1 #ifndef GeneratorInterface_RivetInterface_RivetAnalysis_H 2 #define GeneratorInterface_RivetInterface_RivetAnalysis_H 6 #include "Rivet/Analysis.hh" 7 #include "Rivet/Projections/FinalState.hh" 8 #include "Rivet/Particle.hh" 9 #include "Rivet/Particle.fhh" 10 #include "Rivet/Event.hh" 11 #include "Rivet/Projections/FastJets.hh" 12 #include "Rivet/Projections/JetAlg.hh" 13 #include "Rivet/Projections/ChargedLeptons.hh" 14 #include "Rivet/Projections/PromptFinalState.hh" 15 #include "Rivet/Projections/DressedLeptons.hh" 16 #include "Rivet/Projections/VetoedFinalState.hh" 17 #include "Rivet/Projections/IdentifiedFinalState.hh" 18 #include "Rivet/Projections/MissingMomentum.hh" 19 #include "Rivet/Tools/RivetHepMC.hh" 50 _usePromptFinalStates(pset.getParameter<bool>(
"usePromptFinalStates")),
51 _excludePromptLeptonsFromJetClustering(pset.getParameter<bool>(
"excludePromptLeptonsFromJetClustering")),
52 _excludeNeutrinosFromJetClustering(pset.getParameter<bool>(
"excludeNeutrinosFromJetClustering")),
54 _particleMinPt (pset.getParameter<double>(
"particleMinPt")),
55 _particleMaxEta (pset.getParameter<double>(
"particleMaxEta")),
57 _lepConeSize (pset.getParameter<double>(
"lepConeSize")),
58 _lepMinPt (pset.getParameter<double>(
"lepMinPt")),
59 _lepMaxEta (pset.getParameter<double>(
"lepMaxEta")),
61 _jetConeSize (pset.getParameter<double>(
"jetConeSize")),
62 _jetMinPt (pset.getParameter<double>(
"jetMinPt")),
63 _jetMaxEta (pset.getParameter<double>(
"jetMaxEta")),
65 _fatJetConeSize (pset.getParameter<double>(
"fatJetConeSize")),
66 _fatJetMinPt (pset.getParameter<double>(
"fatJetMinPt")),
67 _fatJetMaxEta (pset.getParameter<double>(
"fatJetMaxEta"))
74 Cut particle_cut = (Cuts::abseta < _particleMaxEta) and (Cuts::pT > _particleMinPt*
GeV);
75 Cut lepton_cut = (Cuts::abseta < _lepMaxEta) and (Cuts::pT > _lepMinPt*
GeV);
78 FinalState fs(particle_cut);
81 ChargedLeptons charged_leptons(fs);
82 IdentifiedFinalState
photons(fs);
85 PromptFinalState prompt_leptons(charged_leptons);
86 prompt_leptons.acceptMuonDecays(
true);
87 prompt_leptons.acceptTauDecays(
true);
89 PromptFinalState prompt_photons(photons);
90 prompt_photons.acceptMuonDecays(
true);
91 prompt_photons.acceptTauDecays(
true);
96 DressedLeptons dressed_leptons(prompt_photons, prompt_leptons, _lepConeSize,
97 lepton_cut,
true,
true);
98 if (not _usePromptFinalStates)
99 dressed_leptons = DressedLeptons(photons, charged_leptons, _lepConeSize,
100 lepton_cut,
true,
true);
101 addProjection(dressed_leptons,
"DressedLeptons");
104 if (_usePromptFinalStates) {
106 VetoedFinalState vetoed_prompt_photons(prompt_photons);
107 vetoed_prompt_photons.addVetoOnThisFinalState(dressed_leptons);
108 addProjection(vetoed_prompt_photons,
"Photons");
111 addProjection(photons,
"Photons");
114 VetoedFinalState fsForJets(fs);
115 if (_usePromptFinalStates and _excludePromptLeptonsFromJetClustering)
116 fsForJets.addVetoOnThisFinalState(dressed_leptons);
117 JetAlg::InvisiblesStrategy invisiblesStrategy = JetAlg::DECAY_INVISIBLES;
118 if (_excludeNeutrinosFromJetClustering)
119 invisiblesStrategy = JetAlg::NO_INVISIBLES;
120 addProjection(FastJets(fsForJets, FastJets::ANTIKT, _jetConeSize,
121 JetAlg::ALL_MUONS, invisiblesStrategy),
"Jets");
124 addProjection(FastJets(fsForJets, FastJets::ANTIKT, _fatJetConeSize),
"FatJets");
128 neutrinos.acceptNeutrinos();
129 if (_usePromptFinalStates) {
130 PromptFinalState prompt_neutrinos(neutrinos);
131 prompt_neutrinos.acceptMuonDecays(
true);
132 prompt_neutrinos.acceptTauDecays(
true);
133 addProjection(prompt_neutrinos,
"Neutrinos");
136 addProjection(neutrinos,
"Neutrinos");
139 addProjection(MissingMomentum(fs),
"MET");
151 Cut jet_cut = (Cuts::abseta < _jetMaxEta) and (Cuts::pT > _jetMinPt*
GeV);
152 Cut fatjet_cut = (Cuts::abseta < _fatJetMaxEta) and (Cuts::pT > _fatJetMinPt*
GeV);
154 _leptons = applyProjection<DressedLeptons>(
event,
"DressedLeptons").dressedLeptons();
155 _jets = applyProjection<FastJets>(
event,
"Jets").jetsByPt(jet_cut);
156 _fatjets = applyProjection<FastJets>(
event,
"FatJets").jetsByPt(fatjet_cut);
157 _photons = applyProjection<FinalState>(
event,
"Photons").particlesByPt();
158 _neutrinos = applyProjection<FinalState>(
event,
"Neutrinos").particlesByPt();
159 _met = -applyProjection<MissingMomentum>(
event,
"MET").vectorEt();
std::vector< DressedLepton > _leptons
ParticleVector neutrinos() const
RivetAnalysis(const edm::ParameterSet &pset)
ParticleVector photons() const
bool _excludeNeutrinosFromJetClustering
std::vector< DressedLepton > leptons() const
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
void analyze(const Event &event)
bool _excludePromptLeptonsFromJetClustering
bool _usePromptFinalStates
ParticleVector _neutrinos