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TtFullHadKinFitProducer.cc
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1 #include "TopQuarkAnalysis/TopKinFitter/plugins/TtFullHadKinFitProducer.h"
2 
3 static const unsigned int nPartons=6;
4 
6 TtFullHadKinFitProducer::TtFullHadKinFitProducer(const edm::ParameterSet& cfg):
7  jets_ (cfg.getParameter<edm::InputTag>("jets")),
8  match_ (cfg.getParameter<edm::InputTag>("match")),
9  useOnlyMatch_ (cfg.getParameter<bool>("useOnlyMatch")),
10  bTagAlgo_ (cfg.getParameter<std::string>("bTagAlgo")),
11  minBTagValueBJet_ (cfg.getParameter<double>("minBTagValueBJet")),
12  maxBTagValueNonBJet_ (cfg.getParameter<double>("maxBTagValueNonBJet")),
13  useBTagging_ (cfg.getParameter<bool>("useBTagging")),
14  bTags_ (cfg.getParameter<unsigned int>("bTags")),
15  jetCorrectionLevel_ (cfg.getParameter<std::string>("jetCorrectionLevel")),
16  maxNJets_ (cfg.getParameter<int>("maxNJets")),
17  maxNComb_ (cfg.getParameter<int>("maxNComb")),
18  maxNrIter_ (cfg.getParameter<unsigned int>("maxNrIter")),
19  maxDeltaS_ (cfg.getParameter<double>("maxDeltaS")),
20  maxF_ (cfg.getParameter<double>("maxF")),
21  jetParam_ (cfg.getParameter<unsigned>("jetParametrisation")),
22  constraints_ (cfg.getParameter<std::vector<unsigned> >("constraints")),
23  mW_ (cfg.getParameter<double>("mW" )),
24  mTop_ (cfg.getParameter<double>("mTop")),
25  resolutionSmearFactor_(cfg.getParameter<double>("resolutionSmearFactor"))
26 {
27  if(cfg.exists("udscResolutions") && cfg.exists("bResolutions")){
28  udscResolutions_ = cfg.getParameter <std::vector<edm::ParameterSet> >("udscResolutions");
29  bResolutions_ = cfg.getParameter <std::vector<edm::ParameterSet> >("bResolutions");
30  }
31  else if(cfg.exists("udscResolutions") || cfg.exists("bResolutions")){
32  if(cfg.exists("udscResolutions")) throw cms::Exception("WrongConfig") << "Parameter 'bResolutions' is needed if parameter 'udscResolutions' is defined!\n";
33  else throw cms::Exception("WrongConfig") << "Parameter 'udscResolutions' is needed if parameter 'bResolutions' is defined!\n";
34  }
35 
36  // define kinematic fit interface
37  kinFitter = new TtFullHadKinFitter::KinFit(useBTagging_, bTags_, bTagAlgo_, minBTagValueBJet_, maxBTagValueNonBJet_,
38  udscResolutions_, bResolutions_, resolutionSmearFactor_ ,
39  jetCorrectionLevel_, maxNJets_, maxNComb_,
40  maxNrIter_, maxDeltaS_, maxF_, jetParam_, constraints_, mW_, mTop_);
41 
42  // produces the following collections
43  produces< std::vector<pat::Particle> >("PartonsB");
44  produces< std::vector<pat::Particle> >("PartonsBBar");
45  produces< std::vector<pat::Particle> >("PartonsLightQ");
46  produces< std::vector<pat::Particle> >("PartonsLightQBar");
47  produces< std::vector<pat::Particle> >("PartonsLightP");
48  produces< std::vector<pat::Particle> >("PartonsLightPBar");
49 
50  produces< std::vector<std::vector<int> > >();
51  produces< std::vector<double> >("Chi2");
52  produces< std::vector<double> >("Prob");
53  produces< std::vector<int> >("Status");
54 }
55 
57 TtFullHadKinFitProducer::~TtFullHadKinFitProducer()
58 {
59  delete kinFitter;
60 }
61 
63 void
64 TtFullHadKinFitProducer::produce(edm::Event& event, const edm::EventSetup& setup)
65 {
66  // get jet collection
67  edm::Handle<std::vector<pat::Jet> > jets;
68  event.getByLabel(jets_, jets);
69 
70  // get match in case that useOnlyMatch_ is true
71  std::vector<int> match;
72  bool invalidMatch=false;
73  if(useOnlyMatch_) {
74  kinFitter->setUseOnlyMatch(true);
75  // in case that only a ceratin match should be used, get match here
76  edm::Handle<std::vector<std::vector<int> > > matches;
77  event.getByLabel(match_, matches);
78  match = *(matches->begin());
79  // check if match is valid
80  if( match.size()!=nPartons ){
81  invalidMatch=true;
82  }
83  else {
84  for(unsigned int idx=0; idx<match.size(); ++idx) {
85  if(match[idx]<0 || match[idx]>=(int)jets->size()) {
86  invalidMatch=true;
87  break;
88  }
89  }
90  }
92  kinFitter->setMatch(match);
93  }
94 
96  kinFitter->setMatchInvalidity(invalidMatch);
97 
98  std::list<TtFullHadKinFitter::KinFitResult> fitResults = kinFitter->fit(*jets);
99 
100  // pointer for output collections
101  std::auto_ptr< std::vector<pat::Particle> > pPartonsB( new std::vector<pat::Particle> );
102  std::auto_ptr< std::vector<pat::Particle> > pPartonsBBar( new std::vector<pat::Particle> );
103  std::auto_ptr< std::vector<pat::Particle> > pPartonsLightQ ( new std::vector<pat::Particle> );
104  std::auto_ptr< std::vector<pat::Particle> > pPartonsLightQBar( new std::vector<pat::Particle> );
105  std::auto_ptr< std::vector<pat::Particle> > pPartonsLightP ( new std::vector<pat::Particle> );
106  std::auto_ptr< std::vector<pat::Particle> > pPartonsLightPBar( new std::vector<pat::Particle> );
107  // pointer for meta information
108  std::auto_ptr< std::vector<std::vector<int> > > pCombi ( new std::vector<std::vector<int> > );
109  std::auto_ptr< std::vector<double> > pChi2 ( new std::vector<double> );
110  std::auto_ptr< std::vector<double> > pProb ( new std::vector<double> );
111  std::auto_ptr< std::vector<int> > pStatus( new std::vector<int> );
112 
113  unsigned int iComb = 0;
114  for(std::list<TtFullHadKinFitter::KinFitResult>::const_iterator res = fitResults.begin(); res != fitResults.end(); ++res){
115  if(maxNComb_>=1 && iComb==(unsigned int)maxNComb_){
116  break;
117  }
118  ++iComb;
119 
120  pPartonsB ->push_back( res->B );
121  pPartonsBBar ->push_back( res->BBar );
122  pPartonsLightQ ->push_back( res->LightQ );
123  pPartonsLightQBar->push_back( res->LightQBar );
124  pPartonsLightP ->push_back( res->LightP );
125  pPartonsLightPBar->push_back( res->LightPBar );
126 
127  pCombi ->push_back( res->JetCombi );
128  pChi2 ->push_back( res->Chi2 );
129  pProb ->push_back( res->Prob );
130  pStatus->push_back( res->Status );
131 
132  }
133 
134  event.put(pCombi);
135  event.put(pPartonsB , "PartonsB" );
136  event.put(pPartonsBBar , "PartonsBBar" );
137  event.put(pPartonsLightQ , "PartonsLightQ" );
138  event.put(pPartonsLightQBar, "PartonsLightQBar");
139  event.put(pPartonsLightP , "PartonsLightP" );
140  event.put(pPartonsLightPBar, "PartonsLightPBar");
141  event.put(pChi2 , "Chi2" );
142  event.put(pProb , "Prob" );
143  event.put(pStatus , "Status" );
144 }
145 
146 #include "FWCore/Framework/interface/MakerMacros.h"
147 DEFINE_FWK_MODULE(TtFullHadKinFitProducer);
edm::ParameterSet::getParameter
T getParameter(std::string const &) const
nPartons
static const unsigned int nPartons
Definition: TtFullHadKinFitProducer.cc:3
TtFullHadKinFitProducer::kinFitter
TtFullHadKinFitter::KinFit * kinFitter
kinematic fit interface
Definition: TtFullHadKinFitProducer.h:80
DEFINE_FWK_MODULE
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
TtFullHadKinFitProducer::match_
edm::InputTag match_
input tag for matches (in case the fit should be performed on certain matches)
Definition: TtFullHadKinFitProducer.h:38
TtFullHadKinFitter::KinFit::setUseOnlyMatch
void setUseOnlyMatch(bool useOnlyMatch)
set useOnlyMatch
Definition: TtFullHadKinFitter.h:165
edm::ParameterSet::exists
bool exists(std::string const &parameterName) const
checks if a parameter exists
Definition: ParameterSet.cc:657
TtFullHadKinFitProducer::jetParam_
unsigned int jetParam_
numbering of different possible jet parametrizations
Definition: TtFullHadKinFitProducer.h:65
TtFullHadKinFitProducer::mTop_
double mTop_
top mass value used for constraints
Definition: TtFullHadKinFitProducer.h:71
TtFullHadKinFitProducer::constraints_
std::vector< unsigned > constraints_
numbering of different possible kinematic constraints
Definition: TtFullHadKinFitProducer.h:67
TtFullHadKinFitProducer::~TtFullHadKinFitProducer
~TtFullHadKinFitProducer()
default destructor
Definition: TtFullHadKinFitProducer.cc:57
TtFullHadKinFitProducer::mW_
double mW_
W mass value used for constraints.
Definition: TtFullHadKinFitProducer.h:69
TtFullHadKinFitter::KinFit::fit
std::list< TtFullHadKinFitter::KinFitResult > fit(const std::vector< pat::Jet > &jets)
do the fitting and return fit result
Definition: TtFullHadKinFitter.cc:442
TtFullHadKinFitProducer::udscResolutions_
std::vector< edm::ParameterSet > udscResolutions_
store the resolutions for the jets
Definition: TtFullHadKinFitProducer.h:73
TtFullHadKinFitter::KinFit
class that does the fitting
Definition: TtFullHadKinFitter.h:120
analyzePatCleaning_cfg.jets
tuple jets
Definition: analyzePatCleaning_cfg.py:8
TtFullHadKinFitProducer::useBTagging_
bool useBTagging_
switch to tell whether to use b-tagging or not
Definition: TtFullHadKinFitProducer.h:49
TtFullHadKinFitProducer::bResolutions_
std::vector< edm::ParameterSet > bResolutions_
Definition: TtFullHadKinFitProducer.h:73
TtFullHadKinFitProducer::produce
virtual void produce(edm::Event &event, const edm::EventSetup &setup)
produce fitted object collections and meta data describing fit quality
Definition: TtFullHadKinFitProducer.cc:64
TtFullHadKinFitProducer::maxNComb_
int maxNComb_
maximal number of combinations to be written to the event
Definition: TtFullHadKinFitProducer.h:57
TtFullHadKinFitProducer::jetCorrectionLevel_
std::string jetCorrectionLevel_
correction level for jets
Definition: TtFullHadKinFitProducer.h:53
event
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
TtFullHadKinFitProducer::maxF_
double maxF_
maximal deviation for contstraints
Definition: TtFullHadKinFitProducer.h:63
TtFullHadKinFitProducer::resolutionSmearFactor_
double resolutionSmearFactor_
smearing factor for jet energy resolutions
Definition: TtFullHadKinFitProducer.h:75
TtFullHadKinFitProducer::maxDeltaS_
double maxDeltaS_
maximal chi2 equivalent
Definition: TtFullHadKinFitProducer.h:61
TtFullHadKinFitProducer::jets_
edm::InputTag jets_
input tag for jets
Definition: TtFullHadKinFitProducer.h:36
TtFullHadKinFitProducer::maxNrIter_
unsigned int maxNrIter_
maximal number of iterations to be performed for the fit
Definition: TtFullHadKinFitProducer.h:59
TtFullHadKinFitProducer::bTagAlgo_
std::string bTagAlgo_
input tag for b-tagging algorithm
Definition: TtFullHadKinFitProducer.h:43
match
std::pair< typename Association::data_type::first_type, double > match(Reference key, Association association, bool bestMatchByMaxValue)
Generic matching function.
Definition: Utils.h:6
TtFullHadKinFitProducer::maxNJets_
int maxNJets_
maximal number of jets (-1 possible to indicate &#39;all&#39;)
Definition: TtFullHadKinFitProducer.h:55
TtFullHadKinFitProducer::maxBTagValueNonBJet_
double maxBTagValueNonBJet_
max value of bTag for a non-b-jet
Definition: TtFullHadKinFitProducer.h:47
TtFullHadKinFitProducer::bTags_
unsigned int bTags_
minimal number of b-jets
Definition: TtFullHadKinFitProducer.h:51
TtFullHadKinFitProducer::minBTagValueBJet_
double minBTagValueBJet_
min value of bTag for a b-jet
Definition: TtFullHadKinFitProducer.h:45
TtFullHadKinFitter::KinFit::setMatch
void setMatch(std::vector< int > match)
set match to be used
Definition: TtFullHadKinFitter.h:169
TtFullHadKinFitProducer::TtFullHadKinFitProducer
TtFullHadKinFitProducer(const edm::ParameterSet &cfg)
default constructor
Definition: TtFullHadKinFitProducer.cc:6
TtFullHadKinFitter::KinFit::setMatchInvalidity
void setMatchInvalidity(bool invalidMatch)
set the validity of a match
Definition: TtFullHadKinFitter.h:173
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