ElectronPointer TestObjectFactory::goodCaloElectron() { ElectronPointer electron = ElectronPointer(new Electron(100., 99., 13., 5.)); electron->setUsedAlgorithm(ElectronAlgorithm::Calo); electron->setSuperClusterEta(0); electron->setD0_wrtBeamSpot(0); VertexPointer pv = TestObjectFactory::goodVertex(); electron->setZDistanceToPrimaryVertex(0); electron->setDEtaIn(0); electron->setDPhiIn(0); electron->setHadOverEm(0); electron->setSigmaIEtaIEta(0); electron->setNumberOfMissingInnerLayerHits(0); electron->setDCotThetaToNextTrack(0.5); electron->setDistToNextTrack(0.5); if (electron->isGood() == false) { cout << "Et " << electron->et() << endl; cout << "Eta " << electron->eta() << endl; cout << "VBTF 70 " << electron->VBTF_W70_ElectronID() << endl; cout << "d0 " << electron->d0_wrtBeamSpot() << endl; cout << "Et " << electron->et() << endl; } assert(electron->isGood()); assert(electron->isFromConversion() == false); assert(electron->isIsolated() == false); return electron; }
ElectronPointer TestObjectFactory::goodIsolatedElectron() { ElectronPointer electron = TestObjectFactory::goodCaloElectron(); electron->setTrackerIsolation(0.4); electron->setEcalIsolation(0.3); electron->setHcalIsolation(0.5); electron->setPFChargedHadronIsolation(0.4); electron->setPFGammaIsolation(0.3); electron->setPFNeutralHadronIsolation(0.5); electron->setUsedAlgorithm(ElectronAlgorithm::ParticleFlow); electron->setPFPUChargedHadronIsolation(0.2); electron->setPFRelativeIsolationRho(0.05); assert(electron->relativeIsolation() < 0.1); assert(electron->pfRelativeIsolationRhoCorrected() < 0.1); return electron; }
ElectronPointer TestObjectFactory::goodCaloElectron() { ElectronPointer electron = ElectronPointer(new Electron(100., 99., 13., 5.)); electron->setUsedAlgorithm(ElectronAlgorithm::Calo); electron->setSuperClusterEta(0); electron->setD0_wrtBeamSpot(0); electron->setD0(0); VertexPointer pv = TestObjectFactory::goodVertex(); electron->setZDistanceToPrimaryVertex(0); electron->setDEtaIn(0); electron->setDPhiIn(0); electron->setHadOverEm(0); electron->setSigmaIEtaIEta(0); electron->setNumberOfMissingInnerLayerHits(0); electron->setDCotThetaToNextTrack(0.5); electron->setDistToNextTrack(0.5); assert(electron->relativeIsolation() > 0.1); return electron; }