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HLTMCtruth.cc
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1 #include <iostream>
2 #include <sstream>
3 #include <istream>
4 #include <fstream>
5 #include <iomanip>
6 #include <string>
7 #include <cmath>
8 #include <functional>
9 #include <stdlib.h>
10 #include <string.h>
11 
14 
16 
17  //set parameter defaults
18  _Monte=false;
19  _Debug=false;
20 }
21 
22 /* Setup the analysis to put the branch-variables into the tree. */
23 void HLTMCtruth::setup(const edm::ParameterSet& pSet, TTree* HltTree) {
24 
25  edm::ParameterSet myMCParams = pSet.getParameter<edm::ParameterSet>("RunParameters") ;
26  std::vector<std::string> parameterNames = myMCParams.getParameterNames() ;
27 
28  for ( std::vector<std::string>::iterator iParam = parameterNames.begin();
29  iParam != parameterNames.end(); iParam++ ){
30  if ( (*iParam) == "Monte" ) _Monte = myMCParams.getParameter<bool>( *iParam );
31  else if ( (*iParam) == "Debug" ) _Debug = myMCParams.getParameter<bool>( *iParam );
32  }
33 
34  const int kMaxMcTruth = 10000;
35  mcpid = new int[kMaxMcTruth];
36  mcstatus = new int[kMaxMcTruth];
37  mcvx = new float[kMaxMcTruth];
38  mcvy = new float[kMaxMcTruth];
39  mcvz = new float[kMaxMcTruth];
40  mcpt = new float[kMaxMcTruth];
41  mceta = new float[kMaxMcTruth];
42  mcphi = new float[kMaxMcTruth];
43 
44  // MCtruth-specific branches of the tree
45  HltTree->Branch("NMCpart",&nmcpart,"NMCpart/I");
46  HltTree->Branch("MCpid",mcpid,"MCpid[NMCpart]/I");
47  HltTree->Branch("MCstatus",mcstatus,"MCstatus[NMCpart]/I");
48  HltTree->Branch("MCvtxX",mcvx,"MCvtxX[NMCpart]/F");
49  HltTree->Branch("MCvtxY",mcvy,"MCvtxY[NMCpart]/F");
50  HltTree->Branch("MCvtxZ",mcvz,"MCvtxZ[NMCpart]/F");
51  HltTree->Branch("MCpt",mcpt,"MCpt[NMCpart]/F");
52  HltTree->Branch("MCeta",mceta,"MCeta[NMCpart]/F");
53  HltTree->Branch("MCphi",mcphi,"MCphi[NMCpart]/F");
54  HltTree->Branch("MCPtHat",&pthatf,"MCPtHat/F");
55  HltTree->Branch("MCmu3",&nmu3,"MCmu3/I");
56  HltTree->Branch("MCel3",&nel3,"MCel3/I");
57  HltTree->Branch("MCbb",&nbb,"MCbb/I");
58  HltTree->Branch("MCab",&nab,"MCab/I");
59  HltTree->Branch("MCWenu",&nwenu,"MCWenu/I");
60  HltTree->Branch("MCWmunu",&nwmunu,"MCmunu/I");
61  HltTree->Branch("MCZee",&nzee,"MCZee/I");
62  HltTree->Branch("MCZmumu",&nzmumu,"MCZmumu/I");
63  HltTree->Branch("MCptEleMax",&ptEleMax,"MCptEleMax/F");
64  HltTree->Branch("MCptMuMax",&ptMuMax,"MCptMuMax/F");
65 
66 }
67 
68 /* **Analyze the event** */
70  const double & pthat,
71  const edm::Handle<std::vector<SimTrack> > & simTracks,
72  const edm::Handle<std::vector<SimVertex> > & simVertices,
73  TTree* HltTree) {
74 
75  //std::cout << " Beginning HLTMCtruth " << std::endl;
76 
77  if (_Monte) {
78  int nmc = 0;
79  int mu3 = 0;
80  int el3 = 0;
81  int mab = 0;
82  int mbb = 0;
83  int wel = 0;
84  int wmu = 0;
85  int zee = 0;
86  int zmumu = 0;
87 
88  ptEleMax = -999.0;
89  ptMuMax = -999.0;
90  pthatf = pthat;
91 
92  if((simTracks.isValid())&&(simVertices.isValid())){
93  for (unsigned int j=0; j<simTracks->size(); j++) {
94  int pdgid = simTracks->at(j).type();
95  if (abs(pdgid)!=13) continue;
96  double pt = simTracks->at(j).momentum().pt();
97  if (pt<2.5) continue;
98  double eta = simTracks->at(j).momentum().eta();
99  if (abs(eta)>2.5) continue;
100  if (simTracks->at(j).noVertex()) continue;
101  int vertIndex = simTracks->at(j).vertIndex();
102  double x = simVertices->at(vertIndex).position().x();
103  double y = simVertices->at(vertIndex).position().y();
104  double r = sqrt(x*x+y*y);
105  if (r>150.) continue; // I think units are cm here
106  double z = simVertices->at(vertIndex).position().z();
107  if (abs(z)>300.) continue; // I think units are cm here
108  mu3 += 1;
109  break;
110  }
111  }
112 
113  if (mctruth.isValid()){
114 
115  for (size_t i = 0; i < mctruth->size(); ++ i) {
116  const reco::Candidate & p = (*mctruth)[i];
117 
118  mcpid[nmc] = p.pdgId();
119  mcstatus[nmc] = p.status();
120  mcpt[nmc] = p.pt();
121  mceta[nmc] = p.eta();
122  mcphi[nmc] = p.phi();
123  mcvx[nmc] = p.vx();
124  mcvy[nmc] = p.vy();
125  mcvz[nmc] = p.vz();
126 
127  if ((mcpid[nmc]==24)||(mcpid[nmc]==-24)) { // Checking W -> e/mu nu
128  size_t idg = p.numberOfDaughters();
129  for (size_t j=0; j != idg; ++j){
130  const reco::Candidate & d = *p.daughter(j);
131  if ((d.pdgId()==11)||(d.pdgId()==-11)){wel += 1;}
132  if ((d.pdgId()==13)||(d.pdgId()==-13)){wmu += 1;}
133 // if ( (abs(d.pdgId())!=24) && ((mcpid[nmc])*(d.pdgId())>0) )
134 // {std::cout << "Wrong sign between mother-W and daughter !" << std::endl;}
135  }
136  }
137  if (mcpid[nmc]==23) { // Checking Z -> 2 e/mu
138  size_t idg = p.numberOfDaughters();
139  for (size_t j=0; j != idg; ++j){
140  const reco::Candidate & d = *p.daughter(j);
141  if (d.pdgId()==11){zee += 1;}
142  if (d.pdgId()==-11){zee += 2;}
143  if (d.pdgId()==13){zmumu += 1;}
144  if (d.pdgId()==-13){zmumu += 2;}
145  }
146  }
147 
148  // Set-up flags, based on Pythia-generator information, for avoiding double-counting events when
149  // using both pp->{e,mu}X AND QCD samples
150 // if (((mcpid[nmc]==13)||(mcpid[nmc]==-13))&&(mcpt[nmc]>2.5)) {mu3 += 1;} // Flag for muons with pT > 2.5 GeV/c
151  if (((mcpid[nmc]==11)||(mcpid[nmc]==-11))&&(mcpt[nmc]>2.5)) {el3 += 1;} // Flag for electrons with pT > 2.5 GeV/c
152 
153  if (mcpid[nmc]==-5) {mab += 1;} // Flag for bbar
154  if (mcpid[nmc]==5) {mbb += 1;} // Flag for b
155 
156  if ((mcpid[nmc]==13)||(mcpid[nmc]==-13))
157  {if (p.pt()>ptMuMax) {ptMuMax=p.pt();} } // Save max pt of generated Muons
158  if ((mcpid[nmc]==11)||(mcpid[nmc]==-11))
159  {if (p.pt() > ptEleMax) ptEleMax=p.pt();} // Save max pt of generated Electrons
160 
161  nmc++;
162  }
163 
164  }
165  // else {std::cout << "%HLTMCtruth -- No MC truth information" << std::endl;}
166 
167  nmcpart = nmc;
168  nmu3 = mu3;
169  nel3 = el3;
170  nbb = mbb;
171  nab = mab;
172  nwenu = wel;
173  nwmunu = wmu;
174  if((zee%3)==0){nzee = zee/3;}
175 // else {std::cout << "Z does not decay in e+ e- !" << std::endl;}
176  if ((zmumu%3)==0){nzmumu = zmumu/3;}
177 // else {std::cout << "Z does not decay in mu+ mu- !" << std::endl;}
178 
179  }
180 
181 }
T getParameter(std::string const &) const
int i
Definition: DBlmapReader.cc:9
int * mcpid
Definition: HLTMCtruth.h:46
virtual const Candidate * daughter(size_type i) const =0
return daughter at a given position, i = 0, ... numberOfDaughters() - 1 (read only mode) ...
float * mcpt
Definition: HLTMCtruth.h:45
virtual double pt() const =0
transverse momentum
float pthatf
Definition: HLTMCtruth.h:48
virtual int status() const =0
status word
virtual double vx() const =0
x coordinate of vertex position
bool _Debug
Definition: HLTMCtruth.h:51
virtual double vy() const =0
y coordinate of vertex position
float * mceta
Definition: HLTMCtruth.h:45
int nmcpart
Definition: HLTMCtruth.h:47
tuple d
Definition: ztail.py:151
int nzmumu
Definition: HLTMCtruth.h:47
virtual size_type numberOfDaughters() const =0
number of daughters
float ptEleMax
Definition: HLTMCtruth.h:49
float ptMuMax
Definition: HLTMCtruth.h:49
void analyze(const edm::Handle< reco::CandidateView > &mctruth, const double &pthat, const edm::Handle< std::vector< SimTrack > > &simTracks, const edm::Handle< std::vector< SimVertex > > &simVertices, TTree *tree)
Definition: HLTMCtruth.cc:69
T sqrt(T t)
Definition: SSEVec.h:18
float * mcvy
Definition: HLTMCtruth.h:45
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
int j
Definition: DBlmapReader.cc:9
bool _Monte
Definition: HLTMCtruth.h:51
std::vector< std::string > getParameterNames() const
bool isValid() const
Definition: HandleBase.h:75
virtual int pdgId() const =0
PDG identifier.
float * mcvx
Definition: HLTMCtruth.h:45
float * mcphi
Definition: HLTMCtruth.h:45
virtual double vz() const =0
z coordinate of vertex position
float * mcvz
Definition: HLTMCtruth.h:45
void setup(const edm::ParameterSet &pSet, TTree *tree)
Definition: HLTMCtruth.cc:23
int nwmunu
Definition: HLTMCtruth.h:47
int * mcstatus
Definition: HLTMCtruth.h:46
virtual double phi() const =0
momentum azimuthal angle
virtual double eta() const =0
momentum pseudorapidity