Class Hierarchy
This inheritance list is sorted roughly, but not completely, alphabetically:
[detail level 123]
 COpm::BinaryCoeff::Air_MesityleneBinary coefficients for water and mesitylene
 COpm::BinaryCoeff::Air_XyleneBinary coefficients for water and xylene
 COpm::BaseFluidSystem< Scalar, Implementation >The base class for all fluid systems
 COpm::BaseFluidSystem< Scalar, BlackOil< Scalar > >
 COpm::BaseFluidSystem< Scalar, BrineCO2< Scalar, CO2Tables > >
 COpm::BaseFluidSystem< Scalar, H2OAir< Scalar, H2Otype, useComplexRelations > >
 COpm::BaseFluidSystem< Scalar, H2OAirMesitylene< Scalar > >
 COpm::BaseFluidSystem< Scalar, H2OAirXylene< Scalar > >
 COpm::BaseFluidSystem< Scalar, H2ON2< Scalar, useComplexRelations > >
 COpm::BaseFluidSystem< Scalar, H2ON2LiquidPhase< Scalar, useComplexRelations > >
 COpm::BaseFluidSystem< Scalar, SinglePhase< Scalar, Fluid > >
 COpm::BaseFluidSystem< Scalar, Spe5< Scalar > >
 COpm::BaseFluidSystem< Scalar, TwoPhaseImmiscible< Scalar, WettingPhase, NonwettingPhase > >
 COpm::BinaryCoeff::Brine_CO2< Scalar, CO2Tables, verbose >Binary coefficients for brine and CO2
 COpm::BrooksCoreyParams< TraitsT >Specification of the material parameters for the Brooks-Corey constitutive relations
 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::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, CO2< Scalar, CO2Tables > >
 COpm::Component< Scalar, DNAPL< 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, SimpleH2O< Scalar > >
 COpm::Component< Scalar, Unit< Scalar > >
 COpm::Component< Scalar, Xylene< Scalar > >
 COpm::CompositionalFluidState< Scalar, FluidSystem, storeEnthalpy >Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assuming thermodynamic equilibrium
 COpm::CompositionFromFugacities< Scalar, FluidSystem, Evaluation >Calculates the chemical equilibrium from the component fugacities in a phase
 COpm::ComputeFromReferencePhase< Scalar, FluidSystem, Evaluation >Computes all quantities of a generic fluid state if a reference phase has been specified
 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::Constants< Scalar >A central place for various physical constants occuring in some equations
 COpm::DeadOilPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the oil phase without dissolved gas
 COpm::DryGasPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phase without vaporized oil
 COpm::DummyHeatConductionLaw< ScalarT >Implements a dummy law for heat conduction to which isothermal models can fall back to
 COpm::EclDefaultMaterialParams< Traits, GasOilParamsT, OilWaterParamsT >Default implementation for the parameters required by the default three-phase capillary pressure model used by Eclipse
 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::EclEpsTwoPhaseLawParams< EffLawT >A default implementation of the parameters for the material law adapter class which implements ECL endpoint scaleing
 COpm::EclHysteresisConfigSpecifies the configuration used by the ECL kr/pC hysteresis code
 COpm::EclHysteresisTwoPhaseLawParams< EffLawT >A default implementation of the parameters for the material law which implements the ECL relative permeability and capillary pressure hysteresis
 COpm::EclMaterialLawManager< TraitsT >Provides an simple way to create and manage the material law objects for a complete ECL deck
 COpm::EclStone1MaterialParams< Traits, GasOilParamsT, OilWaterParamsT >Default implementation for the parameters required by the three-phase capillary pressure/relperm Stone 2 model used by Eclipse
 COpm::EclStone2MaterialParams< Traits, GasOilParamsT, OilWaterParamsT >Default implementation for the parameters required by the three-phase capillary pressure/relperm Stone 2 model used by Eclipse
 COpm::EclTwoPhaseMaterialParams< Traits, GasOilParamsT, OilWaterParamsT >Implementation for the parameters required by the material law for two-phase simulations
 CEffLawParamsT
 COpm::LocalAd::Evaluation< ScalarT, VarSetTag, numVars >Represents a function evaluation and its derivatives w.r.t. a fixed set of variables
 CDune::FieldTraits< Opm::LocalAd::Evaluation< Scalar, VarSetTag, numVars > >
 COpm::FluidHeatConduction< FluidSystem, ScalarT, phaseIdx, ParamsT >Implements a heat conduction law which just takes the conductivity of a given fluid phase
 COpm::FluidHeatConductionParams< ScalarT >Parameters for the heat conduction law which just takes the conductivity of a given fluid phase
 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::GasPhase< Scalar, ComponentT >Represents the gas phase of a single (pseudo-) component
 COpm::GasPvtMultiplexer< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phase in the black-oil model
 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::IdealGas< Scalar >Relations valid for an ideal gas
 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::LinearMaterialParams< TraitsT >Reference implementation of params for the linear M-phase material material
 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::MathToolbox< Evaluation, isScalar >
 COpm::MathToolbox< Opm::LocalAd::Evaluation< ScalarT, VariableSetTag, numVars >, false >
 COpm::MathToolbox< ScalarT, true >
 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
 COpm::NcpFlash< Scalar, FluidSystem >Determines the phase compositions, pressures and saturations given the total mass of all components
 COpm::NonEquilibriumFluidState< Scalar, FluidSystem, storeEnthalpy >Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system not assuming thermodynamic equilibrium
 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::OilPvtMultiplexer< Scalar >This class represents the Pressure-Volume-Temperature relations of the oil phase in the black-oil model
 COpm::ParameterCacheBase< Implementation >The base class of the parameter caches of fluid systems
 COpm::ParameterCacheBase< NullParameterCache >
 COpm::ParameterCacheBase< Spe5ParameterCache< Scalar, FluidSystem > >
 COpm::ParkerLenhardParams< TraitsT >Default parameter class for the Parker-Lenhard hysteresis model
 COpm::PengRobinson< Scalar >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::PiecewiseLinearTwoPhaseMaterialParams< TraitsT >Specification of the material parameters for a two-phase material law which uses a table and piecewise constant interpolation
 COpm::PLScanningCurve< ScalarT >Represents a scanning curve in the Parker-Lenhard hysteresis model
 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::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::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::Somerton< FluidSystem, ScalarT, ParamsT >Implements the Somerton law of heat conductivity in a porous medium
 COpm::SomertonParams< numPhases, ScalarT >The default implementation of a parameter object for the Somerton heatconduction law
 COpm::Spline< Scalar >Class implementing cubic splines
 COpm::SplineTwoPhaseMaterialParams< TraitsT >Specification of the material parameters for a two-phase material law which uses a table and spline-based interpolation
 COpm::Tabulated1DFunction< Scalar >Implements a linearly interpolated scalar function that depends on one variable
 COpm::TabulatedComponent< ScalarT, RawComponent, useVaporPressure >A generic class which tabulates all thermodynamic properties of a given component
 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::ThreePhaseParkerVanGenuchtenParams< TraitsT >Specification of the material params for the three-phase van Genuchten capillary pressure model
 COpm::ToLhsEvalHelper< LhsEval, RhsEval, lhsIsScalar, rhsIsScalar >
 COpm::ToLhsEvalHelper< LhsEval, RhsEval, false, false >
 COpm::ToLhsEvalHelper< LhsEval, RhsEval, true, false >
 COpm::ToLhsEvalHelper< LhsEval, RhsEval, true, true >
 CTraits
 CTraits
 CTraitsT
 COpm::TridiagonalMatrix< Scalar >Provides a tridiagonal matrix that also supports non-zero entries in the upper right and lower left
 COpm::TwoPhaseMaterialTraits< ScalarT, wettingPhaseIdxV, nonWettingPhaseIdxV >A generic traits class for two-phase material laws
 Ctype
 COpm::UniformTabulated2DFunction< Scalar >Implements a scalar function that depends on two variables and which is sampled on an uniform X-Y grid
 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::VanGenuchtenParams< TraitsT >Specification of the material parameters for the van Genuchten constitutive relations
 COpm::WaterPvtMultiplexer< Scalar >This class represents the Pressure-Volume-Temperature relations of the water phase in the black-oil model
 COpm::WetGasPvt< Scalar >This class represents the Pressure-Volume-Temperature relations of the gas phas with vaporized oil
 CCompositionModule
 CDensityModule
 CEnthalpyModule
 CFugacityModule
 CPressureModule
 CSaturationModule
 CTemperatureModule
 CViscosityModule