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L2MuonIsolationProducer.cc
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1 
6 // Framework
13 
16 
23 
27 
28 #include <string>
29 
30 using namespace edm;
31 using namespace std;
32 using namespace reco;
33 using namespace muonisolation;
34 
37  : theSACollectionLabel(par.getParameter<edm::InputTag>("StandAloneCollectionLabel")) {
38  LogDebug("Muon|RecoMuon|L2MuonIsolationProducer") << " L2MuonIsolationProducer constructor called";
39 
40  theSACollectionToken = consumes<RecoChargedCandidateCollection>(theSACollectionLabel);
41 
42  //
43  // Extractor
44  //
45  edm::ParameterSet extractorPSet = par.getParameter<edm::ParameterSet>("ExtractorPSet");
46  std::string extractorName = extractorPSet.getParameter<std::string>("ComponentName");
47  theExtractor = std::unique_ptr<reco::isodeposit::IsoDepositExtractor>{
48  IsoDepositExtractorFactory::get()->create(extractorName, extractorPSet, consumesCollector())};
49 
50  edm::ParameterSet isolatorPSet = par.getParameter<edm::ParameterSet>("IsolatorPSet");
51  bool haveIsolator = !isolatorPSet.empty();
52  optOutputDecision = haveIsolator;
53  if (optOutputDecision) {
54  std::string type = isolatorPSet.getParameter<std::string>("ComponentName");
55  theDepositIsolator = std::unique_ptr<muonisolation::MuIsoBaseIsolator>{
56  MuonIsolatorFactory::get()->create(type, isolatorPSet, consumesCollector())};
57  }
59  produces<edm::ValueMap<bool>>();
60  produces<reco::IsoDepositMap>();
61 
62  optOutputIsolatorFloat = par.getParameter<bool>("WriteIsolatorFloat");
63  if (optOutputIsolatorFloat && haveIsolator) {
64  produces<edm::ValueMap<float>>();
65  }
66 }
67 
70  LogDebug("Muon|RecoMuon|L2MuonIsolationProducer") << " L2MuonIsolationProducer destructor called";
71 }
72 
76  desc.add<edm::InputTag>("StandAloneCollectionLabel", edm::InputTag("hltL2MuonCandidates"));
77  edm::ParameterSetDescription extractorPSet;
78  {
79  extractorPSet.add<double>("DR_Veto_H", 0.1);
80  extractorPSet.add<bool>("Vertex_Constraint_Z", false);
81  extractorPSet.add<double>("Threshold_H", 0.5);
82  extractorPSet.add<std::string>("ComponentName", "CaloExtractor");
83  extractorPSet.add<double>("Threshold_E", 0.2);
84  extractorPSet.add<double>("DR_Max", 1.0);
85  extractorPSet.add<double>("DR_Veto_E", 0.07);
86  extractorPSet.add<double>("Weight_E", 1.5);
87  extractorPSet.add<bool>("Vertex_Constraint_XY", false);
88  extractorPSet.addUntracked<std::string>("DepositLabel", "EcalPlusHcal");
89  extractorPSet.add<edm::InputTag>("CaloTowerCollectionLabel", edm::InputTag("towerMaker"));
90  extractorPSet.add<double>("Weight_H", 1.0);
91  }
92  desc.add<edm::ParameterSetDescription>("ExtractorPSet", extractorPSet);
93  edm::ParameterSetDescription isolatorPSet;
94  {
95  std::vector<double> temp;
96  isolatorPSet.add<std::vector<double>>("ConeSizesRel", std::vector<double>(1, 0.3));
97  isolatorPSet.add<double>("EffAreaSFEndcap", 1.0);
98  isolatorPSet.add<bool>("CutAbsoluteIso", true);
99  isolatorPSet.add<bool>("AndOrCuts", true);
100  isolatorPSet.add<edm::InputTag>("RhoSrc", edm::InputTag("hltKT6CaloJetsForMuons", "rho"));
101  isolatorPSet.add<std::vector<double>>("ConeSizes", std::vector<double>(1, 0.3));
102  isolatorPSet.add<std::string>("ComponentName", "CutsIsolatorWithCorrection");
103  isolatorPSet.add<bool>("ReturnRelativeSum", false);
104  isolatorPSet.add<double>("RhoScaleBarrel", 1.0);
105  isolatorPSet.add<double>("EffAreaSFBarrel", 1.0);
106  isolatorPSet.add<bool>("CutRelativeIso", false);
107  isolatorPSet.add<std::vector<double>>("EtaBounds", std::vector<double>(1, 2.411));
108  isolatorPSet.add<std::vector<double>>("Thresholds", std::vector<double>(1, 9.9999999E7));
109  isolatorPSet.add<bool>("ReturnAbsoluteSum", true);
110  isolatorPSet.add<std::vector<double>>("EtaBoundsRel", std::vector<double>(1, 2.411));
111  isolatorPSet.add<std::vector<double>>("ThresholdsRel", std::vector<double>(1, 9.9999999E7));
112  isolatorPSet.add<double>("RhoScaleEndcap", 1.0);
113  isolatorPSet.add<double>("RhoMax", 9.9999999E7);
114  isolatorPSet.add<bool>("UseRhoCorrection", true);
115  }
116  desc.add<edm::ParameterSetDescription>("IsolatorPSet", isolatorPSet);
117  desc.add<bool>("WriteIsolatorFloat", false);
118  descriptions.add("hltL2MuonIsolations", desc);
119 }
120 
123  std::string metname = "Muon|RecoMuon|L2MuonIsolationProducer";
124 
125  LogDebug(metname) << " L2 Muon Isolation producing...";
126 
127  // Take the SA container
128  LogDebug(metname) << " Taking the StandAlone muons: " << theSACollectionLabel;
130  event.getByToken(theSACollectionToken, muons);
131 
132  // Find deposits and load into event
133  LogDebug(metname) << " Get energy around";
134  auto depMap = std::make_unique<reco::IsoDepositMap>();
135  auto isoMap = std::make_unique<edm::ValueMap<bool>>();
136  auto isoFloatMap = std::make_unique<edm::ValueMap<float>>();
137 
138  unsigned int nMuons = muons->size();
139  std::vector<IsoDeposit> deps(nMuons);
140  std::vector<bool> isos(nMuons, false);
141  std::vector<float> isoFloats(nMuons, 0);
142 
143  // fill track collection to use for vetos calculation
145  for (unsigned int i = 0; i < nMuons; i++) {
146  TrackRef tk = (*muons)[i].track();
147  muonTracks.push_back(*tk);
148  }
149 
150  theExtractor->fillVetos(event, eventSetup, muonTracks);
151 
152  for (unsigned int i = 0; i < nMuons; i++) {
153  TrackRef tk = (*muons)[i].track();
154 
155  deps[i] = theExtractor->deposit(event, eventSetup, *tk);
156 
157  if (optOutputDecision) {
160  muonisolation::MuIsoBaseIsolator::Result isoResult = theDepositIsolator->result(isoContainer, *tk, &event);
161  isos[i] = isoResult.valBool;
162  isoFloats[i] = isoResult.valFloat;
163  }
164  }
165 
167  reco::IsoDepositMap::Filler depFiller(*depMap);
168  depFiller.insert(muons, deps.begin(), deps.end());
169  depFiller.fill();
170  event.put(std::move(depMap));
171 
172  if (optOutputDecision) {
173  edm::ValueMap<bool>::Filler isoFiller(*isoMap);
174  isoFiller.insert(muons, isos.begin(), isos.end());
175  isoFiller.fill();
176  event.put(std::move(isoMap));
177 
179  edm::ValueMap<float>::Filler isoFloatFiller(*isoFloatMap);
180  isoFloatFiller.insert(muons, isoFloats.begin(), isoFloats.end());
181  isoFloatFiller.fill();
182  event.put(std::move(isoFloatMap));
183  }
184  }
185 
186  LogDebug(metname) << " Event loaded"
187  << "================================";
188 }
T getParameter(std::string const &) const
Definition: ParameterSet.h:307
~L2MuonIsolationProducer() override
destructor
std::unique_ptr< muonisolation::MuIsoBaseIsolator > theDepositIsolator
const std::string metname
void insert(const H &h, I begin, I end)
Definition: ValueMap.h:53
std::vector< Track > TrackCollection
collection of Tracks
Definition: TrackFwd.h:14
muons
the two sets of parameters below are mutually exclusive, depending if RECO or ALCARECO is used the us...
Definition: DiMuonV_cfg.py:212
bool empty() const
Definition: ParameterSet.h:202
std::unique_ptr< reco::isodeposit::IsoDepositExtractor > theExtractor
ParameterDescriptionBase * add(U const &iLabel, T const &value)
edm::EDGetTokenT< reco::RecoChargedCandidateCollection > theSACollectionToken
static void fillDescriptions(edm::ConfigurationDescriptions &descriptions)
ParameterSet descriptions.
std::vector< DepositAndVetos > DepositContainer
void add(std::string const &label, ParameterSetDescription const &psetDescription)
void produce(edm::Event &, const edm::EventSetup &) override
Produce isolation maps.
fixed size matrix
HLT enums.
#define get
L2MuonIsolationProducer(const edm::ParameterSet &)
constructor with config
def move(src, dest)
Definition: eostools.py:511
Definition: event.py:1
#define LogDebug(id)