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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 
int i
Definition: DBlmapReader.cc:9
virtual const Candidate * daughter(size_type i) const =0
return daughter at a given position, i = 0, ... numberOfDaughters() - 1 (read only mode) ...
virtual void analyze(const edm::Event &event, const edm::EventSetup &setup) override
virtual float mass() const =0
mass
virtual float eta() const =0
momentum pseudorapidity
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
ZMCHistogrammer(const edm::ParameterSet &pset)
virtual int status() const =0
status word
virtual float phi() const =0
momentum azimuthal angle
virtual double rapidity() const =0
rapidity
edm::EDGetTokenT< std::vector< reco::GenParticleRef > > matchToken_
edm::EDGetTokenT< reco::CandidateView > zToken_
float float float z
bool isNonnull() const
Checks for non-null.
Definition: Ref.h:250
virtual size_type numberOfDaughters() const =0
number of daughters
unsigned int nbinsAng_
virtual float pt() const =0
transverse momentum
virtual double theta() const =0
momentum polar angle
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
int j
Definition: DBlmapReader.cc:9
virtual int charge() const =0
electric charge
T * make(const Args &...args) const
make new ROOT object
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
int k[5][pyjets_maxn]
virtual int pdgId() const =0
PDG identifier.
unsigned int nbinsMass_
TFileDirectory mkdir(const std::string &dir, const std::string &descr="")
create a new subdirectory
Definition: TFileService.h:69
edm::EDGetTokenT< reco::CandidateView > genToken_
tuple cout
Definition: gather_cfg.py:121
std::pair< typename Association::data_type::first_type, double > match(Reference key, Association association, bool bestMatchByMaxValue)
Generic matching function.
Definition: Utils.h:6
int weight
Definition: histoStyle.py:50
unsigned int nbinsPt_
math::XYZTLorentzVector LorentzVector
Lorentz vector.
Definition: Particle.h:27
void setup(std::vector< TH2F > &depth, std::string name, std::string units="")
edm::EDGetTokenT< edm::HepMCProduct > hepMCProductToken_
virtual const LorentzVector & p4() const =0
four-momentum Lorentz vector
unsigned int nbinsMassRes_