimuthal angle
edm::EDGetTokenT< edm::HepMCProduct > hepMCProductToken_
Definition: event.py:1
math::PtEtaPhiELorentzVectorF LorentzVector
unsigned int nbinsMassRes_