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Class Hierarchy
This inheritance list is sorted roughly, but not completely, alphabetically:
[detail level 12345]
 COpm::Parameters::AcceleratorMode
 COpm::ActionHandler< Scalar >Class handling Action support in simulator
 COpm::Parameters::ActionParsingStrictness
 COpm::AdaptiveTimeStepping< TypeTag >
 COpm::Parameters::AddCorners
 COpm::aligned_allocator< T, Alignment >
 COpm::aligned_allocator< void, Alignment >
 COpm::KeywordValidation::allow_values< T >
 COpm::Parameters::AllowDistributedWells
 COpm::Parameters::AllowSplittingInactiveWells
 COpm::ALQState< Scalar >
 COpm::ALQState< FluidSystem::Scalar >
 COpm::ALQState< GetPropType< TypeTag, Properties::Scalar > >
 COpm::Parameters::AlternativeWellRateInit
 COpm::Properties::TTag::AluGridVanguard
 COpm::Parameters::AmgCoarsenTargetThe target number of DOFs per processor for the parallel algebraic multi-grid solver
 COpm::AMGHelper< Operator, Comm, Matrix, Vector >
 COpm::AMGSmootherArgsHelper< Smoother >
 COpm::AMGSmootherArgsHelper< ParallelOverlappingILU0< M, V, V, C > >
 CAmgx::AmgxConfigConfiguration structure for AMGX parameters
 COpm::AquiferInterface< TypeTag >
 COpm::Properties::AquiferModel< TypeTag, MyTypeTag >
 COpm::Properties::AquiferModel< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::AquiferModel< TypeTag, TTag::FlowProblem >
 CDune::AssembledLinearOperator
 COpm::Properties::TTag::AutoDiffLocalLinearizer
 COpm::Properties::Tag::AuxModule
 COpm::RegionAttributeHelpers::AverageIncrementCalculator< Scalar, is_parallel >Computes the temperature, pressure, and counter increment
 COpm::RegionAttributeHelpers::AverageIncrementCalculator< Scalar, false >
 COpm::RegionAverageCalculator::AverageRegionalPressure< FluidSystem, Region >Computes hydrocarbon weighed average pressures over regions
 COpm::BaseAquiferModel< TypeTag >The base class which specifies the API of aquifer models
 COpm::BaseAuxiliaryModule< TypeTag >Base class for specifying auxiliary equations
 COpm::Properties::BaseDiscretizationType< TypeTag, MyTypeTag >
 COpm::Properties::BaseDiscretizationType< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::BaseDiscretizationType< TypeTag, TTag::FvBaseDiscretization >
 COpm::Properties::BaseEpsilon< TypeTag, MyTypeTag >
 COpm::Properties::BaseEpsilon< TypeTag, TTag::FiniteDifferenceLocalLinearizer >The base epsilon value for finite difference calculations
 COpm::Properties::BaseLinearizer< TypeTag, MyTypeTag >Linearizes the global non-linear system of equations
 COpm::BaseOutputModule< TypeTag >The base class for writer modules
 COpm::BaseOutputWriterThe base class for all output writers
 COpm::Properties::BaseProblem< TypeTag, MyTypeTag >The type of the base class for all problems which use this model
 COpm::Properties::BaseProblem< TypeTag, TTag::BlackOilModel >The Problem property
 COpm::Properties::BaseProblem< TypeTag, TTag::DiscreteFractureModel >The class for the model
 COpm::Properties::BaseProblem< TypeTag, TTag::MultiPhaseBaseModel >The type of the base base class for actual problems
 COpm::Properties::BaseProblem< TypeTag, TTag::NcpModel >The type of the base base class for actual problems
 COpm::BaseVanguard< TypeTag >Provides the base class for most (all?) simulator vanguards
 Cboost::property_tree::basic_ptree< T1, T2, T3 >
 COpm::GasLiftSingleWellGeneric< Scalar >::BasicRates
 COpm::FlowProblem< TypeTag >::BCData< T >
 COpm::FlowProblem< TypeTag >::BCData< int >
 CBCRSMatrix
 Crocalution::BiCGStab< Matrix, Vector, Scalar >
 COpm::Linear::BiCGStabSolver< LinearOperator, Vector, Preconditioner >Implements a preconditioned stabilized BiCG linear solver
 COpm::Linear::BlackListExpresses which degrees of freedom are blacklisted for the parallel linear solvers and which domestic indices they correspond to
 COpm::BlackoilAquiferModel< TypeTag >Class for handling the blackoil aquifer model
 CBlackOilBrineIntensiveQuantitiesProvides the volumetric quantities required for the equations needed by the brine extension of the black-oil model
 COpm::BlackOilBrineIntensiveQuantities< TypeTag, enableBrineV >
 COpm::BlackOilBrineIntensiveQuantities< TypeTag, false >
 COpm::BlackOilBrineModule< TypeTag, enableBrineV >Contains the high level supplements required to extend the black oil model by brine
 COpm::BlackOilBrineParams< Scalar >Struct holding the parameters for the BlackoilBrineModule class
 COpm::Properties::BlackoilConserveSurfaceVolume< TypeTag, MyTypeTag >Enable surface volume scaling
 COpm::Properties::BlackoilConserveSurfaceVolume< TypeTag, TTag::BlackOilModel >
 COpm::Properties::BlackoilConserveSurfaceVolume< TypeTag, TTag::FlowProblem >
 COpm::BlackOilConvectiveMixingModule< TypeTag, enableConvectiveMixing >
 COpm::BlackOilConvectiveMixingModule< TypeTag, false >
 COpm::BlackOilConvectiveMixingModule< TypeTag, true >
 COpm::BlackOilDarcyFluxModule< TypeTag >Provides a Darcy flux module for the blackoil model
 COpm::BlackOilDiffusionExtensiveQuantities< TypeTag, enableDiffusion >Provides the quantities required to calculate diffusive mass fluxes
 COpm::BlackOilDiffusionExtensiveQuantities< TypeTag, false >Provides the quantities required to calculate diffusive mass fluxes.
 COpm::BlackOilDiffusionExtensiveQuantities< TypeTag, getPropValue< TypeTag, Properties::EnableDiffusion >()>
 COpm::BlackOilDiffusionExtensiveQuantities< TypeTag, true >Provides the quantities required to calculate diffusive mass fluxes.
 COpm::BlackOilDiffusionIntensiveQuantities< TypeTag, enableDiffusion >Provides the volumetric quantities required for the calculation of molecular diffusive fluxes
 COpm::BlackOilDiffusionIntensiveQuantities< TypeTag, false >Provides the volumetric quantities required for the calculation of molecular diffusive fluxes.
 COpm::BlackOilDiffusionIntensiveQuantities< TypeTag, getPropValue< TypeTag, Properties::EnableDiffusion >() >
 COpm::BlackOilDiffusionIntensiveQuantities< TypeTag, true >Provides the volumetric quantities required for the calculation of molecular diffusive fluxes.
 COpm::BlackOilDiffusionModule< TypeTag, enableDiffusion >Provides the auxiliary methods required for consideration of the diffusion equation
 COpm::BlackOilDiffusionModule< TypeTag, false >Provides the auxiliary methods required for consideration of the diffusion equation.
 COpm::BlackOilDiffusionModule< TypeTag, true >Provides the auxiliary methods required for consideration of the diffusion equation.
 COpm::BlackOilDispersionExtensiveQuantities< TypeTag, enableDispersion >Provides the quantities required to calculate dispersive mass fluxes
 COpm::BlackOilDispersionExtensiveQuantities< TypeTag, false >get the value data member of a property
 COpm::BlackOilDispersionExtensiveQuantities< TypeTag, true >Provides the quantities required to calculate dispersive mass fluxes.
 COpm::BlackOilDispersionIntensiveQuantities< TypeTag, enableDispersion >Provides the volumetric quantities required for the calculation of dispersive fluxes
 COpm::BlackOilDispersionIntensiveQuantities< TypeTag, false >
 COpm::BlackOilDispersionIntensiveQuantities< TypeTag, getPropValue< TypeTag, Properties::EnableDispersion >() >
 COpm::BlackOilDispersionIntensiveQuantities< TypeTag, true >
 COpm::BlackOilDispersionModule< TypeTag, enableDispersion >Provides the auxiliary methods required for consideration of the dispersion equation
 COpm::BlackOilDispersionModule< TypeTag, false >Provides the auxiliary methods required for consideration of the dispersion equation.
 COpm::BlackOilDispersionModule< TypeTag, true >Provides the auxiliary methods required for consideration of the dispersion equation.
 COpm::BlackOilEnergyExtensiveQuantities< TypeTag, enableEnergyV >Provides the energy specific extensive quantities to the generic black-oil module's extensive quantities
 COpm::BlackOilEnergyExtensiveQuantities< TypeTag, false >
 COpm::BlackOilEnergyIntensiveQuantities< TypeTag, enableEnergyV >Provides the volumetric quantities required for the equations needed by the energys extension of the black-oil model
 COpm::BlackOilEnergyIntensiveQuantities< TypeTag, false >
 COpm::BlackOilEnergyModule< TypeTag, enableEnergyV >Contains the high level supplements required to extend the black oil model by energy
 COpm::Properties::BlackOilEnergyScalingFactor< TypeTag, MyTypeTag >The relative weight of the residual of the energy equation compared to the mass residuals
 COpm::Properties::BlackOilEnergyScalingFactor< TypeTag, TTag::BlackOilModel >By default, scale the energy equation by the inverse of the energy required to heat up one kg of water by 30 Kelvin
 COpm::BlackOilExtboExtensiveQuantities< TypeTag, enableExtboV >Provides the solvent specific extensive quantities to the generic black-oil module's extensive quantities
 COpm::BlackOilExtboExtensiveQuantities< TypeTag, false >
 COpm::BlackOilExtboIntensiveQuantities< TypeTag, enableExtboV >Provides the volumetric quantities required for the equations needed by the solvents extension of the black-oil model
 COpm::BlackOilExtboIntensiveQuantities< TypeTag, false >
 COpm::BlackOilExtboModule< TypeTag, enableExtboV >Contains the high level supplements required to extend the black oil model
 COpm::BlackOilExtboParams< Scalar >Struct holding the parameters for the BlackoilExtboModule class
 COpm::BlackOilFoamIntensiveQuantities< TypeTag, enableFoam >Provides the volumetric quantities required for the equations needed by the polymers extension of the black-oil model
 COpm::BlackOilFoamIntensiveQuantities< TypeTag, false >
 COpm::BlackOilFoamModule< TypeTag, enableFoamV >Contains the high level supplements required to extend the black oil model to include the effects of foam
 COpm::BlackOilFoamParams< Scalar >Struct holding the parameters for the BlackoilFoamModule class
 COpm::BlackOilIndices< numSolventsV, numExtbosV, numPolymersV, numEnergyV, enableFoam, enableBrine, PVOffset, numMICPsV >The primary variable and equation indices for the black-oil model
 COpm::BlackOilMICPExtensiveQuantities< TypeTag, enableMICPV >Provides the MICP specific extensive quantities to the generic black-oil module's extensive quantities
 COpm::BlackOilMICPExtensiveQuantities< TypeTag, false >
 COpm::BlackOilMICPIntensiveQuantities< TypeTag, enableMICPV >Provides the volumetric quantities required for the equations needed by the MICP extension of the black-oil model
 COpm::BlackOilMICPIntensiveQuantities< TypeTag, false >
 COpm::BlackOilMICPModule< TypeTag, enableMICPV >Contains the high level supplements required to extend the black oil model by MICP
 COpm::BlackOilMICPParams< Scalar >Struct holding the parameters for the BlackOilMICPModule class
 COpm::BlackoilModel< TypeTag >A model implementation for three-phase black oil
 COpm::Properties::TTag::BlackOilModelThe type tag for the black-oil problems
 COpm::BlackoilModelConvergenceMonitor< Scalar >Implementation of penalty cards for three-phase black oil
 COpm::BlackoilModelNldd< TypeTag >A NLDD implementation for three-phase black oil
 COpm::BlackoilModelParameters< Scalar >Solver parameters for the BlackoilModel
 COpm::BlackoilNewtonParams< Scalar >Struct holding the parameters for BlackoilNewtonMethod
 COpm::BlackOilOnePhaseIndices< numSolventsV, numExtbosV, numPolymersV, numEnergyV, enableFoam, enableBrine, PVOffset, canonicalCompIdx, numMICPsV >The primary variable and equation indices for the black-oil model
 COpm::BlackoilPhases
 COpm::BlackOilPolymerExtensiveQuantities< TypeTag, enablePolymerV >Provides the polymer specific extensive quantities to the generic black-oil module's extensive quantities
 COpm::BlackOilPolymerExtensiveQuantities< TypeTag, false >
 COpm::BlackOilPolymerIntensiveQuantities< TypeTag, enablePolymerV >Provides the volumetric quantities required for the equations needed by the polymers extension of the black-oil model
 COpm::BlackOilPolymerIntensiveQuantities< TypeTag, false >
 COpm::BlackOilPolymerModule< TypeTag, enablePolymerV >Contains the high level supplements required to extend the black oil model by polymer
 COpm::BlackOilPolymerParams< Scalar >Struct holding the parameters for the BlackOilPolymerModule class
 COpm::BlackOilSolventExtensiveQuantities< TypeTag, enableSolventV >Provides the solvent specific extensive quantities to the generic black-oil module's extensive quantities
 COpm::BlackOilSolventExtensiveQuantities< TypeTag, false >
 COpm::BlackOilSolventIntensiveQuantities< TypeTag, enableSolventV >Provides the volumetric quantities required for the equations needed by the solvents extension of the black-oil model
 COpm::BlackOilSolventIntensiveQuantities< TypeTag, false >
 COpm::BlackOilSolventModule< TypeTag, enableSolventV >Contains the high level supplements required to extend the black oil model by solvents
 COpm::BlackOilSolventParams< Scalar >Struct holding the parameters for the BlackOilSolventModule class
 COpm::BlackOilTwoPhaseIndices< numSolventsV, numExtbosV, numPolymersV, numEnergyV, enableFoam, enableBrine, PVOffset, disabledCanonicalCompIdx, numMICPsV >The primary variable and equation indices for the black-oil model
 COpm::BlackoilWellModelConstraints< Scalar >Class for handling constraints for the blackoil well model
 COpm::BlackoilWellModelGasLiftGeneric< Scalar >
 COpm::BlackoilWellModelGasLiftGeneric< GetPropType< TypeTag, Properties::Scalar > >
 COpm::BlackoilWellModelGeneric< Scalar >Class for handling the blackoil well model
 COpm::BlackoilWellModelGeneric< GetPropType< TypeTag, Properties::Scalar > >
 COpm::BlackoilWellModelGuideRates< Scalar >Class for handling the guide rates in the blackoil well model
 COpm::BlackoilWellModelNlddGeneric< Scalar >
 COpm::BlackoilWellModelNlddGeneric< GetPropType< TypeTag, Properties::Scalar > >
 COpm::BlackoilWellModelRestart< Scalar >Class for restarting the blackoil well model
 COpm::BlackoilWellModelWBP< Scalar >Class for handling the blackoil well model
 COpm::BlackoilWellModelWBP< GetPropType< TypeTag, Properties::Scalar > >
 COpm::Accelerator::BlockedMatrix< Scalar >This struct resembles a blocked csr matrix, like Dune::BCRSMatrix
 COpm::detail::BlockExtractor< TypeTag >Wrapping struct holding types used for block-level data extraction
 CDune::BlockVector
 COpm::FvBaseDiscretization< TypeTag >::BlockVectorWrapper
 Cstd::bool_constant
 COpm::Linear::BorderIndexA single index intersecting with the process boundary
 COpm::Properties::BorderListCreator< TypeTag, MyTypeTag >The class which marks the border indices associated with the degrees of freedom on a process boundary
 COpm::Properties::BorderListCreator< TypeTag, TTag::EcfvDiscretization >Set the border list creator for to the one of an element based method
 COpm::Properties::BorderListCreator< TypeTag, TTag::FvBaseDiscretization >Marks the border indices (required for the algebraic overlap stuff)
 COpm::Properties::BorderListCreator< TypeTag, TTag::VcfvDiscretization >Set the border list creator for vertices
 COpm::Properties::BoundaryContext< TypeTag, MyTypeTag >The secondary variables of a boundary segment
 COpm::Properties::BoundaryContext< TypeTag, TTag::FvBaseDiscretization >
 COpm::BoundaryPressureCallback< TypeTag, FluidState >Callback class for a phase pressure
 COpm::Properties::BoundaryRateVector< TypeTag, MyTypeTag >Type of object for specifying boundary conditions
 COpm::Properties::BoundaryRateVector< TypeTag, TTag::BlackOilModel >BoundaryRateVector property
 COpm::Properties::BoundaryRateVector< TypeTag, TTag::FlashModel >BoundaryRateVector property
 COpm::Properties::BoundaryRateVector< TypeTag, TTag::FvBaseDiscretization >Type of object for specifying boundary conditions
 COpm::Properties::BoundaryRateVector< TypeTag, TTag::ImmiscibleModel >BoundaryRateVector property
 COpm::Properties::BoundaryRateVector< TypeTag, TTag::NcpModel >BoundaryRateVector property
 COpm::Properties::BoundaryRateVector< TypeTag, TTag::PvsModel >BoundaryRateVector property
 COpm::Properties::BoundaryRateVector< TypeTag, TTag::Richards >BoundaryRateVector property
 CDune::CartesianIndexMapper< Grid >
 CDune::CartesianIndexMapper< Dune::ALUGrid< 3, 3, Dune::cube, Dune::nonconforming > >Interface class to access the logical Cartesian grid as used in industry standard simulator decks
 CDune::CartesianIndexMapper< EquilGrid >
 CDune::CartesianIndexMapper< GetPropType< TypeTag, Properties::EquilGrid > >
 CDune::CartesianIndexMapper< GetPropType< TypeTag, Properties::Grid > >
 COpm::InterRegFlowMapSingleFIP::CellMinimal characteristics of a cell from a simulation grid
 COpm::Parameters::CellsXGrid resolution
 COpm::Parameters::CellsY
 COpm::Parameters::CellsZ
 COpm::RegionPhasePoreVolAverage::CellValueMinimal characteristics of a cell from a simulation grid
 COpm::SatfuncConsistencyChecks< Scalar >::CheckCall-back interface for an individual check
 COpm::CheckDistributedWellConnections< Scalar >Class checking that all connections are on active cells
 COpm::Parameters::CheckGroupConstraintsInnerWellIterations
 COpm::Parameters::CheckSatfuncConsistency
 COpm::FIPContainer< FluidSystem >::Co2InGasInput
 COpm::CollectDataOnIORank< Grid, EquilGrid, GridView >
 COpm::CollectDataOnIORank< GetPropType< TypeTag, Properties::Grid >, GetPropType< TypeTag, Properties::EquilGrid >, GetPropType< TypeTag, Properties::GridView > >
 CDune::CommDataHandleIF
 COpm::CommunicateAboveBelow< Scalar >Class to facilitate getting values associated with the above/below perforation
 COpm::ComponentName< FluidSystem, Indices >
 COpm::CompositionalContainer< FluidSystem >
 COpm::ConnectionIndexMapConnection index mappings
 COpm::ConnFiltrateData< Scalar >
 COpm::ConnFracStatistics< Scalar >Collection of fracturing statistics measures at the connection level
 COpm::Properties::Constraints< TypeTag, MyTypeTag >The class which represents a constraint degree of freedom
 COpm::Properties::Constraints< TypeTag, TTag::FvBaseDiscretization >The class which represents constraints
 COpm::Properties::ConstraintsContext< TypeTag, MyTypeTag >The secondary variables of a constraint degree of freedom
 COpm::Properties::ConstraintsContext< TypeTag, TTag::FvBaseDiscretization >
 CDune::Amg::ConstructionTraits< MultithreadDILU< M, X, Y > >Policy for the construction of the MultithreadDILU smoother
 CDune::Amg::ConstructionTraits< Opm::ParallelRestrictedOverlappingSchwarz< Range, Domain, ParallelInfo, SeqPreconditioner > >Tells AMG how to construct the Opm::ParallelOverlappingILU0 smoother
 COpm::detail::BlockExtractor< TypeTag >::ContextContext passed to element extractor functions
 COpm::detail::Extractor< TypeTag >::ContextContext passed to extractor functions
 COpm::Parameters::ContinueOnConvergenceErrorContinue with a non-converged solution instead of giving up if we encounter a time step size smaller than the minimum time step size
 COpm::BlackOilConvectiveMixingModule< TypeTag, false >::ConvectiveMixingModuleParam
 COpm::BlackOilConvectiveMixingModule< TypeTag, true >::ConvectiveMixingModuleParam
 COpm::Linear::ConvergenceCriterion< Vector >Base class for all convergence criteria which only defines an virtual API
 COpm::Parameters::ConvergenceMonitoring
 COpm::Parameters::ConvergenceMonitoringCutOff
 COpm::Parameters::ConvergenceMonitoringDecayFactor< Scalar >
 COpm::BlackoilModelParameters< Scalar >::ConvergenceMonitorParamsStruct holding convergence monitor params
 COpm::ConvergenceOutputConfigurationParse comma separated option strings into a runtime configuration object for whether to output additional convergence information and, if so, what information to output
 COpm::ConvergenceOutputThreadEncapsulating object for thread processing producer's convergence output requests
 COpm::ConvergenceReportRepresents the convergence status of the whole simulator, to make it possible to query and store the reasons for convergence failures
 COpm::ConvergenceReportQueueCommunication channel between thread creating output requests and consumer thread writing those requests to a file
 COpm::Properties::ConvergenceWriter< TypeTag, MyTypeTag >Specifies whether the convergence rate and the global residual gets written out to disk for every Newton iteration
 COpm::CopyGatherScatter< Scalar >
 COpm::CopyRestrictProlong< Grid, Container >
 COpm::CopyRestrictProlongTraits< Grid, Container >
 COpm::Properties::TTag::CpGridVanguard
 COpm::Accelerator::CprCreation< Scalar, block_size >This class implements a Constrained Pressure Residual (CPR) preconditioner
 COpm::Parameters::CprReuseInterval
 COpm::Parameters::CprReuseSetup
 COpm::ParallelOverlappingILU0< Matrix, Domain, Range, ParallelInfoT >::CRS
 COpm::gpuistl::detail::CuBlasHandleSingleton for the simulator universal cuBlasHandle
 COpm::gpuistl::detail::CuSparseHandleSingleton for the simulator universal cuSparseHandle
 COpm::gpuistl::detail::CuSparseResource< T >The CuSparseResource class wraps a CuSparse resource in a proper RAII pattern
 COpm::gpuistl::detail::CuSparseResource< bsrilu02Info_t >
 COpm::gpuistl::detail::CuSparseResource< bsrsv2Info_t >
 COpm::Parameters::DamarisDaskFile
 COpm::Parameters::DamarisDedicatedCores
 COpm::Parameters::DamarisDedicatedNodes
 COpm::Parameters::DamarisLimitVariables
 COpm::Parameters::DamarisLogLevel
 COpm::Parameters::DamarisOutputHdfCollective
 COpm::Parameters::DamarisPythonParaviewScript
 COpm::Parameters::DamarisPythonScript
 COpm::Parameters::DamarisSaveMeshToHdf
 COpm::Parameters::DamarisSaveToHdf
 COpm::DamarisOutput::DamarisSettings
 COpm::Parameters::DamarisSharedMemoryName
 COpm::Parameters::DamarisSharedMemorySizeBytes
 COpm::Parameters::DamarisSimName
 COpm::DamarisOutput::DamarisVar< T >Class to store a Damaris variable representation for the XML file (can be used with class DamarisKeywords)
 COpm::DamarisOutput::DamarisVarXMLAttributesThis class contains the extra elements that need to be part of a Damaris <variable> type
 COpm::DarcyBaseProblem< TypeTag >Provides the defaults for the parameters required by the Darcy velocity approach
 COpm::DarcyExtensiveQuantities< TypeTag >Provides the Darcy flux module
 COpm::DarcyFluxModule< TypeTag >Specifies a flux module which uses the Darcy relation
 COpm::DarcyIntensiveQuantities< TypeTag >Provides the intensive quantities for the Darcy flux module
 CP2PCommunicatorType::DataHandleInterface
 COpm::Parameters::DbhpMaxRel< Scalar >
 COpm::Parameters::DebugEmitCellPartition
 CDune::Amg::DefaultSmootherArgs
 COpm::DeferredLogger
 COpm::DensityCallback< TypeTag >Callback class for the density of a phase
 COpm::StandardWellConnections< FluidSystem, Indices >::DensityPropertyFunctions
 COpm::DiffusionExtensiveQuantities< TypeTag, enableDiffusion >Provides the quantities required to calculate diffusive mass fluxes
 COpm::DiffusionExtensiveQuantities< TypeTag, false >Provides the quantities required to calculate diffusive mass fluxes.
 COpm::DiffusionExtensiveQuantities< TypeTag, getPropValue< TypeTag, Properties::EnableDiffusion >()>
 COpm::DiffusionExtensiveQuantities< TypeTag, true >Provides the quantities required to calculate diffusive mass fluxes.
 COpm::DiffusionIntensiveQuantities< TypeTag, enableDiffusion >Provides the volumetric quantities required for the calculation of molecular diffusive fluxes
 COpm::DiffusionIntensiveQuantities< TypeTag, false >Provides the volumetric quantities required for the calculation of molecular diffusive fluxes.
 COpm::DiffusionIntensiveQuantities< TypeTag, getPropValue< TypeTag, Properties::EnableDiffusion >() >
 COpm::DiffusionIntensiveQuantities< TypeTag, true >Provides the volumetric quantities required for the calculation of molecular diffusive fluxes.
 COpm::DiffusionModule< TypeTag, enableDiffusion >Provides the auxiliary methods required for consideration of the diffusion equation
 COpm::DiffusionModule< TypeTag, false >Provides the auxiliary methods required for consideration of the diffusion equation.
 COpm::DiffusionModule< TypeTag, true >Provides the auxiliary methods required for consideration of the diffusion equation.
 COpm::DirectionalMobility< TypeTag, Evaluation >
 COpm::Properties::DiscBaseIntensiveQuantities< TypeTag, MyTypeTag >The part of the intensive quantities which is specific to the spatial discretization
 COpm::Properties::DiscBaseOutputModule< TypeTag, MyTypeTag >The part of the VTK ouput modules which is specific to the spatial discretization
 COpm::Properties::DiscBaseOutputModule< TypeTag, TTag::EcfvDiscretization >The base class for the output modules (decides whether to write element or vertex based fields)
 COpm::Properties::DiscBaseOutputModule< TypeTag, TTag::VcfvDiscretization >The base class for the output modules (decides whether to write element or vertex based fields)
 COpm::Properties::DiscExtensiveQuantities< TypeTag, MyTypeTag >The part of the extensive quantities which is specific to the spatial discretization
 COpm::Properties::DiscExtensiveQuantities< TypeTag, TTag::FvBaseDiscretization >
 COpm::Properties::DiscIntensiveQuantities< TypeTag, MyTypeTag >The discretization specific part of the intensive quantities
 COpm::Properties::DiscIntensiveQuantities< TypeTag, TTag::FvBaseDiscretization >
 COpm::Properties::DiscLocalResidual< TypeTag, MyTypeTag >The discretization specific part of the local residual
 COpm::Properties::DiscLocalResidual< TypeTag, TTag::FvBaseDiscretization >
 COpm::Properties::DiscNewtonMethod< TypeTag, MyTypeTag >The discretization specific part of he implementing the Newton algorithm
 COpm::Properties::DiscNewtonMethod< TypeTag, TTag::FvBaseNewtonMethod >
 COpm::Properties::TTag::DiscreteFractureModelThe generic type tag for problems using the immiscible multi-phase model
 COpm::Properties::DiscreteFunction< TypeTag, MyTypeTag >
 COpm::Properties::DiscreteFunction< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::DiscreteFunction< TypeTag, TTag::FvBaseDiscretization >
 COpm::Properties::DiscreteFunctionSpace< TypeTag, MyTypeTag >The class describing the discrete function space when dune-fem is used, otherwise it points to the stencil class
 COpm::Properties::DiscreteFunctionSpace< TypeTag, TTag::EcfvDiscretization >
 COpm::Properties::DiscreteFunctionSpace< TypeTag, TTag::VcfvDiscretization >
 COpm::Properties::Discretization< TypeTag, MyTypeTag >The type of the spatial discretization used by the model
 COpm::Properties::Discretization< TypeTag, TTag::EcfvDiscretization >The concrete class which manages the spatial discretization
 COpm::Properties::Discretization< TypeTag, TTag::VcfvDiscretization >The concrete class which manages the spatial discretization
 COpm::Properties::DofMapper< TypeTag, MyTypeTag >The mapper to find the global index of a degree of freedom
 COpm::Properties::DofMapper< TypeTag, TTag::EcfvDiscretization >Mapper for the degrees of freedoms
 COpm::Properties::DofMapper< TypeTag, TTag::VcfvDiscretization >Mapper for the degrees of freedoms
 COpm::Parameters::DomainSizeX< Scalar >Domain size
 COpm::Parameters::DomainSizeY< Scalar >
 COpm::Parameters::DomainSizeZ< Scalar >
 COpm::Linear::DomesticOverlapFromBCRSMatrixThis class creates and manages the foreign overlap given an initial list of border indices and a BCRS matrix
 COpm::Parameters::DpMaxRel< Scalar >
 COpm::Parameters::DsMax< Scalar >
 COpm::DummyGradientCalculator< TypeTag >This is a "dummy" gradient calculator which does not do anything
 COpm::Properties::DummySpaceEcfv< TypeTag >
 COpm::Properties::DummySpaceVcfv< TypeTag >
 COpm::Parameters::DwellFractionMax< Scalar >
 COpm::EcfvBaseOutputModule< TypeTag >Implements the discretization specific parts of writing files
 COpm::Properties::TTag::EcfvDiscretization
 COpm::EcfvGridCommHandleFactory< TypeTag >A class which provides types for DUNE grid handles for communication
 COpm::EcfvStencil< Scalar, GridView, needFaceIntegrationPos, needFaceNormal >Represents the stencil (finite volume geometry) of a single element in the ECFV discretization
 COpm::EcfvStencil< Scalar, GridView, needFaceIntegrationPos, needFaceNormal >::EcfvSubControlVolumeFace< needIntegrationPos, needNormal >Represents a face of a sub-control volume
 COpm::Parameters::EclDeckFileName
 COpm::EclEpsScalingPointsInfo< Scalar >
 COpm::EclGenericWriter< Grid, EquilGrid, GridView, ElementMapper, Scalar >
 COpm::EclGenericWriter< GetPropType< TypeTag, Properties::Grid >, GetPropType< TypeTag, Properties::EquilGrid >, GetPropType< TypeTag, Properties::GridView >, GetPropType< TypeTag, Properties::ElementMapper >, GetPropType< TypeTag, Properties::Scalar > >
 CEclipseState
 COpm::Parameters::EclOutputDoublePrecision
 COpm::Parameters::EclOutputInterval
 COpm::Parameters::EdgeWeightsMethod
 COpm::Linear::ElementBorderListFromGrid< GridView, ElementMapper >Uses communication on the grid to find the initial seed list of indices for methods which use element-based degrees of freedom
 COpm::Properties::ElementContext< TypeTag, MyTypeTag >The secondary variables of all degrees of freedom in an element's stencil
 COpm::Properties::ElementContext< TypeTag, TTag::FvBaseDiscretization >The element context
 COpm::Properties::ElementEqVector< TypeTag, MyTypeTag >A vector of holding a quantity for each equation for each DOF of an element
 COpm::Properties::ElementEqVector< TypeTag, TTag::FvBaseDiscretization >The type for storing a residual for an element
 COpm::ElementIndexHandle< Mapper >Communication handle to scatter the global index
 COpm::ElementIndexScatterHandle< EquilMapper, Mapper >Communication handle to scatter the global index
 COpm::Properties::ElementMapper< TypeTag, MyTypeTag >The mapper to find the global index of an element
 COpm::Properties::ElementMapper< TypeTag, TTag::FvBaseDiscretization >Mapper for the grid view's elements
 COpm::EmptyRestrictProlong
 COpm::EmptyRestrictProlongTraits
 COpm::Parameters::EnableAdaptiveTimeStepping
 COpm::Properties::EnableApiTracking< TypeTag, MyTypeTag >
 COpm::Properties::EnableApiTracking< TypeTag, TTag::FlowBaseProblem >
 COpm::Parameters::EnableAsyncEclOutput
 COpm::Parameters::EnableAsyncVtkOutputDetermines if the VTK output is written to disk asynchronously
 COpm::Properties::EnableBrine< TypeTag, MyTypeTag >Enable the ECL-blackoil extension for salt
 COpm::Properties::EnableBrine< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnableBrine< TypeTag, TTag::FlowProblem >
 COpm::Properties::EnableConstraints< TypeTag, MyTypeTag >Specify whether the some degrees of fredom can be constraint
 COpm::Properties::EnableConstraints< TypeTag, TTag::FvBaseDiscretization >
 COpm::Properties::EnableConvectiveMixing< TypeTag, MyTypeTag >Enable convective mixing?
 COpm::Properties::EnableConvectiveMixing< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnableConvectiveMixing< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableConvectiveMixing< TypeTag, TTag::FlowProblem >
 COpm::Parameters::EnableDamarisOutput
 COpm::Properties::EnableDebuggingChecks< TypeTag, MyTypeTag >
 COpm::Properties::EnableDebuggingChecks< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableDebuggingChecks< TypeTag, TTag::FlowProblem >
 COpm::Properties::EnableDiffusion< TypeTag, MyTypeTag >Enable diffusive fluxes?
 COpm::Properties::EnableDiffusion< TypeTag, TTag::BlackOilModel >Disable diffusion by default
 COpm::Properties::EnableDiffusion< TypeTag, TTag::FlashModel >
 COpm::Properties::EnableDiffusion< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableDiffusion< TypeTag, TTag::FlowBaseProblemComp >
 COpm::Properties::EnableDiffusion< TypeTag, TTag::NcpModel >Disable diffusion by default
 COpm::Properties::EnableDiffusion< TypeTag, TTag::PvsModel >
 COpm::Properties::EnableDisgasInWater< TypeTag, MyTypeTag >Enable the ECL-blackoil extension for disolution of gas into water
 COpm::Properties::EnableDisgasInWater< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnableDispersion< TypeTag, MyTypeTag >Enable dispersive fluxes?
 COpm::Properties::EnableDispersion< TypeTag, TTag::BlackOilModel >Disable disperison by default
 COpm::Properties::EnableDispersion< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableDispersion< TypeTag, TTag::FlowProblem >
 COpm::Parameters::EnableDriftCompensation
 COpm::Parameters::EnableDryRun
 COpm::Properties::EnableEclipseOutput< TypeTag, MyTypeTag >Specifies if the simulation should write output files that are compatible with those produced by the commercial Eclipse simulator
 COpm::Parameters::EnableEclOutput
 COpm::Properties::EnableEnergy< TypeTag, MyTypeTag >Specify whether energy should be considered as a conservation quantity or not
 COpm::Properties::EnableEnergy< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnableEnergy< TypeTag, TTag::FlashModel >Disable the energy equation by default
 COpm::Properties::EnableEnergy< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableEnergy< TypeTag, TTag::FlowProblem >
 COpm::Properties::EnableEnergy< TypeTag, TTag::ImmiscibleModel >Disable the energy equation by default
 COpm::Properties::EnableEnergy< TypeTag, TTag::NcpModel >Disable the energy equation by default
 COpm::Properties::EnableEnergy< TypeTag, TTag::PvsModel >Disable the energy equation by default
 COpm::Parameters::EnableEsmry
 COpm::Properties::EnableExperiments< TypeTag, MyTypeTag >Specify if experimental features should be enabled or not
 COpm::Properties::EnableExperiments< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableExperiments< TypeTag, TTag::FvBaseDiscretization >EWoms is mainly targeted at research, so experimental features are enabled by default
 COpm::Properties::EnableExtbo< TypeTag, MyTypeTag >Enable the ECL-blackoil extension for extended BO. ("Second gas" - alternative approach)
 COpm::Properties::EnableExtbo< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnableExtbo< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableFoam< TypeTag, MyTypeTag >Enable the ECL-blackoil extension for foam
 COpm::Properties::EnableFoam< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnableFoam< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableFoam< TypeTag, TTag::FlowProblem >
 COpm::Parameters::EnableGravityReturns whether gravity is considered in the problem
 COpm::Parameters::EnableGridAdaptationSwitch to enable or disable grid adaptation
 COpm::Parameters::EnableIntensiveQuantityCacheSpecify whether all intensive quantities for the grid should be cached in the discretization
 COpm::Parameters::EnableLoggingFalloutWarning
 COpm::Properties::EnableMech< TypeTag, MyTypeTag >
 COpm::Properties::EnableMech< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableMICP< TypeTag, MyTypeTag >Enable the ECL-blackoil extension for MICP
 COpm::Properties::EnableMICP< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnableMICP< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableMICP< TypeTag, TTag::FlowProblem >
 COpm::Parameters::EnableOpmRstFile
 COpm::Properties::EnablePolymer< TypeTag, MyTypeTag >Enable the ECL-blackoil extension for polymer
 COpm::Properties::EnablePolymer< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnablePolymer< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnablePolymer< TypeTag, TTag::FlowProblem >
 COpm::Properties::EnablePolymerMW< TypeTag, MyTypeTag >Enable the tracking polymer molecular weight tracking and related functionalities
 COpm::Properties::EnablePolymerMW< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnableSaltPrecipitation< TypeTag, MyTypeTag >Enable the ECL-blackoil extension for salt precipitation
 COpm::Properties::EnableSaltPrecipitation< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnableSaltPrecipitation< TypeTag, TTag::FlowProblem >
 COpm::Properties::EnableSolvent< TypeTag, MyTypeTag >Enable the ECL-blackoil extension for solvents. ("Second gas")
 COpm::Properties::EnableSolvent< TypeTag, TTag::BlackOilModel >
 COpm::Properties::EnableSolvent< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableSolvent< TypeTag, TTag::FlowProblem >
 COpm::Parameters::EnableStorageCacheSpecify whether the storage terms for previous solutions should be cached
 COpm::Properties::EnableTemperature< TypeTag, MyTypeTag >Allow the spatial and temporal domains to exhibit non-constant temperature in the black-oil model
 COpm::Properties::EnableTemperature< TypeTag, TTag::BlackOilModel >By default, the blackoil model is isothermal and does not conserve energy
 COpm::Properties::EnableTemperature< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::EnableTemperature< TypeTag, TTag::FlowProblem >
 COpm::Parameters::EnableTerminalOutput
 COpm::Properties::EnableThermalFluxBoundaries< TypeTag, MyTypeTag >
 COpm::Properties::EnableThermalFluxBoundaries< TypeTag, TTag::FlowBaseProblem >
 COpm::Parameters::EnableThermodynamicHintsSpecify whether to use the already calculated solutions as starting values of the intensive quantities
 COpm::Properties::EnableTracerModel< TypeTag, MyTypeTag >
 COpm::Parameters::EnableTuning
 COpm::Properties::EnableVapwat< TypeTag, MyTypeTag >Enable the ECL-blackoil extension for water evaporation
 COpm::Properties::EnableVapwat< TypeTag, TTag::BlackOilModel >
 COpm::Parameters::EnableVtkOutputGlobal switch to enable or disable the writing of VTK output files
 COpm::Properties::EnableWater< TypeTag, MyTypeTag >
 COpm::Properties::EnableWater< TypeTag, TTag::MultiPhaseBaseModel >
 COpm::Parameters::EnableWellOperabilityCheck
 COpm::Parameters::EnableWellOperabilityCheckIter
 COpm::Parameters::EnableWriteAllSolutions
 COpm::Parameters::EndTime< Scalar >The default value for the simulation's end time
 COpm::EnergyExtensiveQuantities< TypeTag, enableEnergy >Provides the quantities required to calculate energy fluxes
 COpm::EnergyExtensiveQuantities< TypeTag, false >Provides the quantities required to calculate energy fluxes.
 COpm::EnergyExtensiveQuantities< TypeTag, getPropValue< TypeTag, Properties::EnableEnergy >()>
 COpm::EnergyExtensiveQuantities< TypeTag, true >Provides the quantities required to calculate energy fluxes.
 COpm::EnergyIndices< PVOffset, enableEnergy >Provides the indices required for the energy equation
 COpm::EnergyIndices< 0+getPropValue< TypeTag, Properties::NumComponents >()+getPropValue< TypeTag, Properties::NumPhases >(), getPropValue< TypeTag, Properties::EnableEnergy >()>
 COpm::EnergyIndices< PVOffset+getPropValue< TypeTag, Properties::NumComponents >(), getPropValue< TypeTag, Properties::EnableEnergy >()>
 COpm::EnergyIndices< PVOffset+getPropValue< TypeTag, Properties::NumPhases >(), getPropValue< TypeTag, Properties::EnableEnergy >()>
 COpm::EnergyIndices< PVOffset, false >Provides the indices required for the energy equation.
 COpm::EnergyIndices< PVOffset, true >Provides the indices required for the energy equation.
 COpm::EnergyIntensiveQuantities< TypeTag, enableEnergy >Provides the volumetric quantities required for the energy equation
 COpm::EnergyIntensiveQuantities< TypeTag, false >Provides the volumetric quantities required for the energy equation.
 COpm::EnergyIntensiveQuantities< TypeTag, getPropValue< TypeTag, Properties::EnableEnergy >() >
 COpm::EnergyIntensiveQuantities< TypeTag, getPropValue< TypeTag, Properties::EnableEnergy >()>
 COpm::EnergyIntensiveQuantities< TypeTag, true >Provides the volumetric quantities required for the energy equation.
 COpm::EnergyModule< TypeTag, enableEnergy >Provides the auxiliary methods required for consideration of the energy equation
 COpm::EnergyModule< TypeTag, false >Provides the auxiliary methods required for consideration of the energy equation.
 COpm::EnergyModule< TypeTag, true >Provides the auxiliary methods required for consideration of the energy equation.
 COpm::detail::Extractor< TypeTag >::EntryDescriptor for extractors
 COpm::Properties::EquilGrid< TypeTag, MyTypeTag >
 COpm::Properties::EquilGrid< TypeTag, TTag::AluGridVanguard >
 COpm::Properties::EquilGrid< TypeTag, TTag::CpGridVanguard >
 COpm::Properties::EquilGrid< TypeTag, TTag::PolyhedralGridVanguard >
 COpm::EquilInitializer< TypeTag >Computes the initial condition based on the EQUIL keyword from ECL
 COpm::EQUIL::EquilReg< Scalar >Aggregate information base of an equilibration region
 COpm::Properties::EqVector< TypeTag, MyTypeTag >A vector of holding a quantity for each equation (usually at a given spatial location)
 COpm::Properties::EqVector< TypeTag, TTag::FvBaseDiscretization >A vector of quanties, each for one equation
 COpm::Properties::Evaluation< TypeTag, MyTypeTag >Representation of a function evaluation and all necessary derivatives with regard to the intensive quantities of the primary variables
 COpm::Properties::Evaluation< TypeTag, TTag::AutoDiffLocalLinearizer >Set the function evaluation w.r.t. the primary variables
 COpm::Properties::Evaluation< TypeTag, TTag::FiniteDifferenceLocalLinearizer >
 COpm::detail::BlockExtractor< TypeTag >::ExecDescriptor for extractor execution
 COpm::Parameters::ExplicitRockCompaction
 COpm::ExtboContainer< Scalar >
 COpm::Properties::ExtensiveQuantities< TypeTag, MyTypeTag >Data required to calculate a flux over a face
 COpm::Properties::ExtensiveQuantities< TypeTag, TTag::BlackOilModel >ExtensiveQuantities property
 COpm::Properties::ExtensiveQuantities< TypeTag, TTag::DiscreteFractureModel >ExtensiveQuantities property
 COpm::Properties::ExtensiveQuantities< TypeTag, TTag::FlashModel >ExtensiveQuantities property
 COpm::Properties::ExtensiveQuantities< TypeTag, TTag::ImmiscibleModel >ExtensiveQuantities property
 COpm::Properties::ExtensiveQuantities< TypeTag, TTag::NcpModel >ExtensiveQuantities property
 COpm::Properties::ExtensiveQuantities< TypeTag, TTag::PvsModel >ExtensiveQuantities property
 COpm::Properties::ExtensiveQuantities< TypeTag, TTag::Richards >The class for the quantities required for the flux calculation
 COpm::Properties::ExtensiveStorageTerm< TypeTag, MyTypeTag >Specify whether the storage terms use extensive quantities or not
 COpm::Properties::ExtensiveStorageTerm< TypeTag, TTag::FvBaseDiscretization >Most models use extensive quantities for their storage term (so far, only the Stokes model does), so we disable this by default
 COpm::Parameters::ExternalPartition
 COpm::detail::Extractor< TypeTag >Wrapping struct holding types used for element-level data extraction
 COpm::Transmissibility< Grid, GridView, ElementMapper, CartesianIndexMapper, Scalar >::FaceInfo
 Cstd::false_type
 CDune::FieldMatrix
 CFieldPropsManager
 CDune::FieldVector
 COpm::Properties::TTag::FiniteDifferenceLocalLinearizer
 COpm::FIPContainer< FluidSystem >
 COpm::FIPContainer< GetPropType< TypeTag, Properties::FluidSystem > >
 COpm::Properties::TTag::FlashModelThe type tag for the isothermal single phase problems
 COpm::Properties::FlashSolver< TypeTag, MyTypeTag >The type of the flash constraint solver
 COpm::Properties::FlashSolver< TypeTag, TTag::FlashModel >Use the NCP flash solver by default
 COpm::Parameters::FlashTolerance< Scalar >The maximum accepted error of the flash solver Let the flash solver choose its tolerance by default
 COpm::Parameters::FlashTwoPhaseMethodTwo-phase flash method
 COpm::Parameters::FlashVerbosityThe verbosity level of the flash solver
 COpm::FlowAluGridVanguard< TypeTag >
 COpm::Properties::TTag::FlowBaseProblem
 COpm::Properties::TTag::FlowBaseProblemBlackoil
 COpm::Properties::TTag::FlowBaseProblemComp
 COpm::Properties::TTag::FlowBaseVanguard
 COpm::Properties::TTag::FlowEarlyBird
 COpm::FlowGenericProblem< GridView, FluidSystem >This problem simulates an input file given in the data format used by the commercial ECLiPSE simulator
 COpm::FlowGenericProblem< GetPropType< TypeTag, Properties::GridView >, GetPropType< TypeTag, Properties::FluidSystem > >
 COpm::FlowGenericVanguard
 COpm::Properties::TTag::FlowIstlSolver
 COpm::Properties::TTag::FlowIstlSolverParams
 COpm::FlowLinearSolverParametersThis class carries all parameters for the NewtonIterationBlackoilInterleaved class
 COpm::FlowMain< TypeTag >
 COpm::Properties::TTag::FlowProblem
 COpm::Properties::TTag::FlowProblemTPFASpecialised type tag for simulations that can use the customised assembly process for TPFA discretisation schemes
 COpm::FlowsContainer< FluidSystem >
 COpm::FlowsContainer< GetPropType< TypeTag, Properties::FluidSystem > >
 COpm::FlowsData< Scalar >Simple container for FLOWS data
 COpm::Properties::Fluid< TypeTag, MyTypeTag >The fluid used by the model
 COpm::Properties::Fluid< TypeTag, TTag::ImmiscibleSinglePhaseModel >
 COpm::Properties::FluidSystem< TypeTag, MyTypeTag >The fluid systems including the information about the phases
 COpm::Properties::FluidSystem< TypeTag, TTag::BlackOilModel >Set the fluid system to the black-oil fluid system by default
 COpm::Properties::FluidSystem< TypeTag, TTag::ImmiscibleSinglePhaseModel >The fluid system to use by default
 COpm::Properties::FluidSystem< TypeTag, TTag::ImmiscibleTwoPhaseModel >
 COpm::Properties::FluidSystem< TypeTag, TTag::Richards >The fluid system used by the model
 CGetPropType::FluxBaseProblem
 CGetPropType::FluxExtensiveQuantities
 CGetPropType::FluxIntensiveQuantities
 COpm::Properties::FluxModule< TypeTag, MyTypeTag >Specifies the relation used for velocity
 COpm::Properties::FluxModule< TypeTag, TTag::BlackOilModel >Use the the velocity module which is aware of the black-oil specific model extensions (i.e., the polymer and solvent extensions)
 COpm::Properties::FluxModule< TypeTag, TTag::FlowBaseProblemBlackoil >
 COpm::Properties::FluxModule< TypeTag, TTag::MultiPhaseBaseModel >By default, use the Darcy relation to determine the phase velocity
 COpm::BlackOilFoamParams< Scalar >::FoamCoefficients
 COpm::Parameters::ForceDisableFluidInPlaceOutput
 COpm::Parameters::ForceDisableResvFluidInPlaceOutput
 COpm::ForchheimerBaseProblem< TypeTag >Provides the defaults for the parameters required by the Forchheimer velocity approach
 COpm::ForchheimerFluxModule< TypeTag >Specifies a flux module which uses the Forchheimer relation
 COpm::ForchheimerIntensiveQuantities< TypeTag >Provides the intensive quantities for the Forchheimer module
 COpm::Linear::ForeignOverlapFromBCRSMatrixThis class creates and manages the foreign overlap given an initial list of border indices and a BCRS matrix
 COpm::WGHelpers::FractionCalculator< Scalar >
 COpm::FractureMapper< TypeTag >Stores the topology of fractures
 COpm::Parameters::FullTimeStepInitially
 COpm::FvBaseAdLocalLinearizer< TypeTag >Calculates the local residual and its Jacobian for a single element of the grid
 COpm::FvBaseBoundaryContext< TypeTag >Represents all quantities which available on boundary segments
 COpm::FvBaseConstraintsContext< TypeTag >Represents all quantities which available for calculating constraints
 COpm::FvBaseDiscretization< TypeTag >The base class for the finite volume discretization schemes
 COpm::Properties::TTag::FvBaseDiscretizationThe type tag for models based on the finite volume schemes
 COpm::FvBaseElementContext< TypeTag >This class stores an array of IntensiveQuantities objects, one intensive quantities object for each of the element's vertices
 COpm::FvBaseExtensiveQuantities< TypeTag >Provide the properties at a face which make sense indepentently of the conserved quantities
 COpm::FvBaseFdLocalLinearizer< TypeTag >Calculates the Jacobian of the local residual for finite volume spatial discretizations using a finite difference method
 COpm::FvBaseGradientCalculator< TypeTag >This class calculates gradients of arbitrary quantities at flux integration points using the two-point approximation scheme
 COpm::FvBaseIntensiveQuantities< TypeTag >Base class for the model specific class which provides access to all intensive (i.e., volume averaged) quantities
 COpm::FvBaseLinearizer< TypeTag >The common code for the linearizers of non-linear systems of equations
 COpm::FvBaseLocalResidual< TypeTag >Element-wise caculation of the residual matrix for models based on a finite volume spatial discretization
 COpm::FvBaseNewtonConvergenceWriter< TypeTag >Writes the intermediate solutions during the Newton scheme for models using a finite volume discretization
 COpm::Properties::TTag::FvBaseNewtonMethod
 COpm::FvBaseProblem< TypeTag >Base class for all problems which use a finite volume spatial discretization
 COpm::Properties::GasComponentIndex< TypeTag, MyTypeTag >Index of the component which constitutes the gas
 COpm::Properties::GasComponentIndex< TypeTag, TTag::Richards >By default, assume that the gas component is the other than the liquid one
 COpm::GasLiftCommon< Scalar >
 COpm::GasLiftCommon< GetPropType< TypeTag, Properties::Scalar > >
 COpm::GasLiftWellState< Scalar >
 COpm::Properties::GasPhaseIndex< TypeTag, MyTypeTag >Index of the fluid which represents the non-wetting phase
 COpm::Properties::GasPhaseIndex< TypeTag, TTag::Richards >By default, assume that the non-liquid phase is gaseos
 CDune::GeneralPreconditionerMaker< OriginalPreconditioner >Interface class ensuring make function is overriden
 COpm::GenericCpGridVanguard< ElementMapper, GridView, Scalar >
 COpm::GenericCpGridVanguard< GetPropType< TypeTag, Properties::ElementMapper >, GetPropType< TypeTag, Properties::GridView >, GetPropType< TypeTag, Properties::Scalar > >
 COpm::GenericGuard< Callback >A simple class which makes sure that a cleanup function is called once the object is destroyed
 COpm::GenericOutputBlackoilModule< FluidSystem >
 COpm::GenericOutputBlackoilModule< GetPropType< TypeTag, Properties::FluidSystem > >
 COpm::GenericThresholdPressure< Grid, GridView, ElementMapper, Scalar >
 COpm::GenericThresholdPressure< GetPropType< TypeTag, Properties::Grid >, GetPropType< TypeTag, Properties::GridView >, GetPropType< TypeTag, Properties::ElementMapper >, GetPropType< TypeTag, Properties::Scalar > >
 COpm::GenericTracerModel< Grid, GridView, DofMapper, Stencil, FluidSystem, Scalar >
 COpm::GenericTracerModel< GetPropType< TypeTag, Properties::Grid >, GetPropType< TypeTag, Properties::GridView >, GetPropType< TypeTag, Properties::DofMapper >, GetPropType< TypeTag, Properties::Stencil >, GetPropType< TypeTag, Properties::FluidSystem >, GetPropType< TypeTag, Properties::Scalar > >
 COpm::Properties::Detail::GetDefined< TypeTag, Property, TTagList >Helper struct to get the first property that is defined in the TypeTag hierarchy
 COpm::Properties::Detail::GetDefined< TypeTag, Property, std::tuple< FirstTypeTag, Args... > >
 COpm::Properties::Detail::GetDefined< TypeTag, Property, std::tuple< LastTypeTag > >
 COpm::Properties::Detail::GetDefinedSplice< TypeTag, TTagList >Helper struct to get the first property that is defined in the TypeTag hierarchy
 COpm::Properties::Detail::GetDefinedSplice< TypeTag, std::tuple< FirstTypeTag, Args... > >
 COpm::Properties::Detail::GetDefinedSplice< TypeTag, std::tuple< LastTypeTag > >
 COpm::Properties::Detail::GetNextSpliceTypeTag< TypeTag, TTagList, Enable >Helper struct to iterate over the TypeTag hierarchy
 COpm::Properties::Detail::GetNextSpliceTypeTag< TypeTag, std::tuple< FirstTypeTag, Args... >, std::enable_if_t< hasParentTypeTag< FirstTypeTag >(int{}), void > >
 COpm::Properties::Detail::GetNextSpliceTypeTag< TypeTag, std::tuple< FirstTypeTag, Args... >, std::enable_if_t<!hasParentTypeTag< FirstTypeTag >(int{}), void > >
 COpm::Properties::Detail::GetNextSpliceTypeTag< TypeTag, std::tuple< LastTypeTag >, std::enable_if_t< hasParentTypeTag< LastTypeTag >(int{}), void > >
 COpm::Properties::Detail::GetNextSpliceTypeTag< TypeTag, std::tuple< LastTypeTag >, std::enable_if_t<!hasParentTypeTag< LastTypeTag >(int{}), void > >
 COpm::Properties::Detail::GetNextTypeTag< TypeTag, Property, TTagList, Enable >Helper struct to iterate over the TypeTag hierarchy
 COpm::Properties::Detail::GetNextTypeTag< TypeTag, Property, std::tuple< FirstTypeTag, Args... >, std::enable_if_t< hasParentTypeTag< FirstTypeTag >(int{}), void > >
 COpm::Properties::Detail::GetNextTypeTag< TypeTag, Property, std::tuple< FirstTypeTag, Args... >, std::enable_if_t<!hasParentTypeTag< FirstTypeTag >(int{}), void > >
 COpm::Properties::Detail::GetNextTypeTag< TypeTag, Property, std::tuple< LastTypeTag >, std::enable_if_t< hasParentTypeTag< LastTypeTag >(int{}), void > >
 COpm::Properties::Detail::GetNextTypeTag< TypeTag, Property, std::tuple< LastTypeTag >, std::enable_if_t<!hasParentTypeTag< LastTypeTag >(int{}), void > >
 COpm::Properties::Detail::GetPropImpl< TypeTag, Property >Helper struct to extract get the Property specilization given a TypeTag, asserts that the property is defined
 CGetPropType
 COpm::Properties::Detail::GetSplicePropImpl< TypeTag, SpliceTypeTag, Property >
 COpm::GlobalCellIndex
 COpm::Properties::GlobalEqVector< TypeTag, MyTypeTag >Vector containing a quantity of for equation for each DOF of the whole grid
 COpm::Properties::GlobalEqVector< TypeTag, TTag::FvBaseDiscretization >The type for storing a residual for the whole grid
 COpm::Linear::GlobalIndices< ForeignOverlap >This class maps domestic row indices to and from "global" indices which is used to construct an algebraic overlap for the parallel linear solvers
 COpm::GlobalPerfContainerFactory< Scalar >A factory for creating a global data representation for distributed wells
 COpm::GlobalWellInfo< Scalar >
 COpm::Parameters::GMResRestartNumber of iterations between solver restarts for the GMRES solver
 COpm::GpuBridge< BridgeMatrix, BridgeVector, block_size >GpuBridge acts as interface between opm-simulators with the GpuSolvers
 COpm::Parameters::GpuDeviceId
 COpm::gpuistl::GpuOwnerOverlapCopy< field_type, block_size, OwnerOverlapCopyCommunicationType >CUDA compatiable variant of Dune::OwnerOverlapCopyCommunication
 COpm::Accelerator::GpuResultThis class is based on InverseOperatorResult struct from dune/istl/solver.hh It is needed to prevent a compile error in basearray.hh, the nvcc compiler might not support all features in there
 COpm::gpuistl::GPUSender< field_type, OwnerOverlapCopyCommunicationType >GPUSender is a wrapper class for classes which will implement copOwnerToAll This is implemented with the intention of creating communicators with generic GPUSender To hide implementation that will either use GPU aware MPI or not
 COpm::Accelerator::GpuSolver< Scalar, block_size >This class serves to simplify choosing between different backend solvers, such as cusparseSolver and openclSolver This class is abstract, no instantiations can of it can be made, only of its children
 COpm::detail::GpuSolverInfo< Matrix, Vector >
 COpm::gpuistl::GpuSparseMatrix< T >The GpuSparseMatrix class simple wrapper class for a CuSparse matrix
 COpm::gpuistl::GpuSparseMatrix< field_type >
 COpm::gpuistl::GpuSparseMatrix< real_type >
 COpm::gpuistl::GpuView< T >The GpuView class is provides a view of some data allocated on the GPU Essenstially is only stores a pointer and a size
 COpm::Properties::GradientCalculator< TypeTag, MyTypeTag >Calculates gradients of arbitrary quantities at flux integration points
 COpm::Properties::GradientCalculator< TypeTag, TTag::FlowBaseProblemBlackoil >
 COpm::Properties::GradientCalculator< TypeTag, TTag::FvBaseDiscretization >Calculates the gradient of any quantity given the index of a flux approximation point
 COpm::Properties::GradientCalculator< TypeTag, TTag::VcfvDiscretization >Calculates the gradient of any quantity given the index of a flux approximation point
 COpm::GasLiftSingleWellGeneric< Scalar >::GradInfo
 COpm::Properties::Grid< TypeTag, MyTypeTag >The type of the DUNE grid
 COpm::Properties::Grid< TypeTag, TTag::AluGridVanguard >
 COpm::Properties::Grid< TypeTag, TTag::CpGridVanguard >
 COpm::Properties::Grid< TypeTag, TTag::PolyhedralGridVanguard >
 COpm::Properties::Grid< TypeTag, TTag::StructuredGridVanguard >
 COpm::Properties::GridCommHandleFactory< TypeTag, MyTypeTag >The class to create grid communication handles
 COpm::Properties::GridCommHandleFactory< TypeTag, TTag::EcfvDiscretization >The class to create grid communication handles
 COpm::Properties::GridCommHandleFactory< TypeTag, TTag::VcfvDiscretization >The class to create grid communication handles
 COpm::Parameters::GridFileName of the grid file
 COpm::Parameters::GridGlobalRefinementsProperty which tells the Vanguard how often the grid should be refined after creation
 COpm::Properties::GridView< TypeTag, MyTypeTag >
 COpm::Properties::GridView< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::GridView< TypeTag, TTag::NumericModel >Use the leaf grid view by default
 COpm::Properties::GridViewLevel< TypeTag, MyTypeTag >Level of the grid view
 COpm::GroupEconomicLimitsChecker< Scalar >
 COpm::GasLiftGroupInfo< Scalar >::GroupRates
 COpm::GroupState< Scalar >
 COpm::GroupState< GetPropType< TypeTag, Properties::Scalar > >
 COpm::gpuistl::detail::has_communication< T >The has_communication class checks if the type has the member function getCommunication
 COpm::gpuistl::detail::has_should_call_post< T >The has_should_call_post class detects the presence of the method shouldCallPost
 COpm::gpuistl::detail::has_should_call_pre< T >The has_should_call_pre class detects the presence of the method shouldCallPre
 COpm::HDF5FileClass handling simple output to HDF5
 COpm::HipKernels< Scalar >
 COpm::detail::Extractor< TypeTag >::HysteresisParamsStruct holding hysteresis parameters
 COpm::Parameters::IgnoreKeywords
 Crocalution::ILU< Matrix, Vector, Scalar >
 COpm::Parameters::IluFillinLevel
 COpm::Parameters::IluRedblack
 COpm::Parameters::IluRelaxation
 COpm::Parameters::IluReorderSpheres
 COpm::Parameters::ImbalanceTol< Scalar >
 COpm::Properties::TTag::ImmiscibleModelThe generic type tag for problems using the immiscible multi-phase model
 COpm::Properties::TTag::ImmiscibleSinglePhaseModelThe type tag for single-phase immiscible problems
 COpm::Properties::TTag::ImmiscibleTwoPhaseModelThe type tag for two-phase immiscible problems
 COpm::ConvergenceOutputThread::Impl
 COpm::Properties::TTag::ImplicitModelType tag for all fully coupled models
 COpm::Linear::IndexDistanceNpeersThis structure stores an index, a process rank, and the number of processes which "see" the degree of freedom with the index
 COpm::Linear::IndexRankThis structure stores an index and a process rank
 COpm::Linear::IndexRankDistThis structure stores an index, a process rank, and the distance of the degree of freedom to the process border
 COpm::Properties::Indices< TypeTag, MyTypeTag >Enumerations used by the model
 COpm::Properties::Indices< TypeTag, TTag::BlackOilModel >The indices required by the model
 COpm::Properties::Indices< TypeTag, TTag::FlashModel >The indices required by the flash-baseed isothermal compositional model
 COpm::Properties::Indices< TypeTag, TTag::ImmiscibleModel >The indices required by the isothermal immiscible multi-phase model
 COpm::Properties::Indices< TypeTag, TTag::NcpModel >The indices required by the compositional NCP model
 COpm::Properties::Indices< TypeTag, TTag::PvsModel >The indices required by the isothermal PVS model
 COpm::Properties::Indices< TypeTag, TTag::Richards >The class with all index definitions for the model
 COpm::EQUIL::Details::PressureTable< FluidSystem, Region >::PressureFunction< ODE >::InitCond
 COpm::EQUIL::DeckDependent::InitialStateComputer< FluidSystem, Grid, GridView, ElementMapper, CartesianIndexMapper >
 COpm::Parameters::InitialTimeStepInDays
 COpm::Parameters::InitialTimeStepSize< Scalar >The default value for the simulation's initial time step size
 COpm::WGHelpers::InjectionTargetCalculator< Scalar >Based on a group control mode, extract or calculate rates, and provide other conveniences
 COpm::Parameters::InjMultDampMult< Scalar >
 COpm::Parameters::InjMultMinDampFactor< Scalar >
 COpm::Parameters::InjMultOscThreshold< Scalar >
 COpm::Parameters::InputSkipMode
 Cstd::integral_constant
 Cstd::integral_constant< bool,(N > 0) &&((N &(N - 1))==0)>
 Cstd::integral_constant< std::size_t,(A > B) ? A :B >
 Cstd::integral_constant< std::size_t,(A< B) ? A :B >
 COpm::Properties::IntensiveQuantities< TypeTag, MyTypeTag >The secondary variables within a sub-control volume
 COpm::Properties::IntensiveQuantities< TypeTag, TTag::BlackOilModel >IntensiveQuantities property
 COpm::Properties::IntensiveQuantities< TypeTag, TTag::DiscreteFractureModel >IntensiveQuantities property
 COpm::Properties::IntensiveQuantities< TypeTag, TTag::FlashModel >IntensiveQuantities property
 COpm::Properties::IntensiveQuantities< TypeTag, TTag::FvBaseDiscretization >The class representing intensive quantities
 COpm::Properties::IntensiveQuantities< TypeTag, TTag::ImmiscibleModel >IntensiveQuantities property
 COpm::Properties::IntensiveQuantities< TypeTag, TTag::NcpModel >IntensiveQuantities property
 COpm::Properties::IntensiveQuantities< TypeTag, TTag::PvsModel >IntensiveQuantities property
 COpm::Properties::IntensiveQuantities< TypeTag, TTag::Richards >The class for the intensive quantities
 COpm::detail::InterpData< Scalar >Helper struct for linear interpolation
 COpm::InterRegFlowMapInter-region flow accumulation maps for all region definition arrays
 COpm::InterRegFlowMapSingleFIPForm CSR adjacency matrix representation of inter-region flow rate graph provided as a list of connections between regions on local MPI rank
 CDune::InverseOperator
 COpm::gpuistl::detail::is_a_well_operator< T >The is_a_well_operator class tries to guess if the operator is a well type operator
 COpm::KeywordValidation::is_bool_convertible
 CIsNumber
 COpm::IsNumericalAquiferCell< Grid >
 COpm::IsNumericalAquiferCell< Dune::CpGrid >
 COpm::ISTLSolver< TypeTag >This class solves the fully implicit black-oil system by solving the reduced system (after eliminating well variables) as a block-structured matrix (one block for all cell variables) for a fixed number of cell variables np
 COpm::Linear::IstlSparseMatrixAdapter< MatrixBlockType, AllocatorType >A sparse matrix interface backend for BCRSMatrix from dune-istl
 CDune::IterativeSolver
 COpm::gpuistl::GpuView< T >::iteratorIterator class to make GpuViews more similar to std containers
 CDune::Amg::KAMG< M, X, S, P, K, A >
 CDune::Amg::KAmgTwoGrid< T >
 COpm::KeywordValidation::KeywordValidator
 COpm::LevelCartesianIndexMapper< Grid >
 COpm::LevelCartesianIndexMapper< Dune::ALUGrid< 3, 3, Dune::cube, Dune::nonconforming > >
 CDune::Amg::LevelTransferPolicyCpr< FO, CO >Abstract base class for transfer between levels and creation of the coarse level system
 CDune::Amg::LevelTransferPolicyCpr< FineOperator, Details::CoarseOperatorType< Scalar, Communication > >
 CDune::Amg::LevelTransferPolicyCpr< FO, typename CSP::Operator >
 CDune::Amg::LevelTransferPolicyCpr< O, O >
 CDune::Amg::LevelTransferPolicyCpr< OperatorType, typename CSP::Operator >
 COpm::LinearizationType
 COpm::Properties::LinearizeNonLocalElements< TypeTag, MyTypeTag >Specify if elements that do not belong to the local process' grid partition should be skipped
 COpm::Properties::LinearizeNonLocalElements< TypeTag, TTag::EcfvDiscretization >For the element centered finite volume method, ghost and overlap elements must be assembled to calculate the fluxes over the process boundary faces of the local process' grid partition
 COpm::Properties::LinearizeNonLocalElements< TypeTag, TTag::VcfvDiscretization >For the vertex centered finite volume method, ghost and overlap elements must not be assembled to avoid accounting twice for the fluxes over the process boundary faces of the local process' grid partition
 COpm::Properties::Linearizer< TypeTag, MyTypeTag >The class which linearizes the non-linear system of equations
 COpm::Properties::Linearizer< TypeTag, TTag::FvBaseDiscretization >Linearizer for the global system of equations
 CDune::LinearOperator
 COpm::Parameters::LinearSolver
 COpm::Parameters::LinearSolverAbsTolerance< Scalar >Maximum accepted error of the norm of the residual
 COpm::Properties::LinearSolverBackend< TypeTag, MyTypeTag >The type of the linear solver to be used
 COpm::Properties::LinearSolverBackend< TypeTag, TTag::FlowIstlSolverParams >
 COpm::Properties::LinearSolverBackend< TypeTag, TTag::ParallelAmgLinearSolver >
 COpm::Properties::LinearSolverBackend< TypeTag, TTag::ParallelBiCGStabLinearSolver >
 COpm::Properties::LinearSolverBackend< TypeTag, TTag::ParallelIstlLinearSolver >
 COpm::Parameters::LinearSolverIgnoreConvergenceFailure
 COpm::Parameters::LinearSolverMaxError< Scalar >
 COpm::Parameters::LinearSolverMaxIter
 COpm::Parameters::LinearSolverMaxIterationsMaximum number of iterations eyecuted by the linear solver
 COpm::Parameters::LinearSolverOverlapSizeThe size of the algebraic overlap of the linear solver
 COpm::Parameters::LinearSolverPrintJsonDefinition
 COpm::Parameters::LinearSolverReduction
 COpm::Parameters::LinearSolverRestart
 COpm::Properties::LinearSolverScalar< TypeTag, MyTypeTag >The floating point type used internally by the linear solver
 COpm::Properties::LinearSolverScalar< TypeTag, TTag::ParallelBaseLinearSolver >By default use the same kind of floating point values for the linearization and for the linear solve
 COpm::Properties::LinearSolverSplice< TypeTag, MyTypeTag >
 COpm::Properties::LinearSolverSplice< TypeTag, TTag::FlowProblem >
 COpm::Properties::LinearSolverSplice< TypeTag, TTag::FvBaseDiscretization >Use a parallel BiCGStab linear solver by default
 COpm::Parameters::LinearSolverTolerance< Scalar >Maximum accepted error of the solution of the linear solver
 COpm::Parameters::LinearSolverVerbositySpecifies the verbosity of the linear solver
 COpm::Properties::LinearSolverWrapper< TypeTag, MyTypeTag >
 COpm::Properties::LinearSolverWrapper< TypeTag, TTag::ParallelIstlLinearSolver >
 COpm::Properties::LiquidComponentIndex< TypeTag, MyTypeTag >Index of the component which constitutes the liquid
 COpm::Properties::LiquidComponentIndex< TypeTag, TTag::Richards >By default, assume that component which the liquid is made of has the same index as the liquid phase
 COpm::Properties::LiquidPhaseIndex< TypeTag, MyTypeTag >Index of the fluid which represents the wetting phase
 COpm::Properties::LiquidPhaseIndex< TypeTag, TTag::Richards >By default, assume that the first phase is the liquid one
 Cstd::list
 COpm::Parameters::LoadFile
 COpm::Parameters::LoadStep
 COpm::Parameters::LocalDomainsOrderingMeasure
 COpm::Parameters::LocalDomainsPartitioningImbalance< Scalar >
 COpm::Parameters::LocalDomainsPartitioningMethod
 COpm::Parameters::LocalDomainsPartitionWellNeighborLevels
 COpm::Properties::LocalLinearizer< TypeTag, MyTypeTag >The type of the local linearizer
 COpm::Properties::LocalLinearizer< TypeTag, TTag::AutoDiffLocalLinearizer >
 COpm::Properties::LocalLinearizer< TypeTag, TTag::FiniteDifferenceLocalLinearizer >
 COpm::Properties::LocalLinearizerSplice< TypeTag, MyTypeTag >
 COpm::Properties::LocalLinearizerSplice< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::LocalLinearizerSplice< TypeTag, TTag::FvBaseDiscretization >By default, use finite differences to linearize the system of PDEs
 Crocalution::LocalMatrix< Scalar >
 COpm::Properties::LocalResidual< TypeTag, MyTypeTag >The type of the local residual function
 COpm::Properties::LocalResidual< TypeTag, TTag::BlackOilModel >Set the local residual function
 COpm::Properties::LocalResidual< TypeTag, TTag::DiscreteFractureModel >Use the immiscible multi-phase local jacobian operator for the immiscible multi-phase model
 COpm::Properties::LocalResidual< TypeTag, TTag::FlashModel >Use the FlashLocalResidual function for the flash model
 COpm::Properties::LocalResidual< TypeTag, TTag::ImmiscibleModel >Use the immiscible multi-phase local jacobian operator for the immiscible multi-phase model
 COpm::Properties::LocalResidual< TypeTag, TTag::NcpModel >Use the Ncp local jacobian operator for the compositional NCP model
 COpm::Properties::LocalResidual< TypeTag, TTag::PvsModel >Use the PVS local jacobian operator for the PVS model
 COpm::Properties::LocalResidual< TypeTag, TTag::Richards >The local residual operator
 COpm::Parameters::LocalSolveApproach
 COpm::Parameters::LocalToleranceScalingCnv< Scalar >
 COpm::Parameters::LocalToleranceScalingMb< Scalar >
 Crocalution::LocalVector< Scalar >
 COpm::Parameters::LocalWellSolveControlSwitching
 COpm::LogOutputHelper< Scalar >
 COpm::LookUpCartesianData< Grid, GridView >
 COpm::LookUpCellCentroid< Grid, GridView >
 COpm::LookUpData< Grid, GridView >
 COpm::Main
 COpm::Properties::MaterialLaw< TypeTag, MyTypeTag >The material law which ought to be used (extracted from the spatial parameters)
 COpm::Properties::MaterialLaw< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::MaterialLaw< TypeTag, TTag::FlowBaseProblemComp >
 COpm::Properties::MaterialLaw< TypeTag, TTag::MultiPhaseBaseModel >Set the material law to the null law by default
 COpm::Properties::MaterialLawParams< TypeTag, MyTypeTag >The context material law (extracted from the spatial parameters)
 COpm::Properties::MaterialLawParams< TypeTag, TTag::MultiPhaseBaseModel >Set the property for the material parameters by extracting it from the material law
 COpm::Accelerator::Matrix< Scalar >This struct resembles a csr matrix, only doubles are supported The data is stored in contiguous memory, such that they can be copied to a device in one transfer
 COpm::Parameters::MatrixAddWellContributions
 CMatrixDimension
 COpm::Parameters::MaximumNumberOfGroupSwitches
 COpm::Parameters::MaximumNumberOfWellSwitches
 COpm::Parameters::MaximumWaterSaturation< Scalar >
 COpm::Parameters::MaxInnerIterMsWells
 COpm::Parameters::MaxInnerIterWells
 COpm::Parameters::MaxLocalSolveIterations
 COpm::Parameters::MaxNewtonIterationsWithInnerWellIterations
 COpm::Parameters::MaxPressureChangeMsWells< Scalar >
 COpm::Parameters::MaxResidualAllowed< Scalar >
 COpm::Parameters::MaxSinglePrecisionDays< Scalar >
 COpm::Parameters::MaxTemperatureChange< Scalar >
 COpm::Parameters::MaxTimeStepDivisionsThe maximum allowed number of timestep divisions for the Newton solver
 COpm::Parameters::MaxTimeStepSize< Scalar >Specify the maximum size of a time integration [s]
 COpm::Parameters::MaxWelleqIter
 COpm::MechContainer< Scalar >
 COpm::DeferredLogger::Message
 COpm::Parameters::MetisParams
 COpm::MICPContainer< Scalar >
 COpm::MICPSolutionContainer< Scalar >Struct holding MICP extension data
 COpm::Parameters::MiluVariant
 COpm::Parameters::MinStrictCnvIter
 COpm::Parameters::MinStrictMbIter
 COpm::Parameters::MinTimeStepBasedOnNewtonIterations
 COpm::Parameters::MinTimeStepBeforeShuttingProblematicWellsInDays
 COpm::Parameters::MinTimeStepSize< Scalar >Specify the minimal size of a time integration [s]
 COpm::MixingRateControls< FluidSystem >Class handling mixing rate controls for a FlowProblemBlackoil
 CDune::MatrixMarketImpl::mm_block_structure_header< BCRSMatrix< Opm::MatrixBlock< T, i, j >, A > >
 CDune::MatrixMarketImpl::mm_header_printer< BCRSMatrix< Opm::MatrixBlock< T, i, j >, A > >
 CDune::MatrixMarketImpl::mm_multipliers< BCRSMatrix< Opm::MatrixBlock< T, i, j >, A > >
 COpm::Properties::Model< TypeTag, MyTypeTag >The type of the model
 COpm::Properties::Model< TypeTag, TTag::BlackOilModel >The Model property
 COpm::Properties::Model< TypeTag, TTag::DiscreteFractureModel >The class for the model
 COpm::Properties::Model< TypeTag, TTag::FlashModel >Model property
 COpm::Properties::Model< TypeTag, TTag::FlowBaseProblemBlackoil >
 COpm::Properties::Model< TypeTag, TTag::ImmiscibleModel >Model property
 COpm::Properties::Model< TypeTag, TTag::NcpModel >Model property
 COpm::Properties::Model< TypeTag, TTag::PvsModel >Model property
 COpm::Properties::Model< TypeTag, TTag::Richards >The global model used
 COpm::Properties::ModelParameterGroup< TypeTag, MyTypeTag >Property which defines the group that is queried for parameters by default
 COpm::Properties::ModelParameterGroup< TypeTag, TTag::NumericModel >Use the global group as default for the model's parameter group
 COpm::BlackOilLocalResidualTPFA< TypeTag >::ModuleParams
 COpm::MolarDensityCallback< TypeTag >Callback class for the molar density of a phase
 COpm::MoleFractionCallback< TypeTag >Callback class for a mole fraction of a component in a phase
 COpm::MpiBuffer< DataType >Simplifies handling of buffers to be used in conjunction with MPI
 COpm::MSWellTracerRate< Scalar >
 COpm::Properties::TTag::MultiPhaseBaseModel
 COpm::MultisegmentWellAssemble< FluidSystem, Indices >Class handling assemble of the equation system for MultisegmentWell
 COpm::MultisegmentWellContribution< Scalar >This class serves to duplicate the functionality of the MultisegmentWell A MultisegmentWell uses C, D and B and performs y -= (C^T * (D^-1 * (B*x))) B and C are matrices, with M rows and N columns, where N is the size of the matrix
 COpm::MultisegmentWellEquationAccess< Scalar, numWellEq, numEq >Class administering assembler access to equation system
 COpm::MultisegmentWellEquations< Scalar, numWellEq, numEq >
 COpm::MultisegmentWellEquations< Scalar, numWellEq, Indices::numEq >
 COpm::MultisegmentWellGeneric< Scalar >
 COpm::MultisegmentWellGeneric< FluidSystem::Scalar >
 COpm::MultisegmentWellPrimaryVariables< FluidSystem, Indices >
 COpm::MultisegmentWellPrimaryVariables< GetPropType< TypeTag, Properties::FluidSystem >, GetPropType< TypeTag, Properties::Indices > >
 COpm::MultisegmentWellSegments< FluidSystem, Indices >
 COpm::MultisegmentWellSegments< GetPropType< TypeTag, Properties::FluidSystem >, GetPropType< TypeTag, Properties::Indices > >
 COpm::Properties::NcpCompositionFromFugacitiesSolver< TypeTag, MyTypeTag >The themodynamic constraint solver which calculates the composition of any phase given all component fugacities
 COpm::Properties::NcpFugacitiesBaseWeight< TypeTag, MyTypeTag >The unmodified weight for the fugacity primary variables
 COpm::Properties::NcpFugacitiesBaseWeight< TypeTag, TTag::NcpModel >The unmodified weight for the fugacity primary variables
 COpm::Properties::TTag::NcpModelDefine the type tag for the compositional NCP model
 COpm::Properties::NcpPressureBaseWeight< TypeTag, MyTypeTag >The unmodified weight for the pressure primary variable
 COpm::Properties::NcpPressureBaseWeight< TypeTag, TTag::NcpModel >The unmodified weight for the pressure primary variable
 COpm::Properties::NcpSaturationsBaseWeight< TypeTag, MyTypeTag >The weight for the saturation primary variables
 COpm::Properties::NcpSaturationsBaseWeight< TypeTag, TTag::NcpModel >The weight for the saturation primary variables
 COpm::Parameters::NetworkMaxOuterIterations
 COpm::Parameters::NetworkMaxPressureUpdateInBars< Scalar >
 COpm::Parameters::NetworkMaxStrictOuterIterations
 COpm::Parameters::NetworkMaxSubIterations
 COpm::Parameters::NetworkPressureUpdateDampingFactor< Scalar >
 COpm::Properties::NewtonConvergenceWriter< TypeTag, MyTypeTag >Specifies the type of the class which writes out the Newton convergence
 COpm::Properties::NewtonConvergenceWriter< TypeTag, TTag::FvBaseNewtonMethod >
 COpm::Properties::NewtonConvergenceWriter< TypeTag, TTag::NewtonMethod >
 COpm::Parameters::NewtonMaxError< Scalar >The maximum error which may occur in a simulation before the Newton method for the time step is aborted
 COpm::Parameters::NewtonMaxIterationsNumber of maximum iterations for the Newton method
 COpm::Parameters::NewtonMaxRelax< Scalar >
 COpm::NewtonMethod< TypeTag >The multi-dimensional Newton method
 COpm::Properties::NewtonMethod< TypeTag, MyTypeTag >Specifies the type of the actual Newton method
 COpm::Properties::TTag::NewtonMethodThe type tag on which the default properties for the Newton method are attached
 COpm::Properties::NewtonMethod< TypeTag, TTag::BlackOilModel >Use the black-oil specific newton method
 COpm::Properties::NewtonMethod< TypeTag, TTag::FlashModel >Use the PT flash specific newton method for the flash model
 COpm::Properties::NewtonMethod< TypeTag, TTag::FvBaseNewtonMethod >
 COpm::Properties::NewtonMethod< TypeTag, TTag::NcpModel >Use the Ncp specific newton method for the compositional NCP model
 COpm::Properties::NewtonMethod< TypeTag, TTag::NewtonMethod >
 COpm::Properties::NewtonMethod< TypeTag, TTag::PvsModel >Use the PVS specific newton method for the PVS model
 COpm::Properties::NewtonMethod< TypeTag, TTag::Richards >The class of the Newton method
 COpm::NewtonMethodParams< Scalar >Struct holding the parameters for NewtonMethod
 COpm::Parameters::NewtonMinIterations
 COpm::Parameters::NewtonRelaxationType
 COpm::Parameters::NewtonTargetIterationsThe number of iterations at which the Newton method should aim at
 COpm::Parameters::NewtonTolerance< Scalar >The value for the error below which convergence is declared
 COpm::Parameters::NewtonVerboseSpecifies whether the Newton method should print messages or not
 COpm::Parameters::NewtonWriteConvergenceSpecifies whether the convergence rate and the global residual gets written out to disk for every Newton iteration
 COpm::NewTranBaseProblem< TypeTag >Provides the defaults for the parameters required by the transmissibility based volume flux calculation
 COpm::NewTranExtensiveQuantities< TypeTag >Provides the ECL flux module
 COpm::NewTranFluxModule< TypeTag >Specifies a flux module which uses ECL transmissibilities
 COpm::NewTranIntensiveQuantities< TypeTag >Provides the intensive quantities for the ECL flux module
 COpm::Parameters::NlddLocalLinearSolver
 COpm::Parameters::NlddLocalLinearSolverMaxIter
 COpm::Parameters::NlddLocalLinearSolverReduction
 COpm::Parameters::NlddNumInitialNewtonIter
 COpm::NonlinearSolver< TypeTag, PhysicalModel >A nonlinear solver class suitable for general fully-implicit models, as well as pressure, transport and sequential models
 COpm::Parameters::NonlinearSolver
 COpm::NonlinearSolverParameters< Scalar >
 COpm::Properties::NonlinearSystem< TypeTag, MyTypeTag >
 COpm::Properties::NonlinearSystem< TypeTag, TTag::FlowBaseProblemBlackoil >
 COpm::Properties::NonWettingFluid< TypeTag, MyTypeTag >The fluid used as the non-wetting phase (by default, we set the fluid system to the immiscible one, which requires this property.)
 COpm::Properties::NonWettingFluid< TypeTag, TTag::Richards >The non-wetting phase used
 COpm::Properties::NonwettingPhase< TypeTag, MyTypeTag >The non-wetting phase for two-phase models
 COpm::Properties::NonwettingPhase< TypeTag, TTag::ImmiscibleTwoPhaseModel >
 COpm::Linear::NullBorderListCreator< GridView, DofMapper >This is a grid manager which does not create any border list
 COpm::NullConvergenceWriter< TypeTag >A convergence writer for the Newton method which does nothing
 COpm::Properties::NumComponents< TypeTag, MyTypeTag >Number of chemical species in the system
 COpm::Properties::NumComponents< TypeTag, TTag::MultiPhaseBaseModel >Number of chemical species in the system
 COpm::Properties::NumEq< TypeTag, MyTypeTag >Number of equations in the system of PDEs
 COpm::Properties::NumEq< TypeTag, TTag::MultiPhaseBaseModel >Set the number of equations to the number of phases
 COpm::Parameters::NumericDifferenceMethodSpecify which kind of method should be used to numerically calculate the partial derivatives of the residual
 COpm::Properties::TTag::NumericModelType tag for all models
 COpm::Parameters::NumLocalDomains
 COpm::Parameters::NumOverlap
 COpm::Properties::NumPhases< TypeTag, MyTypeTag >Number of fluid phases in the system
 COpm::Properties::NumPhases< TypeTag, TTag::MultiPhaseBaseModel >The number of phases is determined by the fluid system
 COpm::Parameters::NumPressurePointsEquil
 COpm::Parameters::NumSatfuncConsistencySamplePoints
 COpm::Parameters::NupcolGroupRateTolerance< Scalar >
 COpm::detail::offset_object< T >
 CDune::Amg::OneStepAMGCoarseSolverPolicyCpr< O, S, C >A policy class for solving the coarse level system using one step of AMG
 COpm::Parameters::OpenclIluParallel
 COpm::Accelerator::OpenclKernels< Scalar >
 COpm::Accelerator::OpenclMatrix< Scalar >This struct resembles a csr matrix, only doubles are supported The matrix data is stored in OpenCL Buffers
 COpm::Parameters::OpenclPlatformId
 COpm::WellInterfaceGeneric< Scalar >::OperabilityStatus
 COpm::GasLiftSingleWellGeneric< Scalar >::OptimizeState
 COpm::GasLiftStage2< Scalar >::OptimizeState
 COpm::Parameters::OutputDirThe directory to which simulation output ought to be written to
 COpm::Parameters::OutputExtraConvergenceInfo
 COpm::Parameters::OutputInterval
 COpm::Parameters::OutputMode
 COpm::ConvergenceReportQueue::OutputRequestSingle output request
 COpm::Properties::Overlap< TypeTag, MyTypeTag >
 COpm::Properties::Overlap< TypeTag, TTag::ParallelBaseLinearSolver >
 COpm::Properties::OverlappingLinearOperator< TypeTag, MyTypeTag >
 COpm::Properties::OverlappingLinearOperator< TypeTag, TTag::ParallelBaseLinearSolver >
 COpm::Properties::OverlappingMatrix< TypeTag, MyTypeTag >
 COpm::Properties::OverlappingMatrix< TypeTag, TTag::ParallelBaseLinearSolver >
 COpm::Properties::OverlappingScalarProduct< TypeTag, MyTypeTag >
 COpm::Properties::OverlappingScalarProduct< TypeTag, TTag::ParallelBaseLinearSolver >
 COpm::Properties::OverlappingVector< TypeTag, MyTypeTag >
 COpm::Properties::OverlappingVector< TypeTag, TTag::ParallelBaseLinearSolver >
 COpm::Parameters::OwnerCellsFirst
 COpm::Mpi::PackerStruct handling packing of serialization for MPI communication
 COpm::Mpi::detail::Packing< pod, T >Abstract struct for packing which is (partially) specialized for specific types
 COpm::Serialization::detail::Packing< false, boost::gregorian::date >
 COpm::Mpi::detail::Packing< false, std::bitset< Size > >Specialization for std::bitset
 COpm::Mpi::detail::Packing< false, T >Default handling for unsupported types
 COpm::Mpi::detail::Packing< true, T >Packaging for pod data
 COpm::Linear::ParallelAmgBackend< TypeTag >Provides a linear solver backend using the parallel algebraic multi-grid (AMG) linear solver from DUNE-ISTL
 COpm::Properties::TTag::ParallelAmgLinearSolver
 COpm::Properties::TTag::ParallelBaseLinearSolver
 COpm::Properties::TTag::ParallelBiCGStabLinearSolver
 COpm::Linear::ParallelBiCGStabSolverBackend< TypeTag >Implements a generic linear solver abstraction
 COpm::detail::ParallelFileMergerA functor that merges multiple files of a parallel run to one file
 COpm::Properties::TTag::ParallelIstlLinearSolver
 COpm::Linear::ParallelIstlSolverBackend< TypeTag >Provides all unmodified linear solvers from dune-istl
 COpm::mswellhelpers::ParallellMSWellB< MatrixType >A wrapper around the B matrix for distributed MS wells
 COpm::mswellhelpers::ParallellMSWellB< OffDiagMatWell >
 COpm::ParallelNLDDPartitioningZoltanPartition connectivity graph into non-overlapping domains using the Zoltan graph partitioning software package
 COpm::wellhelpers::ParallelStandardWellB< Scalar >A wrapper around the B matrix for distributed wells
 COpm::ParallelWBPCalculation< Scalar >Parallel facility for managing the on-rank collection and global distribution of WBPn source values as well as local calculation and distributed reduction of the inferred WBPn report values
 COpm::ParallelWBPCalculation< GetPropType< TypeTag, Properties::Scalar > >
 COpm::ParallelWellInfo< Scalar >Class encapsulating some information about parallel wells
 COpm::ParallelWellInfo< FluidSystem::Scalar >
 COpm::Parameters::ParameterA struct holding the key-value pair for a parameter
 COpm::Parameters::ParameterFileSet a value for the ParameterFile property
 COpm::Properties::ParameterTree< TypeTag, MyTypeTag >Property which provides a Dune::ParameterTree
 COpm::Properties::ParameterTree< TypeTag, TTag::NumericModel >Set the ParameterTree property
 COpm::Parameters::ParsingStrictness
 COpm::Parameters::PartitionMethod0: simple, 1: Zoltan, 2: METIS, 3: Zoltan with a all cells of a well represented by one vertex in the graph, see GridEnums.hpp
 CPAvgCalculator
 CPAvgDynamicSourceData
 COpm::EQUIL::PcEq< FluidSystem, MaterialLawManager >Functor for inverting capillary pressure function
 COpm::EQUIL::PcEqSum< FluidSystem, MaterialLawManager >Functor for inverting a sum of capillary pressure functions
 COpm::Linear::BlackList::PeerBlackListedEntry
 COpm::Linear::PeerIndexGlobalIndexThis structure stores a local index on a peer process and a global index
 COpm::ConvergenceReport::PenaltyCard
 COpm::PerfData< Scalar >
 COpm::PerforationData< Scalar >Static data associated with a well perforation
 COpm::PerforationRates< Scalar >
 COpm::FlowProblem< TypeTag >::PffDofData_
 COpm::PffGridVector< GridView, Stencil, Data, DofMapper >A random-access container which stores data attached to a grid's degrees of freedom in a prefetch friendly manner
 COpm::PffGridVector< GridView, Stencil, Opm::FlowProblem::PffDofData_, DofMapper >
 COpm::RegionPhasePoreVolAverage::PhaseCompile-time disambiguation type for phases
 COpm::detail::BlockExtractor< TypeTag >::PhaseEntry
 COpm::detail::Extractor< TypeTag >::PhaseEntryA phase buffer extractor descriptor
 COpm::EQUIL::Details::PhaseQuantityValue< Scalar >Simple set of per-phase (named by primary component) quantities
 COpm::EQUIL::Details::PhaseSaturations< MaterialLawManager, FluidSystem, Region, CellID >Calculator for phase saturations
 COpm::BlackOilPolymerParams< Scalar >::PlyvmhCoefficients
 COpm::gpuistl::PointerView< T >A view towards a smart pointer to GPU-allocated memory
 COpm::Properties::TTag::PolyhedralGridVanguard
 COpm::PolymerSolutionContainer< Scalar >Struct holding polymer extension data
 COpm::EQUIL::Details::PhaseSaturations< MaterialLawManager, FluidSystem, Region, CellID >::PositionEvaluation point within a model geometry
 CDune::Preconditioner
 COpm::Accelerator::Preconditioner< Scalar, block_size, ApplyScalar >
 CPreconditioner
 COpm::Accelerator::Preconditioner< Scalar, block_size, cl::Buffer >
 COpm::PreconditionerFactory< Operator, Comm >This is an object factory for creating preconditioners
 COpm::gpuistl::PreconditionerHolder< X, Y >Common interface for adapters that hold preconditioners
 COpm::gpuistl::PreconditionerHolder< GpuVector< X::field_type >, GpuVector< Y::field_type > >
 COpm::Parameters::PreconditionerOrderThe order of the sequential preconditioner
 COpm::Parameters::PreconditionerRelaxation< Scalar >The relaxation factor of the preconditioner
 COpm::Properties::PreconditionerWrapper< TypeTag, MyTypeTag >Preconditioner used by the linear solver
 COpm::Properties::PreconditionerWrapper< TypeTag, TTag::ParallelBaseLinearSolver >
 COpm::Properties::PreconditionerWrapper< TypeTag, TTag::ParallelIstlLinearSolver >
 COpm::Linear::PreconditionerWrapperILU< TypeTag >
 COpm::Parameters::PredeterminedTimeStepsFileBy default, do not force any time steps
 COpm::Parameters::PreSolveNetwork
 COpm::PressureCallback< TypeTag >Callback class for a phase pressure
 COpm::Parameters::PressureMax< Scalar >
 COpm::Parameters::PressureMin< Scalar >
 COpm::StandardWellConnections< FluidSystem, Indices >::PressurePropertyFunctions
 COpm::Parameters::PressureScale< Scalar >
 CDune::Amg::PressureSolverPolicy< OperatorType, Solver, LevelTransferPolicy >
 CDune::Amg::PressureSolverPolicy< CoarseOperator, FlexibleSolver< CoarseOperator >, LevelTransferPolicy >
 COpm::EQUIL::Details::PressureTable< FluidSystem, Region >
 COpm::Properties::PrimaryVariables< TypeTag, MyTypeTag >A vector of primary variables within a sub-control volume
 COpm::Properties::PrimaryVariables< TypeTag, TTag::BlackOilModel >PrimaryVariables property
 COpm::Properties::PrimaryVariables< TypeTag, TTag::DiscreteFractureModel >PrimaryVariables property
 COpm::Properties::PrimaryVariables< TypeTag, TTag::FlashModel >PrimaryVariables property
 COpm::Properties::PrimaryVariables< TypeTag, TTag::FvBaseDiscretization >An object representing a local set of primary variables
 COpm::Properties::PrimaryVariables< TypeTag, TTag::ImmiscibleModel >PrimaryVariables property
 COpm::Properties::PrimaryVariables< TypeTag, TTag::NcpModel >PrimaryVariables property
 COpm::Properties::PrimaryVariables< TypeTag, TTag::PvsModel >PrimaryVariables property
 COpm::Properties::PrimaryVariables< TypeTag, TTag::Richards >PrimaryVariables property
 COpm::Parameters::PrintParametersPrint all parameters on startup?
 COpm::Parameters::PriVarOscilationThreshold< Scalar >
 COpm::Properties::Problem< TypeTag, MyTypeTag >The type of the problem
 COpm::Properties::Problem< TypeTag, TTag::FlowBaseProblemBlackoil >
 COpm::Properties::Problem< TypeTag, TTag::FlowBaseProblemComp >
 COpm::Parameters::ProjectSaturations
 COpm::StandardWellConnections< FluidSystem, Indices >::Properties
 COpm::PropertyTreeHierarchical collection of key/value pairs
 COpm::Properties::TTag::PvsModelThe type tag for the isothermal single phase problems
 COpm::Properties::PvsMoleFractionsBaseWeight< TypeTag, MyTypeTag >The basis value for the weight of the mole fraction primary variables
 COpm::Properties::PvsMoleFractionsBaseWeight< TypeTag, TTag::PvsModel >The basis value for the weight of the mole fraction primary variables
 COpm::Properties::PvsPressureBaseWeight< TypeTag, MyTypeTag >The basis value for the weight of the pressure primary variable
 COpm::Properties::PvsPressureBaseWeight< TypeTag, TTag::PvsModel >The basis value for the weight of the pressure primary variable
 COpm::Properties::PvsSaturationsBaseWeight< TypeTag, MyTypeTag >The basis value for the weight of the saturation primary variables
 COpm::Properties::PvsSaturationsBaseWeight< TypeTag, TTag::PvsModel >The basis value for the weight of the saturation primary variables
 COpm::Parameters::PvsVerbosityThe verbosity of the model (0 -> do not print anything, 2 -> spam stdout a lot)
 COpm::Pybind::PyBlackOilSimulator
 COpm::Pybind::PyFluidState< TypeTag >
 COpm::Pybind::PyMaterialState< TypeTag >
 COpm::QuadrialteralQuadratureGeometry< Scalar, dim >Quadrature geometry for quadrilaterals
 COpm::Properties::RateVector< TypeTag, MyTypeTag >Vector containing volumetric or areal rates of quantities
 COpm::Properties::RateVector< TypeTag, TTag::BlackOilModel >RateVector property
 COpm::Properties::RateVector< TypeTag, TTag::FlashModel >RateVector property
 COpm::Properties::RateVector< TypeTag, TTag::FvBaseDiscretization >A vector for mass/energy rates
 COpm::Properties::RateVector< TypeTag, TTag::ImmiscibleModel >RateVector property
 COpm::Properties::RateVector< TypeTag, TTag::NcpModel >RateVector property
 COpm::Properties::RateVector< TypeTag, TTag::PvsModel >RateVector property
 COpm::Properties::RateVector< TypeTag, TTag::Richards >RateVector property
 COpm::RatioCalculator< Value >
 COpm::aligned_allocator< T, Alignment >::rebind< U >
 COpm::aligned_allocator< void, Alignment >::rebind< U >
 COpm::RegionPhasePoreVolAverage::RegionCompile-time disambiguation type for regions
 COpm::RegionAttributeHelpers::RegionAttributes< RegionId, Attributes >Provide mapping from Region IDs to user-specified collection of per-region attributes
 COpm::RegionAttributeHelpers::Select::RegionIDParameter< RegionID, bool >
 COpm::RegionAttributeHelpers::Select::RegionIDParameter< RegionID, true >
 COpm::RegionPhasePoreVolAverageFacility for calculating volume-weighted average function values over user-defined regions in parallel
 COpm::Parameters::RegularizationFactorWells< Scalar >
 COpm::RelativeChangeInterfaceRelativeChangeInterface
 COpm::Parameters::RelaxedLinearSolverReduction
 COpm::Parameters::RelaxedMaxPvFraction< Scalar >
 COpm::Parameters::RelaxedPressureTolMsw< Scalar >
 COpm::Parameters::RelaxedWellFlowTol< Scalar >
 COpm::RelpermDiagnosticsThis class is intend to be a relperm diagnostics, to detect wrong input of relperm table and endpoints
 COpm::detail::Reorderer
 COpm::ConvergenceReport::ReservoirConvergenceMetric
 COpm::ReservoirCouplingMaster
 COpm::ReservoirCouplingSlave
 COpm::ReservoirCouplingSpawnSlaves
 COpm::ConvergenceReport::ReservoirFailure
 COpm::BlackOilLocalResidualTPFA< TypeTag >::ResidualNBInfo
 COpm::RestartLoad or save a state of a problem to/from the harddisk
 COpm::Parameters::RestartTime< Scalar >The default value for the simulation's restart time
 COpm::Parameters::RestartWritingInterval
 COpm::RFTContainer< FluidSystem >
 COpm::RFTContainer< GetPropType< TypeTag, Properties::FluidSystem > >
 COpm::Properties::TTag::RichardsThe type tag for problems discretized using the Richards model
 COpm::RichardsIndicesIndices for the primary variables/conservation equations of the Richards model
 COpm::EQUIL::Details::RK4IVP< Scalar, RHS >
 COpm::FlowGenericProblem< GridView, FluidSystem >::RockParams
 COpm::Accelerator::RocmMatrix< Scalar >This struct resembles a csr matrix
 COpm::Accelerator::RocmVector< Scalar >
 COpm::EQUIL::Miscibility::RsFunction< Scalar >Base class for phase mixing functions
 COpm::EQUIL::Miscibility::RsFunction< FluidSystem::Scalar >
 COpm::RSTConvClass computing RPTRST CONV output
 COpm::RunningStatistics< Scalar >Facility for calculating simple sample statistics without having full sample available
 COpm::RuntimePerforationSimple model of a well connection created at runtime, possibly as a result of a geo-mechanical fracturing process
 COpm::Satfunc::PhaseChecks::SatfuncCheckPointInterface< Scalar >Callback protocol for single saturation function consistency check point
 COpm::Satfunc::PhaseChecks::SatfuncConsistencyCheckManager< Scalar >Define and execute saturation function consistency checks for all cells in model
 COpm::SatfuncConsistencyChecks< Scalar >Platform for running sets of consistency checks against collection of saturation function end-points
 COpm::Parameters::SaveFile
 COpm::Parameters::SaveStep
 COpm::Properties::Scalar< TypeTag, MyTypeTag >Property to specify the type of scalar values
 COpm::Properties::Scalar< TypeTag, TTag::NumericModel >Set the default type of scalar values to double
 COpm::detail::BlockExtractor< TypeTag >::ScalarEntry
 COpm::detail::Extractor< TypeTag >::ScalarEntryA scalar extractor descriptor
 CDune::ScalarProduct
 COpm::Parameters::ScaleLinearSystem
 COpm::Parameters::SchedRestart
 COpm::VcfvStencil< Scalar, GridView >::ScvGeometry
 COpm::ReservoirCoupling::SecondsUtility class for comparing double values representing epoch dates or elapsed time
 COpm::SegmentState< Scalar >
 COpm::Parameters::SeparateSparseSourceTerms
 COpm::SerializableSimAbstract interface for simulator serialization ops
 COpm::FvBaseDiscretizationFemAdapt< TypeTag >::SerializeHelper< Serializer >
 COpm::FvBaseDiscretizationNoAdapt< TypeTag >::SerializeHelper< Serializer >
 CSerializer
 COpm::Parameters::SerialPartitioning
 Cstd::set
 COpm::Parameters::ShutUnsolvableWells
 COpm::GridDataOutput::SimMeshDataAccessor< GridView, partitions >
 COpm::SimplexGridVanguard< TypeTag >Provides a simulator vanguard which a creates regular grid made of simplices
 COpm::FlowGenericVanguard::SimulationModelParams
 COpm::Properties::Simulator< TypeTag, MyTypeTag >Manages the simulation time
 COpm::Simulator< TypeTag >Manages the initializing and running of time dependent problems
 COpm::Properties::Simulator< TypeTag, TTag::FvBaseDiscretization >Set the default type for the time manager
 COpm::SimulatorConvergenceOutputClass handling convergence history output for a simulator
 COpm::SimulatorReport
 COpm::SimulatorReportSingleA struct for returning timing data from a simulator to its caller
 COpm::SimulatorSerializerClass handling simulator serialization
 COpm::SimulatorTimerInterfaceInterface class for SimulatorTimer objects, to be improved
 COpm::InterRegFlowMap::SingleRegionMinimal representation of a single named region defintion
 COpm::SingleWellState< Scalar >
 COpm::BlackOilPolymerParams< Scalar >::SkprpolyTable
 COpm::Parameters::Slave
 CDune::Amg::SmootherTraits< Opm::ParallelRestrictedOverlappingSchwarz< Range, Domain, ParallelInfo, SeqPreconditioner > >Tells AMG how to use Opm::ParallelOverlappingILU0 smoother
 COpm::Properties::SolidEnergyLaw< TypeTag, MyTypeTag >The material law for the energy stored in the solid matrix
 COpm::Properties::SolidEnergyLaw< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::SolidEnergyLaw< TypeTag, TTag::MultiPhaseBaseModel >Set the energy storage law for the solid to the one which assumes zero heat capacity by default
 COpm::Properties::SolidEnergyLawParams< TypeTag, MyTypeTag >The parameters of the material law for energy storage of the solid
 COpm::Properties::SolidEnergyLawParams< TypeTag, TTag::MultiPhaseBaseModel >Extract the type of the parameter objects for the solid energy storage law from the law itself
 COpm::Properties::SolutionVector< TypeTag, MyTypeTag >Vector containing all primary variables of the grid
 COpm::Properties::SolutionVector< TypeTag, TTag::FvBaseDiscretization >The type of a solution for the whole grid at a fixed time
 COpm::Parameters::SolverContinueOnConvergenceFailure
 COpm::Parameters::SolverGrowthFactor< Scalar >
 COpm::Parameters::SolverMaxGrowth< Scalar >
 COpm::Parameters::SolverMaxRestarts
 COpm::Parameters::SolverMaxTimeStepInDays< Scalar >
 COpm::Parameters::SolverMinTimeStep< Scalar >
 COpm::Linear::SolverReportCollects summary information about the execution of the linear solver
 COpm::Parameters::SolverRestartFactor< Scalar >
 COpm::Parameters::SolverVerbosity
 COpm::Linear::SolverWrapperRestartedGMRes< TypeTag >Solver wrapper for the restarted GMRES solver of dune-istl
 COpm::Parameters::SolveWelleqInitially
 COpm::Properties::SparseMatrixAdapter< TypeTag, MyTypeTag >The class that allows to manipulate sparse matrices
 COpm::Properties::SparseMatrixAdapter< TypeTag, TTag::FlowIstlSolver >Set the type of a global jacobian matrix for linear solvers that are based on dune-istl
 COpm::Properties::SparseMatrixAdapter< TypeTag, TTag::ParallelBaseLinearSolver >Set the type of a global jacobian matrix for linear solvers that are based on dune-istl
 COpm::SparseTable< T >
 COpm::SparseTable< FlowInfo >
 COpm::SparseTable< int >
 COpm::SparseTable< NeighborInfo >
 COpm::SparseTable< size_t >
 COpm::SparseTable< std::size_t >
 COpm::SparseTable< VelocityInfo >
 COpm::Properties::SpatialDiscretizationSplice< TypeTag, MyTypeTag >The splice to be used for the spatial discretization
 COpm::Properties::SpatialDiscretizationSplice< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::SpatialDiscretizationSplice< TypeTag, TTag::MultiPhaseBaseModel >Set the default spatial discretization
 COpm::Properties::Splices< TypeTag, MyTypeTag >
 COpm::Properties::Splices< TypeTag, TTag::FvBaseDiscretization >Set the splices for the finite volume discretizations
 COpm::Properties::Splices< TypeTag, TTag::MultiPhaseBaseModel >Specify the splices of the MultiPhaseBaseModel type tag
 COpm::StandardPreconditioners< Operator, Comm >
 COpm::StandardPreconditioners< Operator, Dune::Amg::SequentialInformation >
 COpm::StandardWellAssemble< FluidSystem, Indices >Class handling assemble of the equation system for StandardWell
 COpm::StandardWellConnections< FluidSystem, Indices >
 COpm::StandardWellConnections< GetPropType< TypeTag, Properties::FluidSystem >, GetPropType< TypeTag, Properties::Indices > >
 COpm::StandardWellEquationAccess< Scalar, numEq >Class administering assembler access to equation system
 COpm::StandardWellEquations< Scalar, numEq >
 COpm::StandardWellEquations< Scalar, Indices::numEq >
 COpm::StandardWellEval< FluidSystem, Indices >
 COpm::StandardWellEval< GetPropType< TypeTag, Properties::FluidSystem >, GetPropType< TypeTag, Properties::Indices > >
 COpm::StandardWellPrimaryVariables< FluidSystem, Indices >Class holding primary variables for StandardWell
 COpm::StandardWellPrimaryVariables< GetPropType< TypeTag, Properties::FluidSystem >, GetPropType< TypeTag, Properties::Indices > >
 COpm::Properties::Stencil< TypeTag, MyTypeTag >The class describing the stencil of the spatial discretization
 COpm::Properties::Stencil< TypeTag, TTag::EcfvDiscretization >Set the stencil
 COpm::Properties::Stencil< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::Stencil< TypeTag, TTag::VcfvDiscretization >Set the stencil
 COpm::StepReport
 COpm::Parameters::StrictInnerIterWells
 COpm::Parameters::StrictOuterIterWells
 COpm::Properties::TTag::StructuredGridVanguard
 COpm::EcfvStencil< Scalar, GridView, needFaceIntegrationPos, needFaceNormal >::SubControlVolumeRepresents a sub-control volume
 COpm::VcfvStencil< Scalar, GridView >::SubControlVolumeFinite volume intersected with element
 COpm::VcfvStencil< Scalar, GridView >::SubControlVolumeFaceInterior face of a sub control volume
 COpm::SubDomainIndicesRepresenting a part of a grid, in a way suitable for performing local solves
 COpm::KeywordValidation::SupportedKeywordProperties< T >
 COpm::KeywordValidation::SupportedKeywords
 COpm::RateConverter::SurfaceToReservoirVoidage< FluidSystem, Region >Convert component rates at surface conditions to phase (voidage) rates at reservoir conditions
 COpm::GasLiftStage2< Scalar >::SurplusState
 COpm::WGHelpers::TargetCalculator< Scalar >Based on a group control mode, extract or calculate rates, and provide other conveniences
 COpm::TaskletInterfaceThe base class for tasklets
 COpm::TaskletRunnerHandles where a given tasklet is run
 COpm::TemperatureCallback< TypeTag >Callback class for temperature
 COpm::Parameters::TemperatureMax< Scalar >
 COpm::Parameters::TemperatureMin< Scalar >
 COpm::Properties::ThermalConductionLaw< TypeTag, MyTypeTag >The material law for thermal conduction
 COpm::Properties::ThermalConductionLaw< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::ThermalConductionLaw< TypeTag, TTag::MultiPhaseBaseModel >Set the thermal conduction law to a dummy one by default
 COpm::Properties::ThermalConductionLawParams< TypeTag, MyTypeTag >The parameters of the material law for thermal conduction
 COpm::Properties::ThermalConductionLawParams< TypeTag, TTag::MultiPhaseBaseModel >Extract the type of the parameter objects for the thermal conduction law from the law itself
 COpm::ThreadedEntityIterator< GridView, codim >Provides an STL-iterator like interface to iterate over the enties of a GridView in OpenMP threaded applications
 COpm::Properties::ThreadManager< TypeTag, MyTypeTag >The OpenMP threads manager
 COpm::ThreadManagerSimplifies multi-threaded capabilities
 COpm::Properties::ThreadManager< TypeTag, TTag::FvBaseDiscretization >The OpenMP threads manager
 COpm::Parameters::ThreadsPerProcessNumber of threads per process
 COpm::Properties::TimeDiscHistorySize< TypeTag, MyTypeTag >The history size required by the time discretization
 COpm::Properties::TimeDiscHistorySize< TypeTag, TTag::FvBaseDiscretization >Set the history size of the time discretization to 2 (for implicit euler)
 COpm::TimerProvides an encapsulation to measure the system time
 COpm::TimerGuardA simple class which makes sure that a timer gets stopped if an exception is thrown
 COpm::Parameters::TimeStepAfterEventInDays< Scalar >
 COpm::Parameters::TimeStepControl
 COpm::Parameters::TimeStepControlDecayDampingFactor
 COpm::Parameters::TimeStepControlDecayRate
 COpm::Parameters::TimeStepControlFileName
 COpm::Parameters::TimeStepControlGrowthDampingFactor
 COpm::Parameters::TimeStepControlGrowthRate
 COpm::TimeStepControlInterfaceTimeStepControlInterface
 COpm::Parameters::TimeStepControlSafetyFactor
 COpm::Parameters::TimeStepControlTargetIterations
 COpm::Parameters::TimeStepControlTargetNewtonIterations
 COpm::Parameters::TimeStepControlTolerance
 COpm::Parameters::TimeStepVerbosity
 COpm::Parameters::ToleranceCnv< Scalar >
 COpm::Parameters::ToleranceCnvEnergy< Scalar >
 COpm::Parameters::ToleranceCnvEnergyRelaxed< Scalar >
 COpm::Parameters::ToleranceCnvRelaxed< Scalar >
 COpm::Parameters::ToleranceEnergyBalance< Scalar >
 COpm::Parameters::ToleranceEnergyBalanceRelaxed< Scalar >
 COpm::Parameters::ToleranceMb< Scalar >
 COpm::Parameters::ToleranceMbRelaxed< Scalar >
 COpm::Parameters::TolerancePressureMsWells< Scalar >
 COpm::WellConvergence< Scalar >::Tolerances
 COpm::Parameters::ToleranceWellControl< Scalar >
 COpm::Parameters::ToleranceWells< Scalar >
 COpm::TpfaLinearizer< TypeTag >The common code for the linearizers of non-linear systems of equations
 COpm::TracerModel< TypeTag >::TracerBatch< TV >
 COpm::TracerModel< TypeTag >::TracerBatch< TracerVector >
 COpm::TracerContainer< FluidSystem >
 COpm::TracerContainer< GetPropType< TypeTag, Properties::FluidSystem > >
 COpm::Properties::TracerModel< TypeTag, MyTypeTag >
 COpm::Properties::TracerModel< TypeTag, TTag::FlowBaseProblem >
 COpm::Properties::TracerModel< TypeTag, TTag::FlowBaseProblemComp >
 COpm::TransBaseProblem< TypeTag >Provides the defaults for the parameters required by the transmissibility based volume flux calculation
 COpm::TransExtensiveQuantities< TypeTag >Provides the transmissibility based flux module
 COpm::TransFluxModule< TypeTag >Specifies a flux module which uses transmissibilities
 COpm::TransIntensiveQuantities< TypeTag >Provides the intensive quantities for the transmissibility based flux module
 COpm::Transmissibility< Grid, GridView, ElementMapper, CartesianIndexMapper, Scalar >
 Cstd::true_type
 Cmin_size::type
 CDune::UMFPack< Matrix >
 COpm::Properties::UndefinedPropertyTag to mark properties as undefined
 COpm::Satfunc::PhaseChecks::UnscaledSatfuncCheckPoint< Scalar >::UnscaledEndPointsCollection of saturation function end-points and function values extracted from tabulated saturation functions
 COpm::KeywordValidation::UnsupportedKeywordProperties
 COpm::Parameters::UpdateEquationsScaling
 COpm::Parameters::UseAverageDensityMsWells
 COpm::Parameters::UseGmres
 COpm::Parameters::UseImplicitIpr
 COpm::Properties::UseLinearizationLock< TypeTag, MyTypeTag >Use locking to prevent race conditions when linearizing the global system of equations in multi-threaded mode
 COpm::Properties::UseLinearizationLock< TypeTag, TTag::EcfvDiscretization >Locking is not required for the element centered finite volume method because race conditions cannot occur since each matrix/vector entry is written exactly once
 COpm::Properties::UseLinearizationLock< TypeTag, TTag::FvBaseDiscretization >
 COpm::Parameters::UseMultisegmentWell
 COpm::Properties::UseP1FiniteElementGradients< TypeTag, MyTypeTag >Use P1 finite-elements gradients instead of two-point gradients
 COpm::Properties::UseP1FiniteElementGradients< TypeTag, TTag::VcfvDiscretization >Use two-point gradients by default for the vertex centered finite volume scheme
 COpm::Properties::UseTwoPointGradients< TypeTag, MyTypeTag >
 COpm::Properties::UseTwoPointGradients< TypeTag, TTag::DiscreteFractureModel >For the discrete fracture model, we need to use two-point flux approximation or it will converge very poorly
 COpm::Parameters::UseUpdateStabilization
 COpm::Properties::UseVolumetricResidual< TypeTag, MyTypeTag >Specify whether to use volumetric residuals or not
 COpm::Properties::UseVolumetricResidual< TypeTag, TTag::FlowProblem >
 COpm::Properties::UseVolumetricResidual< TypeTag, TTag::FvBaseDiscretization >
 COpm::KeywordValidation::ValidationError
 COpm::RegionAttributeHelpers::RegionAttributes< RegionId, Attributes >::ValueAggregate per-region attributes along with region's representative cell
 COpm::Properties::Vanguard< TypeTag, MyTypeTag >Property which provides a Vanguard (manages grids)
 COpm::Properties::Vanguard< TypeTag, TTag::AluGridVanguard >
 COpm::Properties::Vanguard< TypeTag, TTag::CpGridVanguard >
 COpm::Properties::Vanguard< TypeTag, TTag::NumericModel >
 COpm::Properties::Vanguard< TypeTag, TTag::PolyhedralGridVanguard >
 COpm::Properties::Vanguard< TypeTag, TTag::StructuredGridVanguard >
 COpm::VcfvBaseOutputModule< TypeTag >Implements the discretization specific parts of writing files
 COpm::Properties::TTag::VcfvDiscretization
 COpm::VcfvGridCommHandleFactory< TypeTag >A class which provides types for DUNE grid handles for communication
 COpm::VcfvStencil< Scalar, GridView >Represents the finite volume geometry of a single element in the VCFV discretization
 COpm::VelocityCallback< TypeTag >Callback class for the velocity of a phase at the center of a DOF
 COpm::VelocityComponentCallback< TypeTag >Callback class for the velocity of a phase at the center of a DOF
 COpm::Properties::VertexMapper< TypeTag, MyTypeTag >The mapper to find the global index of a vertex
 COpm::Properties::VertexMapper< TypeTag, TTag::FvBaseDiscretization >Mapper for the grid view's vertices
 COpm::detail::VFPEvaluation< Scalar >An "ADB-like" structure with a single value and a set of derivatives
 COpm::VFPHelpers< Scalar >
 COpm::VFPInjProperties< Scalar >
 COpm::VFPInjProperties< FluidSystem::Scalar >
 COpm::VFPProdProperties< Scalar >Class which linearly interpolates BHP as a function of rate, tubing head pressure, water fraction, gas fraction, and artificial lift for production VFP tables, and similarly the BHP as a function of the rate and tubing head pressure
 COpm::VFPProdProperties< FluidSystem::Scalar >
 COpm::VFPProperties< Scalar >A thin wrapper class that holds one VFPProdProperties and one VFPInjProperties object
 COpm::VFPProperties< FluidSystem::Scalar >
 COpm::ViscosityCallback< TypeTag >Callback class for the viscosity of a phase
 COpm::VoigtContainer< T >
 COpm::VoigtContainer< std::vector< Scalar > >
 COpm::VtkBlackoilEnergyParamsStruct holding the parameters for VtkBlackoilEnergyOutputModule
 COpm::VtkBlackoilMICPParamsStruct holding the parameters for VtkBlackoilMICPModule
 COpm::VtkBlackoilParamsStruct holding the parameters for VtkBlackoilOutputModule
 COpm::Properties::TTag::VtkBlackOilPolymer
 COpm::VtkBlackoilPolymerParamsStruct holding the parameters for VtkBlackoilPolymerModule
 COpm::VtkBlackOilSolventParamsStruct holding the parameters for VtkBlackoilPolymerModule
 COpm::VtkCompositionParamsStruct holding the parameters for VtkCompositionModule
 COpm::VtkDiffusionParamsStruct holding the parameters for VtkDiffusionModule
 COpm::VtkDiscreteFractureParamsStruct holding the parameters for VtkDiscreteFractureModule
 COpm::VtkEnergyParamsStruct holding the parameters for VtkEnergyModule
 CDune::VTKFunction
 COpm::VtkMultiPhaseParamsStruct holding the parameters for VtkMultiPhaseModule
 COpm::Properties::VtkOutputFormat< TypeTag, MyTypeTag >Specify the format the VTK output is written to disk
 COpm::Properties::VtkOutputFormat< TypeTag, TTag::FvBaseDiscretization >Set the format of the VTK output to ASCII by default
 COpm::VtkPhasePresenceParamsStruct holding the parameters for VtkPhasePresenceModule
 COpm::VtkPrimaryVarsParamsStruct holding the parameters for VtkPrimaryPhaseModule
 COpm::VtkPtFlashParamsStruct holding the parameters for VtkPtFlashModule
 COpm::VtkTemperatureParamsStruct holding the parameters for VtkTemperatureModule
 COpm::Parameters::VtkWriteAverageMolarMasses
 COpm::Parameters::VtkWriteBiofilmConcentration
 COpm::Parameters::VtkWriteCalciteConcentration
 COpm::Parameters::VtkWriteDensities
 COpm::Parameters::VtkWriteDiffusionCoefficients
 COpm::Parameters::VtkWriteDofIndex
 COpm::Parameters::VtkWriteEffectiveDiffusionCoefficients
 COpm::Parameters::VtkWriteEnthalpies
 COpm::Parameters::VtkWriteEquilibriumConstants
 COpm::Parameters::VtkWriteExtrusionFactor
 COpm::Parameters::VtkWriteFilterVelocities
 COpm::Parameters::VtkWriteFluidEnthalpies
 COpm::Parameters::VtkWriteFluidInternalEnergies
 COpm::Parameters::VtkWriteFractureFilterVelocities
 COpm::Parameters::VtkWriteFractureIntrinsicPermeabilities
 COpm::Parameters::VtkWriteFractureMobilities
 COpm::Parameters::VtkWriteFracturePorosity
 COpm::Parameters::VtkWriteFractureRelativePermeabilities
 COpm::Parameters::VtkWriteFractureSaturations
 COpm::Parameters::VtkWriteFractureVolumeFraction
 COpm::Parameters::VtkWriteFugacities
 COpm::Parameters::VtkWriteFugacityCoeffs
 COpm::Parameters::VtkWriteGasDissolutionFactor
 COpm::Parameters::VtkWriteGasFormationVolumeFactor
 COpm::Parameters::VtkWriteGasSaturationPressure
 COpm::Parameters::VtkWriteInternalEnergies
 COpm::Parameters::VtkWriteIntrinsicPermeabilities
 COpm::Parameters::VtkWriteLiquidMoleFractions
 COpm::Parameters::VtkWriteMassFractions
 COpm::Parameters::VtkWriteMicrobialConcentration
 COpm::Parameters::VtkWriteMobilities
 COpm::Parameters::VtkWriteMolarities
 COpm::Parameters::VtkWriteMoleFractions
 COpm::Parameters::VtkWriteOilFormationVolumeFactor
 COpm::Parameters::VtkWriteOilSaturationPressure
 COpm::Parameters::VtkWriteOilVaporizationFactor
 COpm::Parameters::VtkWriteOxygenConcentration
 COpm::Parameters::VtkWritePhasePresence
 COpm::Parameters::VtkWritePolymerAdsorption
 COpm::Parameters::VtkWritePolymerConcentration
 COpm::Parameters::VtkWritePolymerDeadPoreVolume
 COpm::Parameters::VtkWritePolymerRockDensity
 COpm::Parameters::VtkWritePolymerViscosityCorrection
 COpm::Parameters::VtkWritePorosity
 COpm::Parameters::VtkWritePotentialGradients
 COpm::Parameters::VtkWritePressures
 COpm::Parameters::VtkWritePrimaryVars
 COpm::Parameters::VtkWritePrimaryVarsMeaning
 COpm::Parameters::VtkWriteProcessRank
 COpm::Parameters::VtkWriteRelativePermeabilities
 COpm::Parameters::VtkWriteRockInternalEnergy
 COpm::Parameters::VtkWriteSaturatedGasOilVaporizationFactor
 COpm::Parameters::VtkWriteSaturatedOilGasDissolutionFactor
 COpm::Parameters::VtkWriteSaturationRatios
 COpm::Parameters::VtkWriteSaturations
 COpm::Parameters::VtkWriteSolidInternalEnergy
 COpm::Parameters::VtkWriteSolventDensity
 COpm::Parameters::VtkWriteSolventMobility
 COpm::Parameters::VtkWriteSolventRsw
 COpm::Parameters::VtkWriteSolventSaturation
 COpm::Parameters::VtkWriteSolventViscosity
 COpm::Parameters::VtkWriteTemperature
 COpm::Parameters::VtkWriteThermalConductivity
 COpm::Parameters::VtkWriteTortuosities
 COpm::Parameters::VtkWriteTotalMassFractions
 COpm::Parameters::VtkWriteTotalMoleFractions
 COpm::Parameters::VtkWriteTotalThermalConductivity
 COpm::Parameters::VtkWriteTracerConcentration
 COpm::Parameters::VtkWriteUreaConcentration
 COpm::Parameters::VtkWriteViscosities
 COpm::Parameters::VtkWriteWaterFormationVolumeFactor
 COpm::Parameters::VtkWriteWaterViscosityCorrection
 COpm::Parameters::WaterOnlyThreshold< Scalar >
 COpm::WellAssemble< FluidSystem >
 COpm::WellBhpThpCalculator< Scalar >Class for computing BHP limits
 COpm::WellConstraints< Scalar >Class for computing well group constraints
 COpm::WellContainer< T >
 COpm::WellContainer< GPMaint::State >
 COpm::WellContainer< Opm::SingleWellState< FluidSystem::Scalar > >
 COpm::WellContainer< Opm::SingleWellState< GetPropType< TypeTag, Properties::Scalar > > >
 COpm::WellContainer< Opm::SingleWellState< Scalar > >
 COpm::WellContributions< Scalar >This class serves to eliminate the need to include the WellContributions into the matrix (with –matrix-add-well-contributions=true) for the cusparseSolver or openclSolver
 COpm::WellConvergence< Scalar >
 COpm::ConvergenceReport::WellConvergenceMetric
 COpm::ConvergenceReport::WellFailure
 COpm::WellFilterCake< Scalar >Class for well calculations related to filter cakes
 COpm::WellGroupConstraints< Scalar >Class for computing well group constraints
 COpm::WellGroupControls< Scalar >Class for computing well group controls
 COpm::WellGroupHelpers< Scalar >
 COpm::WellInterfaceGeneric< Scalar >
 COpm::WellInterfaceGeneric< FluidSystem::Scalar >
 COpm::Properties::WellModel< TypeTag, MyTypeTag >
 COpm::Properties::WellModel< TypeTag, TTag::FlowProblem >
 COpm::WellProdIndexCalculator< Scalar >Collect per-connection static information to enable calculating connection-level or well-level productivity index values when incorporating dynamic phase mobilities
 COpm::WellState< Scalar >The state of a set of wells, tailored for use by the fully implicit blackoil simulator
 COpm::WellState< FluidSystem::Scalar >
 COpm::WellState< GetPropType< TypeTag, Properties::Scalar > >
 COpm::WellTest< Scalar >Class for performing well tests
 COpm::WellTracerRate< Scalar >
 COpm::Properties::WettingFluid< TypeTag, MyTypeTag >The fluid used as the wetting phase (by default, we set the fluid system to the immiscible one, which requires this property.)
 COpm::Properties::WettingFluid< TypeTag, TTag::Richards >The wetting phase used
 COpm::Properties::WettingPhase< TypeTag, MyTypeTag >The wetting phase for two-phase models
 COpm::Properties::WettingPhase< TypeTag, TTag::ImmiscibleTwoPhaseModel >
 COpm::WGState< Scalar >
 COpm::WGState< GetPropType< TypeTag, Properties::Scalar > >
 COpm::Parameters::ZoltanImbalanceTol< Scalar >
 COpm::Parameters::ZoltanParams
 COpm::ZoltanPartitioningControl< Element >Control parameters for on-rank subdomain partitioning using Zoltan library
 COpm::Parameters::ZoltanPhgEdgeSizeThreshold