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Class Hierarchy
This inheritance list is sorted roughly, but not completely, alphabetically:
[detail level 123]
 COpm::PAvgCalculator::AccumulatorAccumulate weighted running averages of cell contributions to WBP
 COpm::Actdims
 COpm::RestartIO::InteHEAD::ActionParam
 COpm::Action::Actions
 COpm::Action::ActionX
 COpm::ActiveIndexByColumnsSpecial purpose mapping facility to handle the output code's need to enumerate the active cells by columns (layer ID (K) cycling fastest, followed by J, followed by I) for aquifer connections
 COpm::RestartIO::InteHEAD::ActiveNetwork
 COpm::RestartIO::Helpers::AggregateActionxData
 COpm::RestartIO::Helpers::AggregateAquiferData
 COpm::RestartIO::Helpers::AggregateConnectionData
 COpm::RestartIO::Helpers::AggregateGroupData
 COpm::RestartIO::Helpers::AggregateMSWData
 COpm::RestartIO::Helpers::AggregateNetworkData
 COpm::RestartIO::Helpers::AggregateUDQData
 COpm::RestartIO::Helpers::AggregateWellData
 COpm::RestartIO::Helpers::AggregateWListData
 COpm::BinaryCoeff::Air_MesityleneBinary coefficients for water and mesitylene
 COpm::BinaryCoeff::Air_XyleneBinary coefficients for water and xylene
 COpm::Aquancon::AquancCell
 COpm::Aquancon
 COpm::AquiferCT::AQUCT_data
 COpm::Aqudims
 COpm::Aquifetp::AQUFETP_data
 COpm::AquiferCellProps
 COpm::AquiferConfig
 COpm::AquiferCT
 COpm::data::AquiferData
 COpm::AquiferDimensions
 COpm::RestartIO::InteHEAD::AquiferDims
 COpm::AquiferFlux
 CAquiferVectors
 COpm::Aquifetp
 COpm::UDQAssign::AssignRecord
 COpm::Action::AST
 COpm::Action::ASTNode
 COpm::Network::Balance
 COpm::BaseFluidSystem< ScalarT, Implementation >The base class for all fluid systems
 COpm::BaseFluidSystem< Scalar, BlackOilFluidSystem< Scalar, BlackOilDefaultIndexTraits > >
 COpm::BaseFluidSystem< Scalar, BrineCO2FluidSystem< Scalar > >
 COpm::BaseFluidSystem< Scalar, Co2BrineFluidSystem< Scalar > >
 COpm::BaseFluidSystem< Scalar, GenericOilGasFluidSystem< Scalar, NumComp > >
 COpm::BaseFluidSystem< Scalar, H2OAirFluidSystem< Scalar, TabulatedComponent< Scalar, H2O< Scalar > > > >
 COpm::BaseFluidSystem< Scalar, H2OAirMesityleneFluidSystem< Scalar > >
 COpm::BaseFluidSystem< Scalar, H2OAirXyleneFluidSystem< Scalar > >
 COpm::BaseFluidSystem< Scalar, H2ON2FluidSystem< Scalar > >
 COpm::BaseFluidSystem< Scalar, H2ON2LiquidPhaseFluidSystem< Scalar > >
 COpm::BaseFluidSystem< Scalar, SinglePhaseFluidSystem< Scalar, Fluid > >
 COpm::BaseFluidSystem< Scalar, Spe5FluidSystem< Scalar > >
 COpm::BaseFluidSystem< Scalar, ThreeComponentFluidSystem< Scalar > >
 COpm::BaseFluidSystem< Scalar, TwoPhaseImmiscibleFluidSystem< Scalar, WettingPhase, NonwettingPhase > >
 COpm::BCConfig
 COpm::BCProp::BCFace
 COpm::BCProp
 COpm::BCConfig::BCRegion
 COpm::ScheduleState::BHPDefaults
 COpm::BlackOilDefaultIndexTraitsThe class which specifies the default phase and component indices for the black-oil fluid system
 COpm::BlackOilFluidState< ScalarT, FluidSystem, enableTemperature, enableEnergy, enableDissolution, enableVapwat, enableBrine, enableSaltPrecipitation, enableDissolutionInWater, numStoragePhases >Implements a "tailor-made" fluid state class for the black-oil model
 COpm::FileDeck::Block
 COpm::Box
 COpm::BoxManager
 COpm::Network::Branch
 COpm::RestartIO::RstNetwork::BranchSingle branch in extended network model
 CBranchVectors
 COpm::BinaryCoeff::Brine_CO2< Scalar, H2O, CO2, verbose >Binary coefficients for brine and CO2
 COpm::BinaryCoeff::Brine_H2< Scalar, H2O, H2, verbose >Binary coefficients for brine and H2
 COpm::BrineCo2Pvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the liquid phase for a CO2-Brine system
 COpm::BrineDensityTable
 COpm::BrineH2Pvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the liquid phase for a H2-Brine system
 COpm::Carfin
 COpm::CarfinManager
 COpm::RestartIO::RstAquifer::CarterTracy
 COpm::data::CarterTracyData
 COpm::CompletedCells::Cell
 COpm::RestartIO::RstAquifer::Connections::Cell
 COpm::Box::cell_index
 COpm::Carfin::cell_index
 COpm::data::CellDataSmall struct that keeps track of data for output to restart/summary files
 COpm::WellTestState::ClosedCompletion
 COpm::Co2GasPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phase for CO2
 COpm::Co2StoreConfig
 COpm::ColumnSchema
 COpm::IAPWS::Common< Scalar >Implements relations which are common for all regions of the IAPWS '97 formulation
 COpm::Spline< Scalar >::ComparatorX_Helper class needed to sort the input sampling points
 COpm::CompletedCells
 COpm::Component< ScalarT, Implementation >Abstract base class of a pure chemical species
 COpm::Component< Scalar, Air< Scalar > >
 COpm::Component< Scalar, Brine< Scalar, H2O > >
 COpm::Component< Scalar, BrineDynamic< Scalar, H2O > >
 COpm::Component< Scalar, C10< Scalar > >
 COpm::Component< Scalar, C1< Scalar > >
 COpm::Component< Scalar, CO2< Scalar > >
 COpm::Component< Scalar, DNAPL< Scalar > >
 COpm::Component< Scalar, H2< Scalar > >
 COpm::Component< Scalar, H2O< Scalar > >
 COpm::Component< Scalar, LNAPL< Scalar > >
 COpm::Component< Scalar, Mesitylene< Scalar > >
 COpm::Component< Scalar, N2< Scalar > >
 COpm::Component< Scalar, NullComponent< Scalar > >
 COpm::Component< Scalar, SimpleCO2< Scalar > >
 COpm::Component< Scalar, SimpleH2< Scalar > >
 COpm::Component< Scalar, SimpleH2O< Scalar > >
 COpm::Component< Scalar, SimpleHuDuanH2O< Scalar > >
 COpm::Component< Scalar, Unit< Scalar > >
 COpm::Component< Scalar, Xylene< Scalar > >
 COpm::GenericOilGasFluidSystem< Scalar, NumComp >::ComponentParam
 COpm::CompositionalConfig
 COpm::CompositionalFluidState< Scalar, FluidSystem, storeEnthalpy >Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assuming thermodynamic equilibrium
 COpm::CompositionalFluidState< ScalarT, FluidSystem >
 COpm::CompositionFromFugacities< Scalar, FluidSystem, Evaluation >Calculates the chemical equilibrium from the component fugacities in a phase
 CCompositionModule
 COpm::ComputeFromReferencePhase< Scalar, FluidSystem, Evaluation >Computes all quantities of a generic fluid state if a reference phase has been specified
 COpm::Action::Condition
 COpm::RestartIO::RstAction::Condition
 COpm::ConditionalStorage< cond, T >A simple class which only stores a given member attribute if a boolean condition is true
 COpm::ConditionalStorage< false, Scalar >
 COpm::ConditionalStorage< false, std::array< Scalar, FluidSystem::numPhases > >
 COpm::ConditionalStorage< false, T >
 COpm::ConditionalStorage< false||false, Scalar >
 COpm::ConditionalStorage< true, Scalar >
 COpm::Connection
 COpm::data::Connection
 COpm::data::ConnectionFiltrate
 COpm::RestartIO::RstAquifer::Connections
 COpm::fun::iota::const_iterator
 COpm::ConstantCompressibilityBrinePvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phase without vaporized oil
 COpm::ConstantCompressibilityOilPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the oil phase without dissolved gas and constant compressibility/"viscosibility"
 COpm::ConstantCompressibilityWaterPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phase without vaporized oil
 COpm::RestartIO::RstAquifer::ConstantFlux
 COpm::Constants< Scalar >A central place for various physical constants occuring in some equations
 COpm::ConstantSolidHeatCapLaw< ScalarT, ParamsT >Implements a solid energy storage law which assumes constant heat capacity
 COpm::Action::Context
 COpm::ContinueOnError
 COpm::CoordMapper
 COpm::Utility::CopyablePtr< T >
 COpm::WDFAC::CorrelationParameters for Dake's D-factor correlation model
 COpm::utility::CSRGraphFromCoordinates< VertexID, TrackCompressedIdx, PermitSelfConnections >Form CSR adjacency matrix representation of unstructured graphs
 COpm::utility::CSRGraphFromCoordinates< int, true >
 COpm::Connection::CTFPropertiesQuantities that go into calculating the connection transmissibility factor
 COpm::data::CurrentControl
 COpm::DeadOilPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the oil phase without dissolved gas
 COpm::Deck
 COpm::DeckItem
 COpm::DeckKeyword
 COpm::DeckOutput
 COpm::DeckRecord
 COpm::DeckTree
 COpm::DeckValue
 COpm::DeckView
 COpm::data::DensityItems
 CDensityModule
 COpm::DENSITYRecord
 COpm::DenT
 COpm::DiffCoeffGasRecord
 COpm::DiffCoeffRecord
 COpm::DiffCoeffWatRecord
 COpm::Dimension
 COpm::DirectionalMaterialLawParams< MaterialLawParams >
 COpm::RestartIO::DoubHEAD
 COpm::DryGasPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phase without vaporized oil
 COpm::DryHumidGasPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phase with vaporized water
 COpm::EclEpsConfigSpecifies the configuration used by the endpoint scaling code
 COpm::EclEpsGridPropertiesCollects all grid properties which are relevant for end point scaling
 COpm::EclEpsScalingPoints< Scalar >Represents the points on the X and Y axis to be scaled if endpoint scaling is used
 COpm::EclEpsScalingPointsInfo< Scalar >This structure represents all values which can be possibly used as scaling points in the endpoint scaling code
 COpm::EclIO::EclFile
 COpm::EclHeatcrLaw< ScalarT, FluidSystem, ParamsT >Implements the volumetric interior energy relations of rock used by ECL
 COpm::EclHysterConfig
 COpm::EclHysteresisConfigSpecifies the configuration used by the ECL kr/pC hysteresis code
 COpm::EclipseConfig
 COpm::EclipseGridInspectorA class for inspecting the contents of an eclipse file
 COpm::EclipseIOA class to write reservoir and well states of a blackoil simulation to disk
 COpm::EclipseState
 COpm::EclMaterialLawManager< TraitsT >Provides an simple way to create and manage the material law objects for a complete ECL deck
 COpm::EclIO::EclOutput
 COpm::EclSolidEnergyLawMultiplexer< ScalarT, FluidSystem, ParamsT >Provides the energy storage relation of rock
 COpm::EclSpecrockLaw< ScalarT, ParamsT >Implements the volumetric interior energy relations of rock used by ECL
 COpm::EclThcLaw< ScalarT, ParamsT >Implements the total thermal conductivity and rock enthalpy relations used by ECL
 COpm::EclThconrLaw< ScalarT, FluidSystem, ParamsT >Implements the total thermal conductivity relations specified by the ECL THCONR
 COpm::EclThermalConductionLawMultiplexer< ScalarT, FluidSystem, ParamsT >Implements the total thermal conductivity and rock enthalpy relations used by ECL
 COpm::EclThermalLawManager< Scalar, FluidSystem >Provides an simple way to create and manage the thermal law objects for a complete ECL deck
 CEffLawParamsT
 CEModel
 COpm::EndpointScaling
 COpm::EnsureFinalizedDefault implementation for asserting finalization of parameter objects
 CEnthalpyModule
 COpm::DenT::entry
 COpm::JouleThomson::entry
 COpm::UDQSet::EnumeratedItems
 COpm::Eqldims
 Cstd::equal_to
 COpm::EquilContainer< RecordType >
 COpm::EquilContainer< EquilRecord >
 COpm::EquilContainer< StressEquilRecord >
 COpm::EquilRecord
 COpm::ErrorGuard
 COpm::EclIO::ERsm
 COpm::EclIO::ESmry
 COpm::DenseAd::Evaluation< ValueT, numDerivs, staticSize >Represents a function evaluation and its derivatives w.r.t
 COpm::DenseAd::Evaluation< ValueT, 1 >
 COpm::DenseAd::Evaluation< ValueT, 10 >
 COpm::DenseAd::Evaluation< ValueT, 11 >
 COpm::DenseAd::Evaluation< ValueT, 12 >
 COpm::DenseAd::Evaluation< ValueT, 2 >
 COpm::DenseAd::Evaluation< ValueT, 3 >
 COpm::DenseAd::Evaluation< ValueT, 4 >
 COpm::DenseAd::Evaluation< ValueT, 5 >
 COpm::DenseAd::Evaluation< ValueT, 6 >
 COpm::DenseAd::Evaluation< ValueT, 7 >
 COpm::DenseAd::Evaluation< ValueT, 8 >
 COpm::DenseAd::Evaluation< ValueT, 9 >
 COpm::DenseAd::Evaluation< ValueT, DynamicSize, staticSize >Represents a function evaluation and its derivatives w.r.t
 COpm::Events
 Cstd::exception
 COpm::EclIO::ExtESmry
 COpm::Network::ExtNetwork
 COpm::EclIO::ExtSmryOutput
 Cstd::false_type
 COpm::FastSmallVector< ValueType, N >An implementation of vector/array based on small object optimization
 COpm::FastSmallVector< ValueT, staticSize >
 COpm::Fault
 COpm::FaultCollection
 COpm::FaultFace
 COpm::RestartIO::RstAquifer::Fetkovich
 COpm::data::FetkovichData
 COpm::Fieldprops::FieldData< T >
 COpm::FieldProps::FieldDataManager< T >
 COpm::FieldProps
 COpm::FieldPropsManager
 COpm::FileDeck
 COpm::FilterCake
 COpm::FIPConfigClass holding FIP configuration from RPTSOL/RPTSCHED keyword
 COpm::FIPRegionStatisticsBasic descriptive statistics about a model's fluid-in-place regions
 COpm::FlatTableWithCopy< RecordType >
 COpm::FlatTableWithCopy< DENSITYRecord >
 COpm::FlatTableWithCopy< GRAVITYRecord >
 COpm::FlatTableWithCopy< PVTWRecord >
 COpm::FlatTableWithCopy< ROCKRecord >
 COpm::PvtoTable::FlippedFVF
 COpm::FluidStateEquilibriumTemperatureModule< Scalar, numPhases, Implementation >Module for the modular fluid state which stores the temperatures explicitly and assumes thermal equilibrium
 COpm::FluidStateEquilibriumTemperatureModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateEquilibriumTemperatureModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateEquilibriumTemperatureModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateEquilibriumTemperatureModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitCompositionModule< Scalar, FluidSystem, Implementation >Module for the modular fluid state which stores the phase compositions explicitly in terms of mole fractions
 COpm::FluidStateExplicitCompositionModule< Scalar, FluidSystem, CompositionalFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitCompositionModule< Scalar, FluidSystem, CompositionalFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitCompositionModule< Scalar, FluidSystem, NonEquilibriumFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitCompositionModule< Scalar, FluidSystem, NonEquilibriumFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitDensityModule< Scalar, numPhases, Implementation >Module for the modular fluid state which stores the densities explicitly
 COpm::FluidStateExplicitDensityModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitDensityModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitDensityModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitDensityModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitDensityModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitDensityModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitEnthalpyModule< Scalar, numPhases, Implementation >Module for the modular fluid state which stores the enthalpies explicitly
 COpm::FluidStateExplicitEnthalpyModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitEnthalpyModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitEnthalpyModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitFugacityModule< Scalar, numPhases, numComponents, Implementation >Module for the modular fluid state which stores the phase fugacity coefficients explicitly
 COpm::FluidStateExplicitFugacityModule< Scalar, FluidSystem::numPhases, FluidSystem::numComponents, CompositionalFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitFugacityModule< Scalar, FluidSystem::numPhases, FluidSystem::numComponents, CompositionalFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitFugacityModule< Scalar, FluidSystem::numPhases, FluidSystem::numComponents, ImmiscibleFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitFugacityModule< Scalar, FluidSystem::numPhases, FluidSystem::numComponents, ImmiscibleFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitFugacityModule< Scalar, FluidSystem::numPhases, FluidSystem::numComponents, NonEquilibriumFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitFugacityModule< Scalar, FluidSystem::numPhases, FluidSystem::numComponents, NonEquilibriumFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitPressureModule< Scalar, numPhases, Implementation >Module for the modular fluid state which stores the pressures explicitly
 COpm::FluidStateExplicitPressureModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitPressureModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitPressureModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitPressureModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitPressureModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitPressureModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitSaturationModule< Scalar, numPhases, Implementation >Module for the modular fluid state which stores the saturations explicitly
 COpm::FluidStateExplicitSaturationModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitSaturationModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitSaturationModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitSaturationModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitSaturationModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitSaturationModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitTemperatureModule< Scalar, numPhases, Implementation >Module for the modular fluid state which stores the temperatures explicitly
 COpm::FluidStateExplicitTemperatureModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitTemperatureModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitViscosityModule< Scalar, numPhases, Implementation >Module for the modular fluid state which stores the viscosities explicitly
 COpm::FluidStateExplicitViscosityModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitViscosityModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitViscosityModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitViscosityModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateExplicitViscosityModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateExplicitViscosityModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateImmiscibleCompositionModule< Scalar, FluidSystem, Implementation >Module for the modular fluid state which provides the phase compositions assuming immiscibility
 COpm::FluidStateImmiscibleCompositionModule< Scalar, FluidSystem, ImmiscibleFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateImmiscibleCompositionModule< Scalar, FluidSystem, ImmiscibleFluidState< Scalar, FluidSystem, true > >
 COpm::FluidStateImmiscibleFugacityModule< Scalar, numPhases, numComponents, Implementation >Module for the modular fluid state which stores the phase fugacity coefficients explicitly assuming immiscibility
 COpm::FluidStateNullCompositionModule< Scalar >Module for the modular fluid state which does not store the compositions but throws std::logic_error instead
 COpm::FluidStateNullDensityModule< Scalar, numPhases, Implementation >Module for the modular fluid state which does not the densities but throws std::logic_error instead
 COpm::FluidStateNullEnthalpyModule< Scalar, numPhases, Implementation >Module for the modular fluid state which does not store the enthalpies but returns 0 instead
 COpm::FluidStateNullEnthalpyModule< Scalar, FluidSystem::numPhases, CompositionalFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateNullEnthalpyModule< Scalar, FluidSystem::numPhases, ImmiscibleFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateNullEnthalpyModule< Scalar, FluidSystem::numPhases, NonEquilibriumFluidState< Scalar, FluidSystem, false > >
 COpm::FluidStateNullFugacityModule< Scalar >Module for the modular fluid state which does not store the fugacities but throws std::logic_error instead
 COpm::FluidStateNullPressureModule< Scalar >Module for the modular fluid state which does not the pressures but throws std::logic_error instead
 COpm::FluidStateNullSaturationModule< Scalar >Module for the modular fluid state which does not the saturations but throws std::logic_error instead
 COpm::FluidStateNullTemperatureModule< Scalar >Module for the modular fluid state which does not the temperatures but throws std::logic_error instead
 COpm::FluidStateNullViscosityModule< Scalar, numPhases, Implementation >Module for the modular fluid state which does not the viscosities but throws std::logic_error instead
 COpm::FluidThermalConductionLaw< FluidSystem, ScalarT, phaseIdx, ParamsT >Implements a thermal conduction law which just takes the conductivity of a given fluid phase
 COpm::FluidThermalConductionLawParams< ScalarT >Parameters for the thermal conduction law which just takes the conductivity of a given fluid phase
 COpm::FoamConfigFoam behaviour data for all SATNUM regions
 COpm::FoamDataFoam behaviour data for a single SATNUM region
 COpm::DeckOutput::format
 COpm::EclIO::EclFile::Formatted
 COpm::EclIO::OutputStream::Formatted
 Cfmt::formatter
 Cfmt::formatter< Opm::DenseAd::Evaluation< ValueT, numDerivs, staticSize > >
 CFugacityModule
 COpm::GasLiftGroup
 COpm::GasLiftOpt
 COpm::GasLiftWell
 COpm::GasPhase< Scalar, ComponentT >Represents the gas phase of a single (pseudo-) component
 COpm::GasPvtMultiplexer< Scalar, enableThermal >This class represents the Pressure-Volume-Temperature relations of the gas phase in the black-oil model
 COpm::GasPvtThermal< Scalar >This class implements temperature dependence of the PVT properties of gas
 COpm::GConSale
 COpm::GConSale::GCONSALEGroup
 COpm::GConSale::GCONSALEGroupProp
 COpm::GConSump
 COpm::GConSump::GCONSUMPGroup
 COpm::GConSump::GCONSUMPGroupProp
 COpm::GroupEconProductionLimits::GEconGroup
 COpm::GroupEconProductionLimits::GEconGroupProp
 COpm::GPMaint
 COpm::GRAVITYRecord
 COpm::GridDims
 COpm::GridProperty< typename >
 COpm::Group
 COpm::RestartIO::InteHEAD::Group
 COpm::data::GroupAndNetworkValues
 COpm::data::GroupConstraints
 COpm::data::GroupData
 COpm::GroupEconProductionLimits
 COpm::data::GroupGuideRates
 COpm::Group::GroupInjectionProperties
 COpm::GuideRateConfig::GroupInjTarget
 COpm::Group::GroupLimitAction
 COpm::GroupOrder
 COpm::GuideRateConfig::GroupProdTarget
 COpm::Group::GroupProductionProperties
 CGroupVectors
 COpm::GTNode
 COpm::GuideRate
 COpm::RestartIO::DoubHEAD::guideRate
 COpm::GuideRateConfig
 COpm::GuideRateModel
 COpm::RestartIO::InteHEAD::GuideRateNominatedPhase
 COpm::data::GuideRateValue
 COpm::GuideRate::GuideRateValue
 COpm::H2GasPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phase for H2
 COpm::BinaryCoeff::H2O_AirBinary coefficients for water and nitrogen
 COpm::BinaryCoeff::H2O_CO2Binary coefficients for water and CO2
 COpm::BinaryCoeff::H2O_MesityleneBinary coefficients for water and mesitylene
 COpm::BinaryCoeff::H2O_N2Binary coefficients for water and nitrogen
 COpm::BinaryCoeff::H2O_XyleneBinary coefficients for water and xylene
 COpm::HandlerContext
 Cstd::hash
 COpm::IdealGas< Scalar >Relations valid for an ideal gas
 COpm::RestartIO::Helpers::igphData
 COpm::ImmiscibleFlash< Scalar, FluidSystem >Determines the pressures and saturations of all fluid phases given the total mass of all components
 COpm::ImmiscibleFluidState< Scalar, FluidSystem, storeEnthalpy >Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assuming thermodynamic equilibrium
 COpm::EclipseIO::Impl
 COpm::RegionSetMatcher::Impl
 COpm::SegmentMatcher::Impl
 COpm::EclIO::RestartFileView::Implementation
 COpm::RestartIO::RstAquifer::Implementation
 COpm::ImportContainer
 COpm::FileDeck::Index
 COpm::InfoLogger
 COpm::EclIO::OutputStream::InitFile manager for "init" output streams
 COpm::InitConfig
 COpm::Group::InjectionControls
 COpm::InjMult
 COpm::Inplace
 COpm::UDQActive::InputRecord
 COpm::RestartIO::InteHEAD
 COpm::data::InterRegFlowMapForm CSR adjacency matrix representation of inter-region flow rate graph provided as a list of connections between regions
 COpm::IntervalTabulated2DFunction< Scalar >Implements a function that depends on two variables
 COpm::IOConfig
 COpm::IOrderSet< T >
 COpm::IOrderSet< std::string >
 COpm::fun::iota
 COpm::Serializer< Packer >::is_array< T >Predicate for arrays
 COpm::Serializer< Packer >::is_array< std::array< T, N > >
 COpm::DenseAd::is_evaluation< T >
 COpm::DenseAd::is_evaluation< Evaluation< ValueType, numVars, staticSize > >
 COpm::Serializer< Packer >::is_map< T >Predicate for maps
 COpm::Serializer< Packer >::is_map< std::map< Key, T, Compare, Allocator > >
 COpm::Serializer< Packer >::is_map< std::unordered_map< Key, T, Hash, KeyEqual, Allocator > >
 COpm::Serializer< Packer >::is_optional< T >Predicate for std::optional
 COpm::Serializer< Packer >::is_optional< std::optional< T1 > >
 COpm::Serializer< Packer >::is_pair_or_tuple< T >Predicate for detecting pairs and tuples
 COpm::Serializer< Packer >::is_pair_or_tuple< std::pair< T1, T2 > >
 COpm::Serializer< Packer >::is_pair_or_tuple< std::tuple< Ts... > >
 COpm::Serializer< Packer >::is_ptr< T >Predicate for smart pointers
 COpm::Serializer< Packer >::is_ptr< std::shared_ptr< T1 > >
 COpm::Serializer< Packer >::is_ptr< std::unique_ptr< T1, Deleter > >
 COpm::RawConsts::is_quote
 COpm::RawConsts::is_separator
 COpm::Serializer< Packer >::is_set< T >Predicate for sets
 COpm::Serializer< Packer >::is_set< std::set< Key, Compare, Allocator > >
 COpm::Serializer< Packer >::is_set< std::unordered_set< Key, Hash, KeyEqual, Allocator > >
 COpm::Serializer< Packer >::is_variant< T >Predicate for detecting variants
 COpm::Serializer< Packer >::is_variant< std::variant< Ts... > >
 COpm::Serializer< Packer >::is_vector< T >Predicate for detecting vectors
 COpm::Serializer< Packer >::is_vector< std::vector< T1, Allocator > >
 COpm::DeckView::Iterator
 COpm::RegionSetMatchResult::RegionIndexRange::IteratorSimple forward iterator over a region index range
 Cstd::iterator_traits< Opm::DeckView::Iterator >
 COpm::JFunc
 COpm::JouleThomson
 CJson::JsonObject
 COpm::Fieldprops::keywords::keyword_info< T >
 COpm::KeywordGenerator
 COpm::KeywordHandlersSingleton class for Keyword handlers in Schedule
 COpm::KeywordLoader
 COpm::KeywordLocation
 COpm::KeywordSize
 COpm::EclIO::lgr_info
 COpm::LgrCollection
 COpm::RestartIO::DoubHEAD::liftOptPar
 COpm::LinearisedOutputTableManage tables of column data, possibly with sub-tables, all with equal number of rows (i.e., with padding), and possibly with multiple tables pertaining to multiple subsets (i.e., cell regions)
 COpm::LiquidPhase< Scalar, ComponentT >Represents the liquid phase of a single (pseudo-) component
 COpm::LiveOilPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the oil phas with dissolved gas
 COpm::LogBackendAbstract interface class for log backends
 COpm::Logger
 Cstd::logic_error
 COpm::RestartIO::LogiHEAD
 COpm::detail::MakeVariantImpl< Ts >
 Cstd::map
 COpm::ScheduleState::map_member< K, T >
 COpm::ScheduleState::map_member< int, Opm::VFPInjTable >
 COpm::ScheduleState::map_member< int, Opm::VFPProdTable >
 COpm::ScheduleState::map_member< std::string, Opm::Group >
 COpm::ScheduleState::map_member< std::string, Opm::Well >
 COpm::MapAxes
 COpm::UDQContext::MatcherFactories
 COpm::MathToolbox< ScalarT >
 COpm::MathToolbox< DenseAd::Evaluation< ValueT, numVars, staticSize > >
 COpm::MechBCValue
 COpm::Serialization::MemPackerStruct handling packing of serialization to a memory buffer
 COpm::MessageFormatterInterfaceAbstract interface for message formatting classes
 COpm::MessageLimiterHandles limiting the number of messages with the same tag
 COpm::MessageLimits
 COpm::MICPpara
 COpm::MiscibleMultiPhaseComposition< Scalar, FluidSystem, Evaluation >Computes the composition of all phases of a N-phase, N-component fluid system assuming that all N phases are present
 COpm::MMPCAuxConstraint< Scalar >Specifies an auxiliary constraint for the MiscibleMultiPhaseComposition constraint solver
 Cstd::monostate
 COpm::MonotCubicInterpolatorClass to represent a one-dimensional function f with single-valued argument x
 COpm::MonoThrowHandler< Exception >A functor for handling a monostate in a visitor overload set
 COpm::FieldProps::MultregpRecord
 COpm::MULTREGTRecord
 COpm::MULTREGTScanner
 COpm::NameOrder
 COpm::NcpFlash< Scalar, FluidSystem >Determines the phase compositions, pressures and saturations given the total mass of all components
 COpm::RestartIO::InteHEAD::NetBalanceDims
 COpm::RestartIO::DoubHEAD::NetBalanceParams
 COpm::NetworkDims
 COpm::RestartIO::InteHEAD::NetworkDims
 COpm::NextStep
 COpm::NNC
 COpm::NNCdata
 COpm::Network::Node
 COpm::RestartIO::RstNetwork::NodeSingle node in extended network model
 COpm::data::NodeData
 CNodeVectors
 COpm::NonEquilibriumFluidState< Scalar, FluidSystem, storeEnthalpy >Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system not assuming thermodynamic equilibrium
 COpm::NonuniformTableLinear< T >This class uses linear interpolation to compute the value (and its derivative) of a function f sampled at possibly nonuniform points
 COpm::NullMaterialParams< TraitsT >Reference implementation of params for the linear M-phase material material
 COpm::NullMaterialTraits< ScalarT, numPhasesV >A generic traits class which does not provide any indices
 COpm::NullSolidEnergyLaw< ScalarT >Implements a solid energy storage law which just returns 0
 COpm::NullThermalConductionLaw< ScalarT >Implements a dummy law for thermal conduction to which isothermal models can fall back to
 COpm::RestartIO::Helpers::WindowedMatrix< T >::NumColsDistinct compile-time type for number of matrix columns in underlying storage
 COpm::NumericalAquiferCell
 COpm::NumericalAquiferConnection
 COpm::NumericalAquifers
 COpm::data::NumericAquiferData
 COpm::RestartIO::Helpers::WindowedMatrix< T >::NumRowsDistinct compile-time type for number of matrix rows in underlying storage
 COpm::RestartIO::Helpers::WindowedArray< T >::NumWindowsDistinct compile-time type for number of windows in underlying storage
 COpm::Nupcol
 COpm::OilPvtMultiplexer< Scalar, enableThermal >This class represents the Pressure-Volume-Temperature relations of the oil phase in the black-oil model
 COpm::OilPvtThermal< Scalar >This class implements temperature dependence of the PVT properties of oil
 COpm::OilVaporizationProperties
 COpm::EclIO::OutputStream::RFT::OpenExisting
 COpm::OpmLog
 COpm::OrderedMap< T, MAX_CHARS >A map with iteration in the order of insertion
 COpm::OrderedMap< Opm::Carfin, 8 >
 COpm::OrderedMap< Opm::ColumnSchema >
 COpm::OrderedMap< Opm::Fault, 8 >
 COpm::OrderedMap< Opm::TableColumn >
 COpm::OrderedMap< Opm::UDQIndex >
 COpm::UDQActive::OutputRecord
 COpm::Serialization::detail::Packing< pod, T >Abstract struct for packing which is (partially) specialized for specific types
 COpm::Serialization::detail::Packing< false, std::bitset< Size > >Specialization for std::bitset
 COpm::Serialization::detail::Packing< false, std::string >
 COpm::Serialization::detail::Packing< false, T >Default handling for unsupported types
 COpm::Serialization::detail::Packing< false, time_point >
 COpm::Serialization::detail::Packing< true, T >Packaging for pod data
 COpm::EclIO::PaddedOutputString< N >Null-terminated, left adjusted, space padded array of N characters
 COpm::BaseFluidSystem< ScalarT, Implementation >::ParameterCache< Evaluation >The type of the fluid system's parameter cache
 COpm::ParameterCacheBase< Implementation >The base class of the parameter caches of fluid systems
 COpm::ParameterCacheBase< NullParameterCache< Evaluation > >
 COpm::ParameterCacheBase< NullParameterCache< EvaluationT > >
 COpm::ParameterCacheBase< PTFlashParameterCache< Scalar, FluidSystem > >
 COpm::ParameterCacheBase< Spe5ParameterCache< Evaluation, ThisType > >
 COpm::ParameterCacheBase< Spe5ParameterCache< Scalar, FluidSystem > >
 COpm::ParameterMapItemThe parameter handlig system is structured as a tree, where each node inhertis from ParameterMapItem
 COpm::ParameterMapItemTrait< T >
 COpm::ParameterMapItemTrait< bool >
 COpm::ParameterMapItemTrait< double >
 COpm::ParameterMapItemTrait< int >
 COpm::ParameterMapItemTrait< ParameterGroup >
 COpm::ParameterMapItemTrait< std::string >
 COpm::ParameterRequirementAnd< Requirement1, Requirement2 >
 COpm::ParameterRequirementMemberOf
 COpm::ParameterRequirementNegative
 COpm::ParameterRequirementNone
 COpm::ParameterRequirementNonEmpty
 COpm::ParameterRequirementNonNegative
 COpm::ParameterRequirementNonPositive
 COpm::ParameterRequirementNonZero
 COpm::ParameterRequirementPositive
 COpm::ParameterRequirementProbability
 COpm::EclIO::OutputStream::SummarySpecification::Parameters
 COpm::ParseContext
 COpm::Action::ParseNode
 COpm::Action::Parser
 COpm::ParserThe hub of the parsing process
 COpm::ParserItem
 COpm::ParserKeyword
 COpm::ParserRecord
 COpm::PAvg
 COpm::PAvgCalculatorFacility for deriving well-level pressure values from selected block-averaging procedures
 COpm::PAvgCalculatorCollectionCollection of WBPn calculation objects, one for each well
 COpm::PAvgDynamicSourceDataDynamic source data for block-average pressure calculations
 COpm::PengRobinson< Scalar, UseLegacy >Implements the Peng-Robinson equation of state for liquids and gases
 COpm::PengRobinsonMixture< Scalar, StaticParameters >Implements the Peng-Robinson equation of state for a mixture
 COpm::PengRobinsonParams< Scalar >Stores and provides access to the Peng-Robinson parameters
 COpm::PengRobinsonParams< Evaluation >
 COpm::data::PhaseItems
 COpm::Phases
 COpm::RestartIO::InteHEAD::Phases
 COpm::PlmixparRecord
 COpm::PLScanningCurve< ScalarT >Represents a scanning curve in the Parker-Lenhard hysteresis model
 COpm::PlyvmhRecord
 COpm::PolyInjTable
 COpm::Ppcwmax
 COpm::PpcwmaxRecord
 Cpqr_t
 CPressureModule
 COpm::PressureOverlayFluidState< FluidState >This is a fluid state which allows to set the fluid pressures and takes all other quantities from an other fluid state
 COpm::Group::ProductionControls
 COpm::CompletedCells::Cell::Props
 COpm::PTFlash< Scalar, FluidSystem >Determines the phase compositions, pressures and saturations given the total mass of all components for the chiwoms problem
 COpm::ScheduleState::ptr_member< T >
 COpm::ScheduleState::ptr_member< Opm::Action::Actions >
 COpm::ScheduleState::ptr_member< Opm::GasLiftOpt >
 COpm::ScheduleState::ptr_member< Opm::GConSale >
 COpm::ScheduleState::ptr_member< Opm::GConSump >
 COpm::ScheduleState::ptr_member< Opm::GroupEconProductionLimits >
 COpm::ScheduleState::ptr_member< Opm::GroupOrder >
 COpm::ScheduleState::ptr_member< Opm::GuideRateConfig >
 COpm::ScheduleState::ptr_member< Opm::NameOrder >
 COpm::ScheduleState::ptr_member< Opm::Network::Balance >
 COpm::ScheduleState::ptr_member< Opm::Network::ExtNetwork >
 COpm::ScheduleState::ptr_member< Opm::PAvg >
 COpm::ScheduleState::ptr_member< Opm::RFTConfig >
 COpm::ScheduleState::ptr_member< Opm::RPTConfig >
 COpm::ScheduleState::ptr_member< Opm::RSTConfig >
 COpm::ScheduleState::ptr_member< Opm::ScheduleState::BHPDefaults >
 COpm::ScheduleState::ptr_member< Opm::Source >
 COpm::ScheduleState::ptr_member< Opm::UDQActive >
 COpm::ScheduleState::ptr_member< Opm::UDQConfig >
 COpm::ScheduleState::ptr_member< Opm::WellTestConfig >
 COpm::ScheduleState::ptr_member< Opm::WListManager >
 COpm::PVCDORecord
 COpm::RestartIO::LogiHEAD::PVTModelKey characteristics of simulation run's PVT model
 COpm::PVTWRecord
 COpm::PvtwsaltTable
 COpm::PvtxTable
 COpm::Action::PyAction
 COpm::Python
 COpm::PythonInterp
 COpm::Action::Quantity
 COpm::RestartIO::RstAction::Quantity
 COpm::data::Rates
 COpm::GuideRate::RateVector
 COpm::satfunc::RawFunctionValuesCollection of unscaled/raw saturation function value range endpoints extracted directly from tables of tabulated saturation functions
 COpm::RawKeyword
 COpm::RawRecordClass representing the lowest level of the Raw datatypes, a record
 COpm::satfunc::RawTableEndPointsCollection of unscaled/raw saturation range endpoints extracted directly from tables of tabulated saturation functions
 Cboost::spirit::qi::real_policies
 COpm::Compsegs::Record
 COpm::Regdims
 COpm::RestartIO::InteHEAD::RegDims
 COpm::IAPWS::Region1< Scalar >Implements the equations for region 1 of the IAPWS '97 formulation
 COpm::IAPWS::Region2< Scalar >Implements the equations for region 2 of the IAPWS '97 formulation
 COpm::IAPWS::Region4< Scalar >Implements the equations for region 4 of the IAPWS '97 formulation
 COpm::out::RegionCache
 COpm::RegionSetMatchResult::RegionIndexRangeRegion Index Range for Single Region Set
 COpm::RegionSetMatchResultResult Set From RegionSetMatcher's Matching Process
 COpm::RegulaFalsi< ErrorPolicy >
 COpm::RegulaFalsiBisection< ErrorPolicy >
 COpm::EclIO::OutputStream::RestartFile manager for restart output streams
 COpm::EclIO::RestartFileView
 COpm::RestartKey
 COpm::EclIO::OutputStream::SummarySpecification::RestartSpecification
 COpm::RestartValue
 COpm::WellTestState::RestartWell
 COpm::Action::Result
 COpm::PAvgCalculator::ResultResult of block-averaging well pressure procedure
 COpm::EclIO::OutputStream::ResultSetAbstract representation of an ECLIPSE-style result set
 COpm::ReturnEval_< Eval1, Eval2 >
 COpm::EclIO::OutputStream::RFTFile manager for RFT output streams
 COpm::RFTConfig
 CRigWellLogExtractor
 COpm::Rock2dTable
 COpm::Rock2dtrTable
 COpm::RockConfig::RockComp
 COpm::RockConfig
 COpm::RestartIO::InteHEAD::RockOpts
 COpm::ROCKRecord
 COpm::RPTConfig
 COpm::RestartIO::RstAction
 COpm::RestartIO::RstAquifer
 COpm::RestartIO::RstUDQ::RstAssign
 COpm::RSTConfig
 COpm::RestartIO::RstConnection
 COpm::RestartIO::RstUDQ::RstDefine
 COpm::RestartIO::RstGroup
 COpm::RestartIO::RstHeader
 COpm::RestartIO::RstNetbalan
 COpm::RestartIO::RstNetwork
 COpm::UDQActive::RstRecord
 COpm::RestartIO::RstSegment
 COpm::RestartIO::RstState
 COpm::RestartIO::RstUDQ
 COpm::RestartIO::RstUDQActive
 COpm::RestartIO::RstWell
 COpm::Runspec
 Cstd::runtime_error
 COpm::SatFuncControls
 COpm::RestartIO::LogiHEAD::SatfuncFlagsKey characteristics of simulation model's saturation functions
 COpm::SatFuncLETRecord
 CSaturationModule
 COpm::SaturationOverlayFluidState< FluidState >This is a fluid state which allows to set the fluid saturations and takes all other quantities from an other fluid state
 COpm::Schedule
 COpm::ScheduleBlock
 COpm::ScheduleDeck
 COpm::ScheduleDeckContext
 COpm::ScheduleGrid
 COpm::ScheduleRestartInfo
 COpm::ScheduleState
 COpm::ScheduleStatic
 COpm::data::Segment
 COpm::Segment
 COpm::SegmentIndex
 COpm::data::SegmentPressures
 COpm::data::SegmentQuantity< Items >
 COpm::data::SegmentQuantity< DensityItems >
 COpm::data::SegmentQuantity< PhaseItems >
 CSegmentVectors
 COpm::Serializer< Packer >Class for (de-)serializing
 COpm::ShrateRecord
 COpm::SICD
 COpm::SimpleTable
 COpm::SimulationConfig
 COpm::SimulatorUpdateThis struct is used to communicate back from the Schedule::applyAction() what needs to be updated in the simulator when execution is returned to the simulator code
 COpm::SingleAquiferFlux
 COpm::SingleNumericalAquifer
 COpm::SolventDensityTable
 COpm::SolventPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the "second" gas phase in the of ECL simulations with solvents
 COpm::SomertonThermalConductionLaw< FluidSystem, ScalarT, ParamsT >Implements the Somerton law of thermal conductivity in a porous medium
 COpm::SomertonThermalConductionLawParams< numPhases, ScalarT >The default implementation of a parameter object for the Somerton thermal conduction law
 COpm::Source
 COpm::Source::SourceCell
 COpm::PAvgDynamicSourceData::SourceDataSpan< T >Ad hoc implementation of fixed-width span/view of an underlying contiguous range of elements
 COpm::PAvgCalculator::SourcesReferences to source contributions owned by other party
 COpm::SparseVector< T >A SparseVector stores a vector with possibly many empty elements as efficiently as possible
 COpm::Spline< Scalar >Class implementing cubic splines
 COpm::StandardCond
 COpm::StarToken
 COpm::Action::State
 COpm::GPMaint::State
 COpm::Stone1exRecord
 COpm::StressEquilRecord
 Cstd::string
 COpm::out::Summary
 COpm::SummaryConfig
 COpm::SummaryConfigNode
 COpm::out::Summary::SummaryImplementation
 COpm::EclIO::SummaryNode
 COpm::EclIO::OutputStream::SummarySpecification
 COpm::SummaryState
 COpm::Tabdims
 COpm::TableColumn
 COpm::TableContainer
 COpm::TableIndex
 COpm::TableManager
 COpm::Tables
 COpm::TableSchema
 COpm::Tabulated1DFunction< Scalar >Implements a linearly interpolated scalar function that depends on one variable
 COpm::Tabulated1DFunction< ScalarT >
 COpm::TabulatedComponent< ScalarT, RawComponent, useVaporPressure >A generic class which tabulates all thermodynamic properties of a given component
 CTemperatureModule
 COpm::TemperatureOverlayFluidState< FluidState >This is a fluid state which allows to set the fluid temperatures and takes all other quantities from an other fluid state
 COpm::ThreePhaseMaterialTraits< ScalarT, wettingPhaseIdxV, nonWettingasPhaseIdxV, gasPhaseIdxV >A generic traits class for three-phase material laws
 COpm::ThreePhaseParkerVanGenuchten< TraitsT, ParamsT >Implementation of three-phase capillary pressure and relative permeability relations proposed by Parker and van Genuchten
 COpm::ThresholdPressure
 COpm::ThrowOnError
 COpm::RestartIO::InteHEAD::TimePoint
 COpm::RestartIO::DoubHEAD::TimeStamp
 COpm::TimeStampUTC
 COpm::TLMixpar
 COpm::TlmixparRecord
 COpm::TLMixRecord
 COpm::TracerConfig
 COpm::TracerConfig::TracerEntry
 COpm::Tracers
 CEffectiveLawT::Traits
 CEffLawT::Traits
 CTraits
 CTraitsT
 COpm::Fieldprops::TranCalculator::TranAction
 COpm::Fieldprops::TranCalculator
 COpm::TransMult
 COpm::TridiagonalMatrix< Scalar >Provides a tridiagonal matrix that also supports non-zero entries in the upper right and lower left
 Cstd::true_type
 COpm::OrderedMapDetail::TruncatedStringEquals< MAX_CHARS >
 COpm::OrderedMapDetail::TruncatedStringHash< MAX_CHARS >
 COpm::Tuning
 COpm::RestartIO::InteHEAD::TuningPar
 COpm::TwoPhaseMaterialTraits< ScalarT, wettingPhaseIdxV, nonWettingPhaseIdxV >A generic traits class for two-phase material laws
 Cstd::conditional::type
 Cstd::conditional::type
 Cstd::conditional::type
 Cstd::conditional::type
 Cstd::conditional::type
 Cstd::conditional::type
 Cstd::conditional::type
 Cstd::conditional::type
 COpm::data::detail::TypeMap< AquiferType >
 COpm::data::detail::TypeMap< AquiferType::CarterTracy >
 COpm::data::detail::TypeMap< AquiferType::Fetkovich >
 COpm::data::detail::TypeMap< AquiferType::Numerical >
 COpm::data::TypeSpecificData
 COpm::UDAValue
 COpm::UDQActive
 COpm::UDQAssign
 COpm::UDQASTNode
 COpm::UDQConfig
 COpm::UDQContext
 COpm::UDQDefine
 COpm::UDQDims
 COpm::UDQFunction
 COpm::UDQFunctionTable
 COpm::UDQIndex
 COpm::UDQInput
 COpm::RestartIO::InteHEAD::UdqParam
 COpm::UDQParams
 COpm::UDQScalar
 COpm::UDQSet
 COpm::UDQState
 COpm::UDQToken
 CUDQVectors
 COpm::UDT
 COpm::EclIO::OutputStream::Unified
 COpm::UniformTableLinear< T >This class uses linear interpolation to compute the value (and its derivative) of a function f sampled at uniform points
 COpm::UniformTabulated2DFunction< Scalar >Implements a scalar function that depends on two variables and which is sampled on an uniform X-Y grid
 COpm::UniformTabulated2DFunction< double >
 COpm::UniformXTabulated2DFunction< Scalar >Implements a scalar function that depends on two variables and which is sampled uniformly in the X direction, but non-uniformly on the Y axis-
 COpm::UnitSystem
 COpm::Action::Value
 COpm::Valve
 COpm::ValveUDAEval
 Cstd::vector
 COpm::VFPInjTable
 COpm::VFPProdTableClass for reading data from a VFPPROD (vertical flow performance production) table
 COpm::ViscosityModels< Scalar, FluidSystem >
 CViscosityModule
 COpm::VISCREFRecord
 COpm::WagHysteresisConfig
 COpm::WagHysteresisConfig::WagHysteresisConfigRecord
 COpm::WarnAndContinueOnError
 COpm::WATDENTRecord
 COpm::WaterPvtMultiplexer< Scalar, enableThermal, enableBrine >This class represents the Pressure-Volume-Temperature relations of the water phase in the black-oil model
 COpm::WaterPvtThermal< Scalar, enableBrine >This class implements temperature dependence of the PVT properties of water
 COpm::WDFAC
 COpm::data::Well
 COpm::Well
 COpm::data::WellBlockAveragePressures
 COpm::data::WellBlockAvgPress
 COpm::WellBrineProperties
 COpm::WellConnections
 COpm::Welldims
 COpm::WellEconProductionLimits
 COpm::data::WellFiltrate
 COpm::WellFoamProperties
 COpm::WellGroupEvents
 COpm::Well::WellGuideRate
 COpm::WellInjectionControls
 COpm::Well::WellInjectionProperties
 COpm::WellMatcher
 COpm::WellMICPProperties
 COpm::WellPolymerProperties
 COpm::WellProductionControls
 COpm::Well::WellProductionProperties
 COpm::RestartIO::InteHEAD::WellSegDims
 COpm::WellSegmentDims
 COpm::SegmentSet::WellSegmentRangeSegment Range for Single MS Well
 COpm::WellSegments
 COpm::Action::WellSet
 COpm::RestartIO::InteHEAD::WellTableDim
 COpm::GuideRateConfig::WellTarget
 COpm::WellTestConfig
 COpm::WellTestState
 COpm::WellTracerProperties
 COpm::WellType
 CWellVectors
 COpm::WelSegsSet
 COpm::WetGasPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phas with vaporized oil
 COpm::WetHumidGasPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phase with vaporized oil and vaporized water
 COpm::Action::WGNames
 COpm::RestartIO::Helpers::WindowedArray< T >Provide read-only and read/write access to constantly sized portions/windows of a linearised buffer with an implied 1D array structure
 COpm::RestartIO::Helpers::WindowedArray< double >
 COpm::RestartIO::Helpers::WindowedArray< float >
 COpm::RestartIO::Helpers::WindowedArray< int >
 COpm::RestartIO::Helpers::WindowedArray< Opm::EclIO::PaddedOutputString< 8 > >
 COpm::RestartIO::Helpers::WindowedMatrix< T >Provide read-only and read/write access to constantly sized portions/windows of a linearised buffer with an implied row/column matrix (2D array) structure
 COpm::RestartIO::Helpers::WindowedMatrix< double >
 COpm::RestartIO::Helpers::WindowedMatrix< float >
 COpm::RestartIO::Helpers::WindowedMatrix< int >
 COpm::RestartIO::Helpers::WindowedArray< T >::WindowSizeDistinct compile-time type for size of windows (number of data items per window.)
 COpm::WList
 COpm::WListManager
 COpm::WriteRestartFileEvents
 COpm::WellTestConfig::WTESTWell
 COpm::WellTestState::WTestWell
 COpm::WVFPDP
 COpm::WVFPEXP
 COpm::TimeStampUTC::YMD
 COpm::ZcornMapper
 COpm::Ts