OctetChargedBranch::OctetChargedBranch() { HiggsMass = InitialValue(); PairRap = InitialValue(); // BottomBdt = InitialValue(); // PairBottomBdt = InitialValue(); HiggsBdt = InitialValue(); PairBdt = InitialValue(); }
HeavyHiggsCutBranch::HeavyHiggsCutBranch() { Ht = InitialValue(); EtMiss = InitialValue(); NumberJet = int(InitialValue()); NumberBottom = int(InitialValue()); InvariantMass = InitialValue(); DeltaR = InitialValue(); LeptonPt1 = InitialValue(); LeptonPt2 = InitialValue(); BottomMinPt = InitialValue(); BottomMaxRap = InitialValue(); }
Octet::Octet() { HiggsMass = InitialValue(); PairRap = InitialValue(); BottomBdt = InitialValue(); PairBottomBdt = InitialValue(); HiggsBdt = InitialValue(); PairBdt = InitialValue(); HardTopPt = InitialValue(); SoftTopPt = InitialValue(); }
bool TableCellIntegerEditor::ValidateInput() const { BVariant variantValue; if (!InitialValue()->ToVariant(variantValue)) return false; return GetValueFormatter()->ValidateFormattedValue(Text(), variantValue.Type()); }
status_t TableCellIntegerEditor::GetValueForInput(::Value*& _output) const { BVariant variantValue; if (!InitialValue()->ToVariant(variantValue)) return B_NO_MEMORY; return GetValueFormatter()->GetValueFromFormattedInput(Text(), variantValue.Type(), _output); }
CutNeutral::CutNeutral() { JetPt1 = InitialValue(); JetPt2 = InitialValue(); JetPt3 = InitialValue(); JetPt4 = InitialValue(); Ht = InitialValue(); BottomNumber = static_cast<int>(InitialValue()); LeptonPt = InitialValue(); }
HeavyHiggsCutNeutralBranch::HeavyHiggsCutNeutralBranch() { JetPt1 = InitialValue(); JetPt2 = InitialValue(); JetPt3 = InitialValue(); JetPt4 = InitialValue(); Ht = InitialValue(); BottomNumber = int(InitialValue()); LeptonPt = InitialValue(); }
EventChargedBranch::EventChargedBranch() { HiggsMass = InitialValue(); PairRap = InitialValue(); HiggsBdt = InitialValue(); SignatureBdt = InitialValue(); // BottomBdt = InitialValue(); // PairBottomBdt = InitialValue(); // BottomBdt1 = InitialValue(); // BottomBdt2 = InitialValue(); // BottomBdt3 = InitialValue(); // BottomBdt4 = InitialValue(); // BottomBdt5 = InitialValue(); // BottomBdt6 = InitialValue(); // BottomBdt7 = InitialValue(); // BottomBdt8 = InitialValue(); // BottomBdt12 = InitialValue(); // BottomBdt34 = InitialValue(); // BottomBdt56 = InitialValue(); // BottomBdt78 = InitialValue(); }
T& GetValue() { T* local_thread_value = static_cast<T*>(pthread_getspecific( m_key)); if (NULL == local_thread_value) { T* newObj = InitialValue(); pthread_setspecific(m_key, newObj); local_thread_value = newObj; } return *local_thread_value; }
EventNeutralBranch::EventNeutralBranch() { HiggsMass = InitialValue(); HiggsBdt = InitialValue(); SignatureBdt = InitialValue(); // BottomBdt = InitialValue(); // PairBottomBdt = InitialValue(); HardTopPt = InitialValue(); SoftTopPt = InitialValue(); // BottomBdt1 = InitialValue(); // BottomBdt2 = InitialValue(); // BottomBdt3 = InitialValue(); // BottomBdt4 = InitialValue(); // BottomBdt5 = InitialValue(); // BottomBdt6 = InitialValue(); // BottomBdt7 = InitialValue(); // BottomBdt8 = InitialValue(); // BottomBdt12 = InitialValue(); // BottomBdt34 = InitialValue(); // BottomBdt56 = InitialValue(); // BottomBdt78 = InitialValue(); }
OctetNeutralBranch::OctetNeutralBranch() { HiggsMass = InitialValue(); PairRap = InitialValue(); // BottomBdt = InitialValue(); // PairBottomBdt = InitialValue(); HiggsBdt = InitialValue(); PairBdt = InitialValue(); HardTopPt = InitialValue(); SoftTopPt = InitialValue(); }
// calculate the initial value of the population parameters void Initialize() { InitialValue(); InitialCholFactor(); vecvec chi = p_Daug->GetChi(); double local_chi[pchi]; for (int i=0; i<ndata; i++) { for (int j=0; j<pchi; j++) { local_chi[j] = chi[i][j]; } logdens[i] = LogDensity(local_chi, theta); } current_logdens = std::accumulate(logdens.begin(), logdens.end(), 0.0); // reset the number of MCMC iterations current_iter = 1; naccept = 0; }
status_t TableCellEnumerationEditor::ConfigureOptions() { EnumerationValue* initialValue = dynamic_cast<EnumerationValue*>( InitialValue()); if (initialValue == NULL) return B_BAD_VALUE; EnumerationType* type = initialValue->GetType(); for (int32 i = 0; i < type->CountValues(); i++) { EnumeratorValue* value = type->ValueAt(i); BString output; status_t error = AddOption(value->Name(), value->Value().ToInt32()); if (error != B_OK) return error; } BVariant integerValue; if (!initialValue->ToVariant(integerValue)) return B_NO_MEMORY; return SelectOptionFor(integerValue.ToInt32()); }
HeavyHiggsTauBranch::HeavyHiggsTauBranch() { NeutrinoPt = InitialValue(); LeptonPt = InitialValue(); }
EventFusionBranch::EventFusionBranch() { HiggsMass = InitialValue(); }
ChargedHiggsLeptonicBranch::ChargedHiggsLeptonicBranch() { HeavyHiggsMass = InitialValue(); HeavyHiggsPt = InitialValue(); TopDeltaRap = InitialValue(); TopDeltaPhi = InitialValue(); TopDeltaR = InitialValue(); LargerWDeltaRap = InitialValue(); LargerWDeltaPhi = InitialValue(); LargerWDeltaR = InitialValue(); SmallerWDeltaRap = InitialValue(); SmallerWDeltaPhi = InitialValue(); SmallerWDeltaR = InitialValue(); LargerNeutrinoDeltaRap = InitialValue(); LargerNeutrinoDeltaPhi = InitialValue(); LargerNeutrinoDeltaR = InitialValue(); SmallerNeutrinoDeltaRap = InitialValue(); SmallerNeutrinoDeltaPhi = InitialValue(); SmallerNeutrinoDeltaR = InitialValue(); TopBdt = InitialValue(); HeavyHiggsTag = int(InitialValue()); }
HeavyHiggsLeptonicBranch::HeavyHiggsLeptonicBranch() { LargerWDeltaRap = InitialValue(); LargerWDeltaPhi = InitialValue(); LargerWDeltaR = InitialValue(); SmallerWDeltaRap = InitialValue(); SmallerWDeltaPhi = InitialValue(); SmallerWDeltaR = InitialValue(); LargerNeutrinoDeltaRap = InitialValue(); LargerNeutrinoDeltaPhi = InitialValue(); LargerNeutrinoDeltaR = InitialValue(); SmallerNeutrinoDeltaRap = InitialValue(); SmallerNeutrinoDeltaPhi = InitialValue(); SmallerNeutrinoDeltaR = InitialValue(); }
TwoBody::TwoBody() { ht = InitialValue(); delta_pt = InitialValue(); delta_m = InitialValue(); delta_rap = InitialValue(); delta_phi = InitialValue(); delta_r = InitialValue(); rho = InitialValue(); bdt_1 = InitialValue(); bdt_2 = InitialValue(); pull_1 = InitialValue(); pull_2 = InitialValue(); // dipolarity = InitialValue(); }
Bdt::Bdt() { bdt = InitialValue(); }