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This class implements a small container which holds the transmissibility mulitpliers for all the faces in the grid. More...
Namespaces | |
namespace | cmp |
In the namespace cmp are implemented functions for approximate comparison of double values based on absolute and relative difference. | |
namespace | DifferentiateOutputTable |
Apply piecewise linear differentiation (i.e., compute slopes) on a set of dependent variables in a linearised output table. | |
namespace | prefix |
Conversion prefix for units. | |
namespace | RawConsts |
Consts used in the non semantic, raw parsing of the eclipse file. | |
namespace | unit |
Definition of various units. | |
Classes | |
class | Actdims |
class | ActiveGridCells |
Simple class capturing active cells of a grid. More... | |
class | ActiveIndexByColumns |
Special purpose mapping facility to handle the output code's need to enumerate the active cells by columns (layer ID (K) cycling fastest, followed by J, followed by I) for aquifer connections. More... | |
class | Air |
A simple class implementing the fluid properties of air. More... | |
class | Aquancon |
class | Aqudims |
struct | AquiferCellProps |
class | AquiferConfig |
class | AquiferCT |
class | AquiferDimensions |
class | AquiferFlux |
class | Aquifetp |
class | AqutabTable |
class | AutoICD |
class | BaseFluidSystem |
The base class for all fluid systems. More... | |
class | BCConfig |
class | BCProp |
class | BlackOilDefaultIndexTraits |
The class which specifies the default phase and component indices for the black-oil fluid system. More... | |
class | BlackOilFluidState |
Implements a "tailor-made" fluid state class for the black-oil model. More... | |
class | BlackOilFluidSystem |
A fluid system which uses the black-oil model assumptions to calculate termodynamically meaningful quantities. More... | |
class | Box |
class | BoxManager |
class | Brine |
A class for the brine fluid properties. More... | |
class | BrineCO2FluidSystem |
A two-phase fluid system with water and CO2. More... | |
class | BrineCo2Pvt |
This class represents the Pressure-Volume-Temperature relations of the liquid phase for a CO2-Brine system. More... | |
class | BrineDensityTable |
class | BrineDynamic |
A class for the brine fluid properties. More... | |
class | BrineH2Pvt |
This class represents the Pressure-Volume-Temperature relations of the liquid phase for a H2-Brine system. More... | |
class | BrooksCorey |
Implementation of the Brooks-Corey capillary pressure <-> saturation relation. More... | |
class | BrooksCoreyParams |
Specification of the material parameters for the Brooks-Corey constitutive relations. More... | |
class | C1 |
Properties of pure molecular methane ![]() | |
class | C10 |
Properties of pure molecular n-Decane ![]() | |
class | Carfin |
class | CarfinManager |
class | CO2 |
A class for the CO2 fluid properties. More... | |
class | Co2BrineFluidSystem |
A two phase two component system with components co2 brine. More... | |
class | Co2GasPvt |
This class represents the Pressure-Volume-Temperature relations of the gas phase for CO2. More... | |
class | Co2StoreConfig |
class | ColumnSchema |
class | CompletedCells |
class | Component |
Abstract base class of a pure chemical species. More... | |
class | CompositionalConfig |
class | CompositionalFluidState |
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assuming thermodynamic equilibrium. More... | |
class | CompositionalFluidState< Scalar, FluidSystem, false > |
class | CompositionalFluidState< Scalar, FluidSystem, true > |
class | CompositionFromFugacities |
Calculates the chemical equilibrium from the component fugacities in a phase. More... | |
class | ComputeFromReferencePhase |
Computes all quantities of a generic fluid state if a reference phase has been specified. More... | |
class | ConditionalStorage |
A simple class which only stores a given member attribute if a boolean condition is true. More... | |
class | ConditionalStorage< false, T > |
class | Connection |
class | ConstantCompressibilityBrinePvt |
This class represents the Pressure-Volume-Temperature relations of the gas phase without vaporized oil. More... | |
class | ConstantCompressibilityOilPvt |
This class represents the Pressure-Volume-Temperature relations of the oil phase without dissolved gas and constant compressibility/"viscosibility". More... | |
class | ConstantCompressibilityWaterPvt |
This class represents the Pressure-Volume-Temperature relations of the gas phase without vaporized oil. More... | |
class | Constants |
A central place for various physical constants occuring in some equations. More... | |
class | ConstantSolidHeatCapLaw |
Implements a solid energy storage law which assumes constant heat capacity. More... | |
class | ConstantSolidHeatCapLawParams |
The default implementation of a parameter object for the solid energy storage law which assumes constant heat capacity. More... | |
struct | ContinueOnError |
class | CoordMapper |
class | CounterLog |
Provides a simple sytem for log message which are found by the Parser/Deck/EclipseState classes during processing the deck. More... | |
class | DeadOilPvt |
This class represents the Pressure-Volume-Temperature relations of the oil phase without dissolved gas. More... | |
class | Deck |
class | DeckItem |
class | DeckKeyword |
class | DeckOutput |
class | DeckRecord |
class | DeckSection |
class | DeckTree |
class | DeckValue |
class | DeckView |
struct | DENSITYRecord |
struct | DensityTable |
class | DenT |
struct | DiffCoeffGasRecord |
struct | DiffCoeffGasTable |
struct | DiffCoeffRecord |
struct | DiffCoeffTable |
struct | DiffCoeffWatRecord |
struct | DiffCoeffWatTable |
class | Dimension |
struct | DirectionalMaterialLawParams |
class | DNAPL |
A simple implementation of a dense non-aqueous phase liquid (DNAPL). More... | |
class | DryGasPvt |
This class represents the Pressure-Volume-Temperature relations of the gas phase without vaporized oil. More... | |
class | DryHumidGasPvt |
This class represents the Pressure-Volume-Temperature relations of the gas phase with vaporized water. More... | |
class | EclDefaultMaterial |
Implements the default three phase capillary pressure law used by the ECLipse simulator. More... | |
class | EclDefaultMaterialParams |
Default implementation for the parameters required by the default three-phase capillary pressure model used by Eclipse. More... | |
class | EclEpsConfig |
Specifies the configuration used by the endpoint scaling code. More... | |
class | EclEpsGridProperties |
Collects all grid properties which are relevant for end point scaling. More... | |
class | EclEpsScalingPoints |
Represents the points on the X and Y axis to be scaled if endpoint scaling is used. More... | |
struct | EclEpsScalingPointsInfo |
This structure represents all values which can be possibly used as scaling points in the endpoint scaling code. More... | |
class | EclEpsTwoPhaseLaw |
This material law takes a material law defined for unscaled saturation and converts it to a material law defined on scaled saturations. More... | |
class | EclEpsTwoPhaseLawParams |
A default implementation of the parameters for the material law adapter class which implements ECL endpoint scaling. More... | |
class | EclHeatcrLaw |
Implements the volumetric interior energy relations of rock used by ECL. More... | |
class | EclHeatcrLawParams |
The default implementation of a parameter object for the ECL thermal law. More... | |
class | EclHysterConfig |
class | EclHysteresisConfig |
Specifies the configuration used by the ECL kr/pC hysteresis code. More... | |
class | EclHysteresisTwoPhaseLaw |
This material law implements the hysteresis model of the ECL file format. More... | |
class | EclHysteresisTwoPhaseLawParams |
A default implementation of the parameters for the material law which implements the ECL relative permeability and capillary pressure hysteresis. More... | |
class | EclipseConfig |
class | EclipseGrid |
About cell information and dimension: The actual grid information is held in a pointer to an ERT ecl_grid_type instance. More... | |
class | EclipseGridInspector |
A class for inspecting the contents of an eclipse file. More... | |
class | EclipseIO |
A class to write reservoir and well states of a blackoil simulation to disk. More... | |
class | EclipsePRTLog |
class | EclipseState |
class | EclMaterialLawManager |
Provides an simple way to create and manage the material law objects for a complete ECL deck. More... | |
class | EclMultiplexerMaterial |
Implements a multiplexer class that provides all three phase capillary pressure laws used by the ECLipse simulator. More... | |
class | EclMultiplexerMaterialParams |
Multiplexer implementation for the parameters required by the multiplexed three-phase material law. More... | |
class | EclSolidEnergyLawMultiplexer |
Provides the energy storage relation of rock. More... | |
class | EclSolidEnergyLawMultiplexerParams |
The default implementation of a parameter object for the ECL thermal law. More... | |
class | EclSpecrockLaw |
Implements the volumetric interior energy relations of rock used by ECL. More... | |
class | EclSpecrockLawParams |
The default implementation of a parameter object for the ECL thermal law based on SPECROCK. More... | |
class | EclStone1Material |
Implements the second phase capillary pressure/relperm law suggested by Stone as used by the ECLipse simulator. More... | |
class | EclStone1MaterialParams |
Default implementation for the parameters required by the three-phase capillary pressure/relperm Stone 2 model used by Eclipse. More... | |
class | EclStone2Material |
Implements the second phase capillary pressure/relperm law suggested by Stone as used by the ECLipse simulator. More... | |
class | EclStone2MaterialParams |
Default implementation for the parameters required by the three-phase capillary pressure/relperm Stone 2 model used by Eclipse. More... | |
class | EclThcLaw |
Implements the total thermal conductivity and rock enthalpy relations used by ECL. More... | |
class | EclThcLawParams |
The default implementation of a parameter object for the thermal conduction law based on the THC* keywords from ECL. More... | |
class | EclThconrLaw |
Implements the total thermal conductivity relations specified by the ECL THCONR. More... | |
class | EclThconrLawParams |
The default implementation of a parameter object for the thermal conduction law based on the THCONR keyword from ECL. More... | |
class | EclThermalConductionLawMultiplexer |
Implements the total thermal conductivity and rock enthalpy relations used by ECL. More... | |
class | EclThermalConductionLawMultiplexerParams |
The default implementation of a parameter object for the ECL thermal law. More... | |
class | EclThermalLawManager |
Provides an simple way to create and manage the thermal law objects for a complete ECL deck. More... | |
class | EclTwoPhaseMaterial |
Implements a multiplexer class that provides ECL saturation functions for twophase simulations. More... | |
class | EclTwoPhaseMaterialParams |
Implementation for the parameters required by the material law for two-phase simulations. More... | |
class | EDITSection |
class | EffToAbsLaw |
This material law takes a material law defined for effective saturations and converts it to a material law defined on absolute saturations. More... | |
class | EffToAbsLawParams |
A default implementation of the parameters for the adapter class to convert material laws from effective to absolute saturations. More... | |
class | EndpointScaling |
class | EnkrvdTable |
class | EnptvdTable |
class | EnsureFinalized |
Default implementation for asserting finalization of parameter objects. More... | |
class | Eqldims |
class | EquilContainer |
class | EquilRecord |
class | ErrorGuard |
class | Events |
class | FastSmallVector |
An implementation of vector/array based on small object optimization. More... | |
class | Fault |
class | FaultCollection |
class | FaultFace |
class | FieldProps |
class | FieldPropsManager |
class | FileDeck |
struct | FilterCake |
class | FIPConfig |
Class holding FIP configuration from RPTSOL/RPTSCHED keyword. More... | |
class | FIPRegionStatistics |
Basic descriptive statistics about a model's fluid-in-place regions. More... | |
struct | FlatTable |
class | FlatTableWithCopy |
class | FluidStateEquilibriumTemperatureModule |
Module for the modular fluid state which stores the temperatures explicitly and assumes thermal equilibrium. More... | |
class | FluidStateExplicitCompositionModule |
Module for the modular fluid state which stores the phase compositions explicitly in terms of mole fractions. More... | |
class | FluidStateExplicitDensityModule |
Module for the modular fluid state which stores the densities explicitly. More... | |
class | FluidStateExplicitEnthalpyModule |
Module for the modular fluid state which stores the enthalpies explicitly. More... | |
class | FluidStateExplicitFugacityModule |
Module for the modular fluid state which stores the phase fugacity coefficients explicitly. More... | |
class | FluidStateExplicitPressureModule |
Module for the modular fluid state which stores the pressures explicitly. More... | |
class | FluidStateExplicitSaturationModule |
Module for the modular fluid state which stores the saturations explicitly. More... | |
class | FluidStateExplicitTemperatureModule |
Module for the modular fluid state which stores the temperatures explicitly. More... | |
class | FluidStateExplicitViscosityModule |
Module for the modular fluid state which stores the viscosities explicitly. More... | |
class | FluidStateImmiscibleCompositionModule |
Module for the modular fluid state which provides the phase compositions assuming immiscibility. More... | |
class | FluidStateImmiscibleFugacityModule |
Module for the modular fluid state which stores the phase fugacity coefficients explicitly assuming immiscibility. More... | |
class | FluidStateNullCompositionModule |
Module for the modular fluid state which does not store the compositions but throws std::logic_error instead. More... | |
class | FluidStateNullDensityModule |
Module for the modular fluid state which does not the densities but throws std::logic_error instead. More... | |
class | FluidStateNullEnthalpyModule |
Module for the modular fluid state which does not store the enthalpies but returns 0 instead. More... | |
class | FluidStateNullFugacityModule |
Module for the modular fluid state which does not store the fugacities but throws std::logic_error instead. More... | |
class | FluidStateNullPressureModule |
Module for the modular fluid state which does not the pressures but throws std::logic_error instead. More... | |
class | FluidStateNullSaturationModule |
Module for the modular fluid state which does not the saturations but throws std::logic_error instead. More... | |
class | FluidStateNullTemperatureModule |
Module for the modular fluid state which does not the temperatures but throws std::logic_error instead. More... | |
class | FluidStateNullViscosityModule |
Module for the modular fluid state which does not the viscosities but throws std::logic_error instead. More... | |
class | FluidThermalConductionLaw |
Implements a thermal conduction law which just takes the conductivity of a given fluid phase. More... | |
class | FluidThermalConductionLawParams |
Parameters for the thermal conduction law which just takes the conductivity of a given fluid phase. More... | |
class | FoamadsTable |
class | FoamConfig |
Foam behaviour data for all SATNUM regions. More... | |
class | FoamData |
Foam behaviour data for a single SATNUM region. More... | |
class | FoammobTable |
struct | fortran_double |
class | GasLiftGroup |
class | GasLiftOpt |
class | GasLiftWell |
class | GasPhase |
Represents the gas phase of a single (pseudo-) component. More... | |
class | GasPvtMultiplexer |
This class represents the Pressure-Volume-Temperature relations of the gas phase in the black-oil model. More... | |
class | GasPvtThermal |
This class implements temperature dependence of the PVT properties of gas. More... | |
class | GasvisctTable |
class | GConSale |
class | GConSump |
class | GenericOilGasFluidSystem |
A two phase system that can contain NumComp components. More... | |
class | GPMaint |
struct | GRAVITYRecord |
struct | GravityTable |
class | GridDims |
class | GridProperty |
class | GRIDSection |
class | Group |
class | GroupEconProductionLimits |
class | GroupOrder |
class | GsfTable |
class | GTNode |
class | GuideRate |
class | GuideRateConfig |
class | GuideRateModel |
class | H2 |
Properties of pure molecular hydrogen ![]() | |
class | H2GasPvt |
This class represents the Pressure-Volume-Temperature relations of the gas phase for H2. More... | |
class | H2O |
Material properties of pure water ![]() | |
class | H2OAirFluidSystem |
A fluid system with a liquid and a gaseous phase and water and air as components. More... | |
class | H2OAirMesityleneFluidSystem |
A fluid system with water, gas and NAPL as phases and water, air and mesitylene (DNAPL) as components. More... | |
class | H2OAirXyleneFluidSystem |
A fluid system with water, gas and NAPL as phases and water, air and NAPL (contaminant) as components. More... | |
class | H2ON2FluidSystem |
A two-phase fluid system with water and nitrogen as components. More... | |
class | H2ON2LiquidPhaseFluidSystem |
A liquid-phase-only fluid system with water and nitrogen as components. More... | |
class | HandlerContext |
class | IdealGas |
Relations valid for an ideal gas. More... | |
class | ImkrvdTable |
class | ImmiscibleFlash |
Determines the pressures and saturations of all fluid phases given the total mass of all components. More... | |
class | ImmiscibleFluidState |
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assuming thermodynamic equilibrium. More... | |
class | ImmiscibleFluidState< Scalar, FluidSystem, false > |
class | ImmiscibleFluidState< Scalar, FluidSystem, true > |
class | ImportContainer |
class | ImptvdTable |
class | InfoLogger |
class | InitConfig |
struct | InjMult |
class | Inplace |
class | IntervalTabulated2DFunction |
Implements a function that depends on two variables. More... | |
class | IOConfig |
class | IOrderSet |
class | JFunc |
class | JouleThomson |
class | KeywordGenerator |
class | KeywordHandlers |
Singleton class for Keyword handlers in Schedule. More... | |
class | KeywordLoader |
class | KeywordLocation |
class | KeywordSize |
class | LgrCollection |
class | LinearisedOutputTable |
Manage tables of column data, possibly with sub-tables, all with equal number of rows (i.e., with padding), and possibly with multiple tables pertaining to multiple subsets (i.e., cell regions). More... | |
class | LinearMaterial |
Implements a linear saturation-capillary pressure relation. More... | |
class | LinearMaterialParams |
Reference implementation of params for the linear M-phase material material. More... | |
class | LinearSolverProblem |
class | LiquidPhase |
Represents the liquid phase of a single (pseudo-) component. More... | |
class | LiveOilPvt |
This class represents the Pressure-Volume-Temperature relations of the oil phas with dissolved gas. More... | |
class | LNAPL |
A simple implementation of a LNAPL, e.g. More... | |
class | LogBackend |
Abstract interface class for log backends. More... | |
class | Logger |
class | MapAxes |
class | MaterialLawProblem |
struct | MathToolbox |
struct | MathToolbox< DenseAd::Evaluation< ValueT, numVars, staticSize > > |
struct | MechBCValue |
class | Mesitylene |
Component for Mesitylene. More... | |
class | MessageFormatterInterface |
Abstract interface for message formatting classes. More... | |
class | MessageLimiter |
Handles limiting the number of messages with the same tag. More... | |
class | MessageLimits |
class | MICPpara |
class | MiscibleMultiPhaseComposition |
Computes the composition of all phases of a N-phase, N-component fluid system assuming that all N phases are present. More... | |
class | MiscTable |
class | MMPCAuxConstraint |
Specifies an auxiliary constraint for the MiscibleMultiPhaseComposition constraint solver. More... | |
class | ModularFluidState |
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assuming thermodynamic equilibrium. More... | |
class | MonotCubicInterpolator |
Class to represent a one-dimensional function f with single-valued argument x. More... | |
struct | MonoThrowHandler |
A functor for handling a monostate in a visitor overload set. More... | |
class | MsfnTable |
struct | MULTREGTRecord |
class | MULTREGTScanner |
class | N2 |
Properties of pure molecular nitrogen ![]() | |
class | NameOrder |
class | NcpFlash |
Determines the phase compositions, pressures and saturations given the total mass of all components. More... | |
class | NetworkDims |
class | NextStep |
class | NNC |
struct | NNCdata |
class | NonEquilibriumFluidState |
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system not assuming thermodynamic equilibrium. More... | |
class | NonEquilibriumFluidState< Scalar, FluidSystem, false > |
class | NonEquilibriumFluidState< Scalar, FluidSystem, true > |
class | NonuniformTableLinear |
This class uses linear interpolation to compute the value (and its derivative) of a function f sampled at possibly nonuniform points. More... | |
class | NotImplemented |
class | NullComponent |
A component that only throws exceptions. More... | |
class | NullMaterial |
Implements a dummy linear saturation-capillary pressure relation which just disables capillary pressure. More... | |
class | NullMaterialParams |
Reference implementation of params for the linear M-phase material material. More... | |
class | NullMaterialTraits |
A generic traits class which does not provide any indices. More... | |
class | NullParameterCache |
A parameter cache which does nothing. More... | |
class | NullSolidEnergyLaw |
Implements a solid energy storage law which just returns 0. More... | |
class | NullThermalConductionLaw |
Implements a dummy law for thermal conduction to which isothermal models can fall back to. More... | |
struct | NumericalAquiferCell |
struct | NumericalAquiferConnection |
class | NumericalAquifers |
class | NumericalProblem |
class | Nupcol |
class | OilPvtMultiplexer |
This class represents the Pressure-Volume-Temperature relations of the oil phase in the black-oil model. More... | |
class | OilPvtThermal |
This class implements temperature dependence of the PVT properties of oil. More... | |
class | OilVaporizationProperties |
class | OilvisctTable |
class | OpmInputError |
class | OpmLog |
class | OrderedMap |
A map with iteration in the order of insertion. More... | |
class | OverburdTable |
class | Parameter |
class | ParameterCacheBase |
The base class of the parameter caches of fluid systems. More... | |
class | ParameterGroup |
ParameterGroup is a class that is used to provide run-time parameters. More... | |
struct | ParameterMapItem |
The parameter handlig system is structured as a tree, where each node inhertis from ParameterMapItem. More... | |
struct | ParameterMapItemTrait |
struct | ParameterMapItemTrait< bool > |
struct | ParameterMapItemTrait< double > |
struct | ParameterMapItemTrait< int > |
struct | ParameterMapItemTrait< ParameterGroup > |
struct | ParameterMapItemTrait< std::string > |
struct | ParameterRequirementAnd |
struct | ParameterRequirementMemberOf |
struct | ParameterRequirementNegative |
struct | ParameterRequirementNone |
struct | ParameterRequirementNonEmpty |
struct | ParameterRequirementNonNegative |
struct | ParameterRequirementNonPositive |
struct | ParameterRequirementNonZero |
struct | ParameterRequirementPositive |
struct | ParameterRequirementProbability |
class | ParkerLenhard |
Implements the Parker-Lenhard twophase p_c-Sw hysteresis model. More... | |
class | ParkerLenhardParams |
Default parameter class for the Parker-Lenhard hysteresis model. More... | |
class | ParseContext |
class | Parser |
The hub of the parsing process. More... | |
class | ParserItem |
class | ParserKeyword |
class | ParserRecord |
class | PAvg |
class | PAvgCalculator |
Facility for deriving well-level pressure values from selected block-averaging procedures. More... | |
class | PAvgCalculatorCollection |
Collection of WBPn calculation objects, one for each well. More... | |
class | PAvgDynamicSourceData |
Dynamic source data for block-average pressure calculations. More... | |
class | PbvdTable |
class | PcfactTable |
class | PdvdTable |
class | PengRobinson |
Implements the Peng-Robinson equation of state for liquids and gases. More... | |
class | PengRobinsonMixture |
Implements the Peng-Robinson equation of state for a mixture. More... | |
class | PengRobinsonParams |
Stores and provides access to the Peng-Robinson parameters. More... | |
class | PengRobinsonParamsMixture |
The mixing rule for the oil and the gas phases of the SPE5 problem. More... | |
class | PermfactTable |
class | Phases |
class | PiecewiseLinearTwoPhaseMaterial |
Implementation of a tabulated, piecewise linear capillary pressure law. More... | |
class | PiecewiseLinearTwoPhaseMaterialParams |
Specification of the material parameters for a two-phase material law which uses a table and piecewise constant interpolation. More... | |
struct | PlmixparRecord |
struct | PlmixparTable |
class | PLScanningCurve |
Represents a scanning curve in the Parker-Lenhard hysteresis model. More... | |
class | PlyadsTable |
class | PlydhflfTable |
class | PlymaxTable |
class | PlymwinjTable |
class | PlyrockTable |
class | PlyshlogTable |
class | PlyviscTable |
struct | PlyvmhRecord |
struct | PlyvmhTable |
class | PmiscTable |
class | PolyInjTable |
class | Ppcwmax |
struct | PpcwmaxRecord |
class | PressureOverlayFluidState |
This is a fluid state which allows to set the fluid pressures and takes all other quantities from an other fluid state. More... | |
class | PROPSSection |
class | PTFlash |
Determines the phase compositions, pressures and saturations given the total mass of all components for the chiwoms problem. More... | |
class | PTFlashParameterCache |
Specifies the parameter cache used by the SPE-5 fluid system. More... | |
struct | PVCDORecord |
struct | PvcdoTable |
class | PvdgTable |
class | PvdoTable |
class | PvdsTable |
class | PvtgTable |
class | PvtgwoTable |
class | PvtgwTable |
class | PvtoTable |
class | PvtsolTable |
struct | PVTWRecord |
class | PvtwsaltTable |
struct | PvtwTable |
class | PvtxTable |
class | Python |
class | PythonInterp |
class | RawKeyword |
class | RawRecord |
Class representing the lowest level of the Raw datatypes, a record. More... | |
class | RawString |
class | Regdims |
class | RegionSetMatchResult |
Result Set From RegionSetMatcher's Matching Process. More... | |
class | REGIONSSection |
class | RegulaFalsi |
class | RegulaFalsiBisection |
class | RegularizedBrooksCorey |
Implementation of the regularized Brooks-Corey capillary pressure / relative permeability <-> saturation relation. More... | |
class | RegularizedBrooksCoreyParams |
Parameters that are necessary for the regularization of the Brooks-Corey capillary pressure model. More... | |
class | RegularizedVanGenuchten |
Implementation of the regularized van Genuchten's capillary pressure / relative permeability <-> saturation relation. More... | |
class | RegularizedVanGenuchtenParams |
Parameters that are necessary for the regularization of VanGenuchten "material law". More... | |
struct | RegularSegment |
class | RestartKey |
class | RestartValue |
struct | ReturnEval_ |
class | RFTConfig |
class | Rock2dTable |
class | Rock2dtrTable |
class | RockConfig |
struct | ROCKRecord |
struct | RockTable |
class | RocktabTable |
class | RockwnodTable |
class | RPTConfig |
class | RSTConfig |
class | RsvdTable |
class | RtempvdTable |
class | Runspec |
class | RUNSPECSection |
class | RvvdTable |
class | RvwvdTable |
class | RwgsaltTable |
class | SaltpvdTable |
class | SaltsolTable |
class | SaltvdTable |
class | SatCurveMultiplexer |
Implements a multiplexer class that provides LET curves and piecewise linear saturation functions. More... | |
class | SatCurveMultiplexerParams |
Specification of the material parameters for the saturation function multiplexer. More... | |
class | SatFuncControls |
struct | SatFuncLETRecord |
class | SaturationOverlayFluidState |
This is a fluid state which allows to set the fluid saturations and takes all other quantities from an other fluid state. More... | |
class | Schedule |
class | ScheduleBlock |
class | ScheduleDeck |
struct | ScheduleDeckContext |
class | ScheduleGrid |
struct | ScheduleRestartInfo |
class | SCHEDULESection |
class | ScheduleState |
struct | ScheduleStatic |
class | Segment |
struct | SegmentIndex |
class | Serializer |
Class for (de-)serializing. More... | |
class | SgcwmisTable |
class | SgfnTable |
struct | SgofletTable |
class | SgofTable |
class | SgwfnTable |
struct | ShrateRecord |
struct | ShrateTable |
class | SICD |
class | SimpleCO2 |
A simplistic class representing the ![]() | |
class | SimpleH2 |
Properties of pure molecular hydrogen ![]() | |
class | SimpleH2O |
A simple version of pure water. More... | |
class | SimpleHuDuanH2O |
A simple version of pure water with density from Hu et al. More... | |
class | SimpleMessageFormatter |
A simple formatter capable of adding message prefixes and colors. More... | |
class | SimpleModularFluidState |
Represents all relevant thermodynamic quantities of a multi-phase, multi-component fluid system assuming thermodynamic equilibrium. More... | |
class | SimpleTable |
class | SimulationConfig |
struct | SimulatorUpdate |
This struct is used to communicate back from the Schedule::applyAction() what needs to be updated in the simulator when execution is returned to the simulator code. More... | |
struct | SingleAquiferFlux |
class | SingleNumericalAquifer |
class | SinglePhaseFluidSystem |
A fluid system for single phase models. More... | |
class | SkprpolyTable |
class | SkprwatTable |
class | SlgofTable |
class | Sof2Table |
class | Sof3Table |
class | SOLUTIONSection |
class | SolventDensityTable |
class | SolventPvt |
This class represents the Pressure-Volume-Temperature relations of the "second" gas phase in the of ECL simulations with solvents. More... | |
class | SomertonThermalConductionLaw |
Implements the Somerton law of thermal conductivity in a porous medium. More... | |
class | SomertonThermalConductionLawParams |
The default implementation of a parameter object for the Somerton thermal conduction law. More... | |
class | SorwmisTable |
class | Source |
class | SparseVector |
A SparseVector stores a vector with possibly many empty elements as efficiently as possible. More... | |
class | Spe5FluidSystem |
The fluid system for the oil, gas and water phases of the SPE5 problem. More... | |
class | Spe5ParameterCache |
Specifies the parameter cache used by the SPE-5 fluid system. More... | |
class | SpecheatTable |
class | SpecrockTable |
class | Spline |
Class implementing cubic splines. More... | |
class | SplineTwoPhaseMaterial |
Implementation of a tabulated capillary pressure and relperm law which uses spline curves as interpolation functions. More... | |
class | SplineTwoPhaseMaterialParams |
Specification of the material parameters for a two-phase material law which uses a table and spline-based interpolation. More... | |
class | SsfnTable |
struct | StandardCond |
class | StarToken |
struct | Stone1exRecord |
struct | Stone1exTable |
class | StreamLog |
class | StressEquilRecord |
class | SummaryConfig |
class | SummaryConfigNode |
class | SUMMARYSection |
class | SummaryState |
class | SwfnTable |
struct | SwofletTable |
class | SwofTable |
class | Tabdims |
class | TableColumn |
class | TableContainer |
class | TableIndex |
class | TableManager |
class | Tables |
class | TableSchema |
class | Tabulated1DFunction |
Implements a linearly interpolated scalar function that depends on one variable. More... | |
class | TabulatedComponent |
A generic class which tabulates all thermodynamic properties of a given component. More... | |
class | TemperatureOverlayFluidState |
This is a fluid state which allows to set the fluid temperatures and takes all other quantities from an other fluid state. More... | |
class | ThreeComponentFluidSystem |
A two phase three component fluid system with components CO2, Methane and NDekan. More... | |
class | ThreePhaseMaterialTraits |
A generic traits class for three-phase material laws. More... | |
class | ThreePhaseParkerVanGenuchten |
Implementation of three-phase capillary pressure and relative permeability relations proposed by Parker and van Genuchten. More... | |
class | ThreePhaseParkerVanGenuchtenParams |
Specification of the material params for the three-phase van Genuchten capillary pressure model. More... | |
class | ThresholdPressure |
struct | ThrowOnError |
class | TimerLog |
class | TimeStampUTC |
class | TimeSteppingBreakdown |
class | TLMixpar |
struct | TlmixparRecord |
struct | TlmixparTable |
struct | TLMixRecord |
class | TlpmixpaTable |
class | TooManyIterations |
class | TracerConfig |
class | Tracers |
class | TracerVdTable |
A class that contains tracer concentration vs depth table. More... | |
class | TransMult |
class | TridiagonalMatrix |
Provides a tridiagonal matrix that also supports non-zero entries in the upper right and lower left. More... | |
struct | Tuning |
class | TwoPhaseImmiscibleFluidSystem |
A fluid system for two-phase models assuming immiscibility and thermodynamic equilibrium. More... | |
class | TwoPhaseLETCurves |
Implementation of the LET curve saturation functions. More... | |
class | TwoPhaseLETCurvesParams |
Specification of the material parameters for the LET constitutive relations. More... | |
class | TwoPhaseMaterialTraits |
A generic traits class for two-phase material laws. More... | |
class | UDAValue |
class | UDQActive |
class | UDQAssign |
class | UDQASTNode |
class | UDQBinaryFunction |
class | UDQConfig |
class | UDQContext |
class | UDQDefine |
class | UDQDims |
class | UDQFunction |
class | UDQFunctionTable |
class | UDQIndex |
class | UDQInput |
class | UDQParams |
class | UDQScalar |
class | UDQScalarFunction |
class | UDQSet |
class | UDQState |
class | UDQToken |
class | UDQUnaryElementalFunction |
class | UDT |
class | UniformTableLinear |
This class uses linear interpolation to compute the value (and its derivative) of a function f sampled at uniform points. More... | |
class | UniformTabulated2DFunction |
Implements a scalar function that depends on two variables and which is sampled on an uniform X-Y grid. More... | |
class | UniformXTabulated2DFunction |
Implements a scalar function that depends on two variables and which is sampled uniformly in the X direction, but non-uniformly on the Y axis-. More... | |
class | Unit |
A component where all quantities are fixed at 1.0. More... | |
class | UnitSystem |
class | Valve |
struct | ValveUDAEval |
class | VanGenuchten |
Implementation of the van Genuchten capillary pressure - saturation relation. More... | |
class | VanGenuchtenParams |
Specification of the material parameters for the van Genuchten constitutive relations. More... | |
class | VFPInjTable |
class | VFPProdTable |
Class for reading data from a VFPPROD (vertical flow performance production) table. More... | |
class | ViscosityModels |
struct | VISCREFRecord |
struct | ViscrefTable |
struct | VisitorOverloadSet |
Helper struct for for generating visitor overload sets. More... | |
class | WagHysteresisConfig |
struct | WarnAndContinueOnError |
struct | WATDENTRecord |
struct | WatdentTable |
class | WaterPvtMultiplexer |
This class represents the Pressure-Volume-Temperature relations of the water phase in the black-oil model. More... | |
class | WaterPvtThermal |
This class implements temperature dependence of the PVT properties of water. More... | |
class | WatvisctTable |
class | WDFAC |
class | Well |
struct | WellBrineProperties |
class | WellConnections |
class | Welldims |
class | WellEconProductionLimits |
struct | WellFoamProperties |
class | WellGroupEvents |
struct | WellInjectionControls |
class | WellMatcher |
struct | WellMICPProperties |
struct | WellPolymerProperties |
struct | WellProductionControls |
class | WellSegmentDims |
class | WellSegments |
class | WellTestConfig |
class | WellTestState |
class | WellTracerProperties |
class | WellType |
class | WelSegsSet |
class | WetGasPvt |
This class represents the Pressure-Volume-Temperature relations of the gas phas with vaporized oil. More... | |
class | WetHumidGasPvt |
This class represents the Pressure-Volume-Temperature relations of the gas phase with vaporized oil and vaporized water. More... | |
class | WList |
class | WListManager |
class | WriteRestartFileEvents |
class | WsfTable |
class | WVFPDP |
class | WVFPEXP |
class | Xylene |
Component for Xylene. More... | |
class | ZcornMapper |
Typedefs | |
typedef std::shared_ptr< TimerLog > | TimerLogPtr |
typedef std::shared_ptr< const TimerLog > | TimerLogConstPtr |
using | time_point = std::chrono::time_point< std::chrono::system_clock, std::chrono::duration< int64_t, std::ratio< 1, 1000 > > > |
using | AQUFETP = ParserKeywords::AQUFETP |
using | AQUNUM = ParserKeywords::AQUNUM |
using | AQUCON = ParserKeywords::AQUCON |
using | Equil = EquilContainer< EquilRecord > |
using | StressEquil = EquilContainer< StressEquilRecord > |
using | BC = ParserKeywords::BCCON |
using | BCKEY = ParserKeywords::BCPROP |
using | AICD = ParserKeywords::WSEGAICD |
using | SOURCEKEY = ParserKeywords::SOURCE |
using | FS = BlackOilFluidSystem< double, BlackOilDefaultIndexTraits > |
Enumerations | |
enum class | Section { RUNSPEC , GRID , EDIT , PROPS , REGIONS , SOLUTION , SUMMARY , SCHEDULE } |
enum | DeckChecks { SectionTopology = 0x0001 , KeywordSection = 0x0002 , UnknownKeywords = 0x0004 , AllChecks = 0xffff } |
enum class | SaltMixingType { NONE , MICHAELIDES } |
enum class | LiquidMixingType { NONE , IDEAL , DUANSUN } |
enum class | GasMixingType { NONE , IDEAL } |
enum class | MinpvMode { Inactive = 1 , EclSTD = 2 } |
enum class | PinchMode { ALL = 1 , TOPBOT = 2 , TOP = 3 , GAP = 4 , NOGAP = 5 } |
enum class | Phase { OIL = 0 , GAS = 1 , WATER = 2 , SOLVENT = 3 , POLYMER = 4 , ENERGY = 5 , POLYMW = 6 , FOAM = 7 , BRINE = 8 , ZFRACTION = 9 } |
enum class | InputErrorAction { THROW_EXCEPTION = 0 , WARN = 1 , IGNORE = 2 , EXIT1 = 3 , DELAYED_EXIT1 = 4 } |
enum | ParserKeywordSizeEnum { SLASH_TERMINATED = 0 , FIXED = 1 , OTHER_KEYWORD_IN_DECK = 2 , UNKNOWN = 3 , FIXED_CODE = 4 , DOUBLE_SLASH_TERMINATED = 5 , SPECIAL_CASE_ROCK = 6 } |
enum | ParserKeywordActionEnum { INTERNALIZE = 0 , IGNORE = 1 , IGNORE_WARNING = 2 , THROW_EXCEPTION = 3 } |
enum class | BCType { RATE , FREE , DIRICHLET , THERMAL , CLOSED , NONE } |
enum class | BCMECHType { FREE , FIXED , NONE } |
enum class | BCComponent { OIL , GAS , WATER , SOLVENT , POLYMER , NONE } |
enum class | ICDStatus { OPEN , SHUT } |
enum class | WellSegmentCompPressureDrop { HFA = 0 , HF_ = 1 , H__ = 2 } |
enum class | ScheduleTimeType { START = 0 , DATES = 1 , TSTEP = 2 , RESTART = 3 } |
enum class | InjectorType { WATER = 1 , GAS = 2 , OIL = 3 , MULTI = 4 } |
enum class | SourceComponent { OIL , GAS , WATER , SOLVENT , POLYMER , NONE } |
enum class | UDQVarType { NONE = 0 , SCALAR = 1 , CONNECTION_VAR = 2 , FIELD_VAR = 3 , REGION_VAR = 4 , SEGMENT_VAR = 5 , AQUIFER_VAR = 6 , BLOCK_VAR = 7 , WELL_VAR = 8 , GROUP_VAR = 9 , TABLE_LOOKUP = 10 } |
enum class | UDQTokenType { error = 0 , number = 1 , open_paren = 2 , close_paren = 3 , comp_expr = 6 , ecl_expr = 7 , binary_op_add = 8 , binary_op_sub = 9 , binary_op_div = 10 , binary_op_mul = 11 , binary_op_pow = 12 , binary_op_uadd = 13 , binary_op_umul = 14 , binary_op_umin = 15 , binary_op_umax = 16 , binary_cmp_eq = 17 , binary_cmp_ne = 18 , binary_cmp_le = 19 , binary_cmp_ge = 20 , binary_cmp_lt = 21 , binary_cmp_gt = 22 , elemental_func_randn = 23 , elemental_func_randu = 24 , elemental_func_rrandn = 25 , elemental_func_rrandu = 26 , elemental_func_abs = 27 , elemental_func_def = 28 , elemental_func_exp = 29 , elemental_func_idv = 30 , elemental_func_ln = 31 , elemental_func_log = 32 , elemental_func_nint = 33 , elemental_func_sorta = 34 , elemental_func_sortd = 35 , elemental_func_undef = 36 , scalar_func_sum = 37 , scalar_func_avea = 38 , scalar_func_aveg = 39 , scalar_func_aveh = 40 , scalar_func_max = 41 , scalar_func_min = 42 , scalar_func_norm1 = 43 , scalar_func_norm2 = 44 , scalar_func_normi = 45 , scalar_func_prod = 46 , table_lookup = 47 , table_lookup_start = 48 , table_lookup_end = 49 , end = 100 } |
enum class | UDQAction { ASSIGN , DEFINE , UNITS , UPDATE } |
enum class | UDQUpdate { ON , OFF , NEXT } |
enum class | UDAControl { WCONPROD_ORAT , WCONPROD_WRAT , WCONPROD_GRAT , WCONPROD_LRAT , WCONPROD_RESV , WCONPROD_BHP , WCONPROD_THP , WCONPROD_LIFT , WCONINJE_RATE , WCONINJE_RESV , WCONINJE_BHP , WCONINJE_THP , GCONPROD_OIL_TARGET , GCONPROD_WATER_TARGET , GCONPROD_GAS_TARGET , GCONPROD_LIQUID_TARGET , GCONINJE_SURFACE_MAX_RATE , GCONINJE_RESV_MAX_RATE , GCONINJE_TARGET_REINJ_FRACTION , GCONINJE_TARGET_VOID_FRACTION , WELTARG_ORAT , WELTARG_WRAT , WELTARG_GRAT , WELTARG_LRAT , WELTARG_RESV , WELTARG_BHP , WELTARG_THP , WELTARG_LIFT } |
enum class | UDAKeyword { WCONPROD , WCONINJE , WELTARG , GCONINJE , GCONPROD } |
enum class | ConnectionOrder { DEPTH , INPUT , TRACK } |
enum class | WellStatus { OPEN = 1 , STOP = 2 , SHUT = 3 , AUTO = 4 } |
enum class | WellInjectorCMode : int { RATE = 1 , RESV = 2 , BHP = 4 , THP = 8 , GRUP = 16 , CMODE_UNDEFINED = 512 } |
enum class | WellProducerCMode : int { NONE = 0 , ORAT = 1 , WRAT = 2 , GRAT = 4 , LRAT = 8 , CRAT = 16 , RESV = 32 , BHP = 64 , THP = 128 , GRUP = 256 , CMODE_UNDEFINED = 1024 } |
enum class | WellWELTARGCMode { ORAT = 1 , WRAT = 2 , GRAT = 3 , LRAT = 4 , CRAT = 5 , RESV = 6 , BHP = 7 , THP = 8 , VFP = 9 , LIFT = 10 , GUID = 11 } |
enum class | WellGuideRateTarget { OIL = 0 , WAT = 1 , GAS = 2 , LIQ = 3 , COMB = 4 , WGA = 5 , CVAL = 6 , RAT = 7 , RES = 8 , UNDEFINED = 9 } |
enum class | WellGasInflowEquation { STD = 0 , R_G = 1 , P_P = 2 , GPP = 3 } |
enum class | type_tag { unknown = 0 , integer = 1 , string = 2 , raw_string = 3 , fdouble = 4 , uda = 5 } |
enum class | EclTwoPhaseSystemType { GasOil , OilWater , GasWater } |
Specified which fluids are involved in a given twophase material law for endpoint scaling. | |
enum class | EclMultiplexerApproach { Default , Stone1 , Stone2 , TwoPhase , OnePhase } |
enum class | EclTwoPhaseApproach { GasOil , OilWater , GasWater } |
enum class | SatCurveMultiplexerApproach { PiecewiseLinear , LET } |
enum class | GasPvtApproach { NoGas , DryGas , DryHumidGas , WetHumidGas , WetGas , ThermalGas , Co2Gas , H2Gas } |
enum class | OilPvtApproach { NoOil , LiveOil , DeadOil , ConstantCompressibilityOil , ThermalOil , BrineCo2 , BrineH2 } |
enum class | WaterPvtApproach { NoWater , ConstantCompressibilityBrine , ConstantCompressibilityWater , ThermalWater , BrineCo2 , BrineH2 } |
enum class | EclSolidEnergyApproach { Undefined , Heatcr , Specrock , Null } |
enum class | EclThermalConductionApproach { Undefined , Thconr , Thc , Null } |
Functions | |
std::string | demangle (const char *mangled_symbol) |
Returns demangled name of symbol. | |
std::string | unique_path (const std::string &input) |
template<typename T > | |
void | buildUniformMonotoneTable (const std::vector< double > &xv, const std::vector< T > &yv, const int samples, UniformTableLinear< T > &table) |
int | tableIndex (const std::vector< double > &table, double x) |
Returns an index in an ordered table such that x is between table[j] and table[j+1]. | |
std::pair< double, int > | linearInterpolationSlope (const std::vector< double > &xv, const std::vector< double > &yv, const double x) |
double | linearInterpolationDerivative (const std::vector< double > &xv, const std::vector< double > &yv, double x) |
double | linearInterpolation (const std::vector< double > &xv, const std::vector< double > &yv, double x) |
double | linearInterpolationNoExtrapolation (const std::vector< double > &xv, const std::vector< double > &yv, double x) |
double | linearInterpolation (const std::vector< double > &xv, const std::vector< double > &yv, double x, int &ix1) |
template<typename FI > | |
bool | isNondecreasing (const FI beg, const FI end) |
Detect if a sequence is nondecreasing. | |
template<class Functor > | |
void | bracketZero (const Functor &f, const double x0, const double dx, double &a, double &b) |
Attempts to find an interval bracketing a zero by successive enlargement of search interval. | |
template<typename T > | |
std::ostream & | operator<< (std::ostream &os, const UniformTableLinear< T > &t) |
std::string | correct_parameter_tag (const ParameterMapItem &item) |
std::string | correct_type (const Parameter ¶meter, const std::string ¶m_type) |
template<> | |
std::string | ParameterGroup::to_string< std::string > (const std::string &val) |
std::pair< std::string, std::string > | splitParam (const std::string &name) |
bool | shmatch (const std::string &pattern, const std::string &symbol) |
template<typename T , typename U > | |
U & | uppercase (const T &src, U &dst) |
std::vector< std::string > | split_string (const std::string &input, char delimiter) |
std::vector< std::string > | split_string (const std::string &input, const std::string &delimiters) |
std::string | format_double (double d) |
std::optional< double > | try_parse_double (const std::string &token) |
template<typename T > | |
std::string | ltrim_copy (const T &s) |
template<typename T > | |
std::string | rtrim_copy (const T &s) |
template<typename T > | |
std::string | trim_copy (const T &s) |
template<typename T > | |
void | replaceAll (T &data, const T &toSearch, const T &replace) |
template void | replaceAll (std::string &, const std::string &, const std::string &) |
template std::string | ltrim_copy (const std::string &) |
template std::string | rtrim_copy (const std::string &) |
template std::string | trim_copy (const std::string &) |
template std::string | trim_copy (const EclIO::PaddedOutputString< 4 > &) |
template std::string & | uppercase (const std::string &, std::string &) |
template std::string & | uppercase (const std::string_view &, std::string &) |
template<typename T > | |
std::decay< T >::type | uppercase (T &&x) |
TimeStampUTC | operator+ (const TimeStampUTC &lhs, std::chrono::duration< double > delta) |
std::time_t | asTimeT (const TimeStampUTC &tp) |
std::time_t | asLocalTimeT (const TimeStampUTC &tp) |
time_point | asTimePoint (const TimeStampUTC &tp) |
template<class... Ts> | |
VisitorOverloadSet (Ts...) -> VisitorOverloadSet< Ts... > | |
Deduction guide for visitor overload sets. | |
std::ostream & | operator<< (std::ostream &os, const Deck &deck) |
template<> | |
const std::vector< std::string > & | DeckItem::value_ref< std::string > () const |
std::ostream & | operator<< (std::ostream &os, const DeckItem &item) |
template std::string | DeckItem::get< std::string > (size_t) const |
template void | DeckItem::push_backDummyDefault< std::string > (std::size_t) |
template const std::vector< std::string > & | DeckItem::getData< std::string > () const |
std::ostream & | operator<< (std::ostream &os, const DeckKeyword &keyword) |
std::ostream & | operator<< (std::ostream &os, const DeckRecord &record) |
std::pair< std::size_t, std::size_t > | index_pair (const Deck &deck, const std::string §ion) |
template<> | |
bool | DeckValue::is_compatible< std::string > () const |
template<> | |
bool | UDAValue::is< std::string > () const |
std::ostream & | operator<< (std::ostream &stream, const UDAValue &uda_value) |
std::vector< int > | analyticAquiferIDs (const AquiferConfig &cfg) |
std::vector< int > | numericAquiferIDs (const AquiferConfig &cfg) |
bool | checkDeck (const Deck &deck, const Parser &parser, const ParseContext &parseContext, ErrorGuard &errorGuard, size_t enabledChecks) |
template<class MapType > | |
void | apply_tran (const std::unordered_map< std::string, Fieldprops::TranCalculator > &tran, const MapType &double_data, std::size_t active_size, const std::string &keyword, std::vector< double > &data) |
template void | apply_tran (const std::unordered_map< std::string, Fieldprops::TranCalculator > &, const std::unordered_map< std::string, Fieldprops::FieldData< double > > &, std::size_t, const std::string &, std::vector< double > &) |
template void | apply_tran (const std::unordered_map< std::string, Fieldprops::TranCalculator > &, const std::map< std::string, Fieldprops::FieldData< double > > &, std::size_t, const std::string &, std::vector< double > &) |
std::array< int, 3 > | readDims (const DeckKeyword &keyword) |
std::ostream & | operator<< (std::ostream &os, const MinpvMode &mm) |
std::string | PinchMode2String (const PinchMode enumValue) |
PinchMode | PinchModeFromString (const std::string &stringValue) |
std::ostream & | operator<< (std::ostream &os, const PinchMode pm) |
void | readKeywordCarfin (const DeckRecord &deckRecord, CarfinManager &carfinManager) |
void | setKeywordBox (const DeckRecord &deckRecord, BoxManager &boxManager) |
Phase | get_phase (const std::string &str) |
std::ostream & | operator<< (std::ostream &stream, const Phase &p) |
bool | operator== (const AquiferDimensions &lhs, const AquiferDimensions &rhs) |
std::size_t | declaredMaxRegionID (const Runspec &rspec) |
SummaryConfigNode::Type | parseKeywordType (std::string keyword) |
SummaryConfigNode::Category | parseKeywordCategory (const std::string &keyword) |
bool | operator== (const SummaryConfigNode &lhs, const SummaryConfigNode &rhs) |
bool | operator< (const SummaryConfigNode &lhs, const SummaryConfigNode &rhs) |
bool | operator!= (const SummaryConfigNode &lhs, const SummaryConfigNode &rhs) |
bool | operator<= (const SummaryConfigNode &lhs, const SummaryConfigNode &rhs) |
bool | operator> (const SummaryConfigNode &lhs, const SummaryConfigNode &rhs) |
bool | operator>= (const SummaryConfigNode &lhs, const SummaryConfigNode &rhs) |
void | updateFile (const std::string &newContent, const std::string &filename) |
void | write_file (const std::string &content, const std::string &file, bool verbose, std::string desc="source") |
std::ostream & | operator<< (std::ostream &os, const InputErrorAction action) |
void | assertFullDeck (const ParseContext &context) |
std::string | ParserKeywordSizeEnum2String (ParserKeywordSizeEnum enumValue) |
ParserKeywordSizeEnum | ParserKeywordSizeEnumFromString (const std::string &stringValue) |
std::string | ParserKeywordActionEnum2String (ParserKeywordActionEnum enumValue) |
ParserKeywordActionEnum | ParserKeywordActionEnumFromString (const std::string &stringValue) |
template<> | |
const std::string & | ParserItem::value_ref< std::string > () const |
std::ostream & | operator<< (std::ostream &stream, const ParserItem::item_size &sz) |
std::ostream & | operator<< (std::ostream &stream, const ParserItem &item) |
std::ostream & | operator<< (std::ostream &stream, const ParserKeyword &kw) |
std::ostream & | operator<< (std::ostream &stream, const ParserRecord &rec) |
bool | isStarToken (const std::string_view &token, std::string &countString, std::string &valueString) |
template<> | |
int | readValueToken< int > (std::string_view view) |
template<> | |
double | readValueToken< double > (std::string_view view) |
template<> | |
std::string | readValueToken< std::string > (std::string_view view) |
template<> | |
RawString | readValueToken< RawString > (std::string_view view) |
template<> | |
UDAValue | readValueToken< UDAValue > (std::string_view view) |
template<class T > | |
T | readValueToken (std::string_view) |
class | __attribute__ ((visibility("default"))) PyRunModule |
int | maxGroupSize (const Schedule &sched, const std::size_t step) |
void | checkConsistentArrayDimensions (const EclipseState &es, const Schedule &sched, const ParseContext &ctxt, ErrorGuard &guard) |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getGasLiftOptHandlers () |
Obtain a list of gasliftopt keyword handlers. | |
Group::GroupType | operator| (Group::GroupType lhs, Group::GroupType rhs) |
Group::GroupType | operator& (Group::GroupType lhs, Group::GroupType rhs) |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getGroupHandlers () |
Obtain a list of group keyword handlers. | |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getGuideRateHandlers () |
Obtain a list of guiderate keyword handlers. | |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getMixingRateControlHandlers () |
Obtain a list of mixing rate control keyword handlers. | |
template<class ICD > | |
std::map< std::string, std::vector< std::pair< int, ICD > > > | fromWSEG (const DeckKeyword &wseg) |
template<> | |
ICDStatus | from_int (int int_status) |
template<> | |
int | to_int (ICDStatus status) |
template<typename T > | |
T | from_int (int int_status) |
template<typename T > | |
int | to_int (T status) |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getMSWHandlers () |
Obtain a list of MSW keyword handlers. | |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getNetworkHandlers () |
Obtain a list of network keyword handlers. | |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getRXXHandlers () |
Obtain a list of RFT/RPT/RST keyword handlers. | |
std::ostream & | operator<< (std::ostream &os, const Schedule &sched) |
const std::string | InjectorType2String (InjectorType enumValue) |
InjectorType | InjectorTypeFromString (const std::string &stringValue) |
std::ostream & | operator<< (std::ostream &stream, const SummaryState &st) |
UDQASTNode | operator* (const UDQASTNode &lhs, double sign_factor) |
UDQASTNode | operator* (double lhs, const UDQASTNode &rhs) |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getUDQHandlers () |
Obtain a list of UDQ keyword handlers. | |
std::unique_ptr< UDQASTNode > | parseUDQExpression (const UDQParams &udq_params, UDQVarType target_type, const std::string &target_var, const KeywordLocation &location, const std::vector< UDQToken > &tokens_, const ParseContext &parseContext, ErrorGuard &errors) |
UDQScalar | operator+ (const UDQScalar &lhs, const UDQScalar &rhs) |
UDQScalar | operator+ (const UDQScalar &lhs, double rhs) |
UDQScalar | operator+ (double lhs, const UDQScalar &rhs) |
UDQScalar | operator- (const UDQScalar &lhs, const UDQScalar &rhs) |
UDQScalar | operator- (const UDQScalar &lhs, double rhs) |
UDQScalar | operator- (double lhs, const UDQScalar &rhs) |
UDQScalar | operator* (const UDQScalar &lhs, const UDQScalar &rhs) |
UDQScalar | operator* (const UDQScalar &lhs, double rhs) |
UDQScalar | operator* (double lhs, const UDQScalar &rhs) |
UDQScalar | operator/ (const UDQScalar &lhs, const UDQScalar &rhs) |
UDQScalar | operator/ (const UDQScalar &lhs, double rhs) |
UDQScalar | operator/ (double lhs, const UDQScalar &rhs) |
UDQSet | operator+ (const UDQSet &lhs, const UDQSet &rhs) |
UDQSet | operator+ (const UDQSet &lhs, double rhs) |
UDQSet | operator+ (double lhs, const UDQSet &rhs) |
UDQSet | operator- (const UDQSet &lhs, const UDQSet &rhs) |
UDQSet | operator- (const UDQSet &lhs, double rhs) |
UDQSet | operator- (double lhs, const UDQSet &rhs) |
UDQSet | operator* (const UDQSet &lhs, const UDQSet &rhs) |
UDQSet | operator* (const UDQSet &lhs, double rhs) |
UDQSet | operator* (double lhs, const UDQSet &rhs) |
UDQSet | operator/ (const UDQSet &lhs, const UDQSet &rhs) |
UDQSet | operator/ (const UDQSet &lhs, double rhs) |
UDQSet | operator/ (double lhs, const UDQSet &rhs) |
std::ostream & | operator<< (std::ostream &, const Well::WellInjectionProperties &) |
std::ostream & | operator<< (std::ostream &, const Well::WellProductionProperties &) |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getWellCompletionHandlers () |
Obtain a list of well completion keyword handlers. | |
std::optional< int > | getCompletionNumberFromGlobalConnectionIndex (const WellConnections &connections, const std::size_t global_index) |
std::string | WellStatus2String (WellStatus enumValue) |
WellStatus | WellStatusFromString (const std::string &stringValue) |
std::ostream & | operator<< (std::ostream &os, const WellStatus &st) |
std::string | WellInjectorCMode2String (WellInjectorCMode enumValue) |
WellInjectorCMode | WellInjectorCModeFromString (const std::string &stringValue) |
std::ostream & | operator<< (std::ostream &os, const WellInjectorCMode &cm) |
std::string | WellProducerCMode2String (WellProducerCMode enumValue) |
WellProducerCMode | WellProducerCModeFromString (const std::string &stringValue) |
std::ostream & | operator<< (std::ostream &os, const WellProducerCMode &cm) |
WellWELTARGCMode | WellWELTARGCModeFromString (const std::string &string_value) |
std::string | WellGuideRateTarget2String (WellGuideRateTarget enumValue) |
WellGuideRateTarget | WellGuideRateTargetFromString (const std::string &stringValue) |
std::string | WellGasInflowEquation2String (WellGasInflowEquation enumValue) |
WellGasInflowEquation | WellGasInflowEquationFromString (const std::string &stringValue) |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getWellHandlers () |
Obtain a list of well keyword handlers. | |
std::vector< std::pair< std::string, KeywordHandlers::handler_function > > | getWellPropertiesHandlers () |
Obtain a list of well properties keyword handlers. | |
std::string | tag_name (type_tag x) |
template<typename T > | |
type_tag | get_type () |
template<> | |
type_tag | get_type< int > () |
template<> | |
type_tag | get_type< double > () |
template<> | |
type_tag | get_type< std::string > () |
template<> | |
type_tag | get_type< RawString > () |
template<> | |
type_tag | get_type< UDAValue > () |
template<class Scalar , class Evaluation > | |
Evaluation | henryIAPWS (Scalar E, Scalar F, Scalar G, Scalar H, const Evaluation &temperature) |
The Henry constants in liquid water using the IAPWS 2004 formulation. | |
template<class Evaluation > | |
Evaluation | blank (const Evaluation &x) |
template<class Evaluation , class Scalar > | |
Evaluation | constant (const Scalar &value) |
template<class Evaluation , class Scalar > | |
Evaluation | constant (unsigned numDeriv, const Scalar &value) |
template<class Evaluation , class Scalar > | |
Evaluation | constant (const Evaluation &x, const Scalar &value) |
template<class Evaluation , class Scalar > | |
Evaluation | variable (unsigned numDeriv, const Scalar &value, unsigned idx) |
template<class Evaluation , class Scalar > | |
Evaluation | variable (const Evaluation &x, const Scalar &value, unsigned idx) |
template<class Evaluation , class Scalar > | |
Evaluation | variable (const Scalar &value, unsigned idx) |
template<class ResultEval , class Evaluation > | |
auto | decay (const Evaluation &value) -> decltype(MathToolbox< Evaluation >::template decay< ResultEval >(value)) |
template<class Evaluation > | |
auto | getValue (const Evaluation &val) -> decltype(MathToolbox< Evaluation >::value(val)) |
template<class Evaluation > | |
auto | scalarValue (const Evaluation &val) -> decltype(MathToolbox< Evaluation >::scalarValue(val)) |
template<class Evaluation1 , class Evaluation2 > | |
ReturnEval_< Evaluation1, Evaluation2 >::type | max (const Evaluation1 &arg1, const Evaluation2 &arg2) |
template<class Evaluation1 , class Evaluation2 > | |
ReturnEval_< Evaluation1, Evaluation2 >::type | min (const Evaluation1 &arg1, const Evaluation2 &arg2) |
template<class Evaluation > | |
Evaluation | abs (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | tan (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | atan (const Evaluation &value) |
template<class Evaluation1 , class Evaluation2 > | |
ReturnEval_< Evaluation1, Evaluation2 >::type | atan2 (const Evaluation1 &value1, const Evaluation2 &value2) |
template<class Evaluation > | |
Evaluation | sin (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | asin (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | sinh (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | asinh (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | cos (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | acos (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | cosh (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | acosh (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | sqrt (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | exp (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | log (const Evaluation &value) |
template<class Evaluation > | |
Evaluation | log10 (const Evaluation &value) |
template<class Evaluation1 , class Evaluation2 > | |
ReturnEval_< Evaluation1, Evaluation2 >::type | pow (const Evaluation1 &base, const Evaluation2 &exp) |
template<class Evaluation > | |
bool | isfinite (const Evaluation &value) |
template<class Evaluation > | |
bool | isnan (const Evaluation &value) |
template<class Scalar > | |
Scalar | arithmeticMean (Scalar x, Scalar y) |
Computes the arithmetic average of two values. | |
template<class Scalar > | |
Scalar | geometricMean (Scalar x, Scalar y) |
Computes the geometric average of two values. | |
template<class Scalar > | |
Scalar | harmonicMean (Scalar x, Scalar y) |
Computes the harmonic average of two values. | |
template<class Scalar , class SolContainer > | |
unsigned | invertLinearPolynomial (SolContainer &sol, Scalar a, Scalar b) |
Invert a linear polynomial analytically. | |
template<class Scalar , class SolContainer > | |
unsigned | invertQuadraticPolynomial (SolContainer &sol, Scalar a, Scalar b, Scalar c) |
Invert a quadratic polynomial analytically. | |
template<class Scalar , class SolContainer > | |
unsigned | invertCubicPolynomial (SolContainer *sol, Scalar a, Scalar b, Scalar c, Scalar d) |
Invert a cubic polynomial analytically. | |
template<class Scalar , class SolContainer > | |
unsigned | cubicRoots (SolContainer *sol, Scalar a, Scalar b, Scalar c, Scalar d) |
Invert a cubic polynomial analytically. | |
void | resetLocale () |
template<class Scalar , unsigned staticSize> | |
DenseAd::Evaluation< Scalar, -1, staticSize > | constant (int numDerivatives, const Scalar &value) |
template<class Scalar , unsigned staticSize> | |
DenseAd::Evaluation< Scalar, -1, staticSize > | variable (int numDerivatives, const Scalar &value, unsigned idx) |
template<class FluidState > | |
unsigned | getPvtRegionIndex_ (typename std::enable_if< HasMember_pvtRegionIndex< FluidState >::value, const FluidState & >::type fluidState) |
template<class FluidState > | |
unsigned | getPvtRegionIndex_ (typename std::enable_if<!HasMember_pvtRegionIndex< FluidState >::value, const FluidState & >::type) |
template<class FluidSystem , class FluidState , class LhsEval > | |
auto | getInvB_ (typename std::enable_if< HasMember_invB< FluidState >::value, const FluidState & >::type fluidState, unsigned phaseIdx, unsigned) -> decltype(decay< LhsEval >(fluidState.invB(phaseIdx))) |
template<class FluidSystem , class FluidState , class LhsEval > | |
LhsEval | getInvB_ (typename std::enable_if<!HasMember_invB< FluidState >::value, const FluidState & >::type fluidState, unsigned phaseIdx, unsigned pvtRegionIdx) |
template<class FluidState > | |
auto | getSaltConcentration_ (typename std::enable_if< HasMember_saltConcentration< FluidState >::value, const FluidState & >::type fluidState) |
template<class FluidState > | |
auto | getSaltConcentration_ (typename std::enable_if<!HasMember_saltConcentration< FluidState >::value, const FluidState & >::type) |
template<class FluidState > | |
auto | getSaltSaturation_ (typename std::enable_if< HasMember_saltSaturation< FluidState >::value, const FluidState & >::type fluidState) |
template<class FluidState > | |
auto | getSaltSaturation_ (typename std::enable_if<!HasMember_saltSaturation< FluidState >::value, const FluidState & >::type) |
ActiveIndexByColumns | buildColumnarActiveIndexMappingTables (const EclipseGrid &grid) |
Build natural->columnar active cell index mapping from an EclipseGrid instance. | |
Variables | |
const std::string | ID_true = "true" |
const std::string | ID_false = "false" |
const std::string | ID_xmltag__param_grp = "ParameterGroup" |
const std::string | ID_xmltag__param = "Parameter" |
const std::string | ID_param_type__bool = "bool" |
const std::string | ID_param_type__int = "int" |
const std::string | ID_param_type__float = "double" |
const std::string | ID_param_type__string = "string" |
const std::string | ID_param_type__file = "file" |
const std::string | ID_param_type__cmdline = "cmdline" |
const std::string | ID_path_root = "" |
const std::string | ID_delimiter_path = "/" |
const std::string | ID_comment = "//" |
const std::string | ID_delimiter_assignment = "=" |
const std::unordered_map< std::string, std::size_t > | section_index |
constexpr int | NUM_PHASES_IN_ENUM = static_cast<int>(Phase::ZFRACTION) + 1 |
This class implements a small container which holds the transmissibility mulitpliers for all the faces in the grid.
The unit sets emplyed in ECLIPSE, in particular the FIELD units, are quite inconsistent.
Encapsulation of the DATUM* familiy of SOLUTION section keywords which specify depths against which to compute depth corrected cell (block), region, and field-level pressures/potentials.
The multipliers in this class are built up from the transmissibility modifier keywords:
{MULTX , MULTX- , MULTY , MULTY- , MULTZ , MULTZ-, MULTFLT , MULTREGT}
This information goes into the definition of summary keywords [FRB]PP[OGW].
Ideally one should choose units for a set of base quantities like Mass,Time and Length and then derive the units for e.g. pressure and flowrate in a consisten manner. However that is not the case; for instance in the metric system we have:
[Length] = meters [time] = days [mass] = kg
This should give:
[Pressure] = [mass] / ([length] * [time]^2) = kg / (m * days * days)
Instead pressure is given in Bars. When it comes to FIELD units the number of such examples is long.
|
inline |
Computes the arithmetic average of two values.
This uses the usual definition of the arithmethic mean:
std::string Opm::correct_parameter_tag | ( | const ParameterMapItem & | item | ) |
unsigned Opm::cubicRoots | ( | SolContainer * | sol, |
Scalar | a, | ||
Scalar | b, | ||
Scalar | c, | ||
Scalar | d | ||
) |
Invert a cubic polynomial analytically.
The polynomial is defined as
This method returns the number of solutions which are in the real numbers. The "sol" argument contains the real roots of the cubic polynomial in order with the smallest root first.
sol | Container into which the solutions are written |
a | The coefficient for the cubic term |
b | The coefficient for the quadratic term |
c | The coefficient for the linear term |
d | The coefficient for the constant term |
std::string Opm::demangle | ( | const char * | mangled_symbol | ) |
Returns demangled name of symbol.
Non-demangled name is return if demangling is not supported
|
inline |
Computes the geometric average of two values.
This uses the usual definition of the geometric mean:
|
inline |
Computes the harmonic average of two values.
This uses the usual definition of the harmonic mean:
|
inline |
The Henry constants in liquid water using the IAPWS 2004 formulation.
This function calculates
IAPWS: "Guideline on the Henry's Constant and Vapor-Liquid Distribution Constant for Gases in H2O and D2O at High Temperatures" http://www.iapws.org/relguide/HenGuide.pdf
unsigned Opm::invertCubicPolynomial | ( | SolContainer * | sol, |
Scalar | a, | ||
Scalar | b, | ||
Scalar | c, | ||
Scalar | d | ||
) |
Invert a cubic polynomial analytically.
The polynomial is defined as
This method teturns the number of solutions which are in the real numbers. The "sol" argument contains the real roots of the cubic polynomial in order with the smallest root first.
sol | Container into which the solutions are written |
a | The coefficient for the cubic term |
b | The coefficient for the quadratic term |
c | The coefficient for the linear term |
d | The coefficient for the constant term |
unsigned Opm::invertLinearPolynomial | ( | SolContainer & | sol, |
Scalar | a, | ||
Scalar | b | ||
) |
Invert a linear polynomial analytically.
The polynomial is defined as
This method Returns the number of solutions which are in the real numbers, i.e. 1 except if the slope of the line is 0.
sol | Container into which the solutions are written |
a | The coefficient for the linear term |
b | The coefficient for the constant term |
unsigned Opm::invertQuadraticPolynomial | ( | SolContainer & | sol, |
Scalar | a, | ||
Scalar | b, | ||
Scalar | c | ||
) |
Invert a quadratic polynomial analytically.
The polynomial is defined as
This method teturns the number of solutions which are in the real numbers. The "sol" argument contains the real roots of the parabola in order with the smallest root first.
sol | Container into which the solutions are written |
a | The coefficient for the quadratic term |
b | The coefficient for the linear term |
c | The coefficient for the constant term |
bool Opm::isNondecreasing | ( | const FI | beg, |
const FI | end | ||
) |
Detect if a sequence is nondecreasing.
FI | a forward iterator whose value type has operator< defined. |
beg | start of sequence |
end | one-beyond-end of sequence |
|
inline |
Returns an index in an ordered table such that x is between table[j] and table[j+1].
If x is out of bounds, it returns a clamped index
const std::unordered_map<std::string, std::size_t> Opm::section_index |