Here are the classes, structs, unions and interfaces with brief descriptions:

[detail level 12345]

►NCGAL
►CindexedCell	An indexed form of CGAL::Triangulation_cell_base_3<K> used to keep track of the Delaunay cells (tets) in the tessellation
CRebind_TDS
►CindexedFace	An indexed form of CGAL::Triangulation_face_base_2<K> used to keep track of the vertices in the triangulation
CRebind_TDS
►CindexedVertex	An indexed form of CGAL::Triangulation_vertex_base_3<K> used to keep track of the Delaunay vertices in the tessellation
CRebind_TDS
►NFoam	Namespace for OpenFOAM
►NaspectRatioModels
CconstantAspectRatio	Constant value aspect ratio model
CTomiyamaAspectRatio	Aspect ratio model of Tomiyama
CVakhrushevEfremov	Aspect ratio model of Vakhrushev and Efremov
CWellek	Aspect ratio model of Wellek et al
►NAveragingMethods
CBasic	Basic lagrangian averaging procedure
CDual	Dual-mesh lagrangian averaging procedure
CMoment	Moment lagrangian averaging procedure
►NblendingMethods
Ccontinuous	Blending method for the case in which the continuous phase is always the same. E.g., for an air-particles flow, the air phase is always continuous
Chyperbolic	Blending method based on smooth hyperbolic functions. Supports the full range of phase fraction space. E.g., from droplets in air, through a segregated regime, to bubbly flow
Clinear	Blending method based on piecewise linear functions. Supports the full range of phase fraction space. E.g., from droplets in air, through a segregated regime, to bubbly flow
Csegregated	Blending method for segregated configurations. E.g., a churning flow in which it is never appropriate to consider one phase continuous
►NblockEdges
CarcEdge	An arcEdge between two points on a circle. The arc is defined either by a third point that the arc passes through, or by the angle of the sector and the axis of the circle
CBSplineEdge	A blockEdge interface for B-splines
ClineEdge	A straight edge between the start point and the end point
CpolyLineEdge	A blockEdge defined in terms of a series of straight line segments
CsplineEdge	A blockEdge interface for Catmull-Rom splines
►NblockFaces
CprojectFace	Projects the given set of face points onto the selected surface of the geometry provided as a searchableSurfaces object
►Nblocks
CnamedBlock	Gives name to a block
►NblockVertices
CnamedVertex	Gives name to a vertex
CpointVertex
CprojectVertex	Projects the vertex onto the selected surfaces of the geometry provided as a searchableSurfaces object
►NchemistryReductionMethods
CDAC	The Dynamic Adaptive Chemistry (DAC) method [1] simplify the chemistry using the matrix rAB defined by (DRGEP algorithm [2])
CDRG	Implementation of the Directed Relation Graph (DRG) method
CDRGEP	The DRGEP algorithm [1] is based on
CEFA
Cnone	A chemistryReductionMethod which does nothing to allow reduction to be switched-off
CPFA	Path flux analysis
►NchemistryTabulationMethods
CISAT	Implementation of the ISAT (In-situ adaptive tabulation), for chemistry calculation
Cnone	A chemistryTabulationMethod which does nothing to allow tabulation to be switched-off
►NcombustionModels
Cdiffusion	Simple diffusion-based combustion model based on the principle mixed is burnt. Additional parameter C is used to distribute the heat release rate in time
CEDC	Eddy Dissipation Concept (EDC) turbulent combustion model
CFSD	Flame Surface Density (FDS) combustion model
CinfinitelyFastChemistry	Simple infinitely fast chemistry combustion model based on the principle mixed is burnt. Additional parameter C is used to distribute the heat release rate.in time
Claminar	Laminar combustion model
CnoCombustion	Dummy combustion model for 'no combustion'
CPaSR	Partially stirred reactor turbulent combustion model
CsingleStepCombustion	Base class for combustion models using basicSpecieMixture
CzoneCombustion	Zone-filtered combustion model
►NcompressibilityModels	Namespace for compressibility models
CChung	Chung compressibility model
Clinear	Linear compressibility model
CWallis	Wallis compressibility model
►Ncompressible
►NRASModels
CalphatFilmWallFunctionFvPatchScalarField	This boundary condition provides a turbulent thermal diffusivity condition when using wall functions, for use with surface film models. This condition varies from the standard wall function by taking into account any mass released from the film model
CnutkFilmWallFunctionFvPatchScalarField	This boundary condition provides a turbulent viscosity condition when using wall functions, based on turbulence kinetic energy, for use with surface film models
CPDRkEpsilon	Standard k-epsilon turbulence model with additional source terms corresponding to PDR basic drag model (basic.H)
CalphatFixedDmdtfWallBoilingWallFunctionFvPatchScalarField	A simple alphatPhaseChangeWallFunctionFvPatchScalarField with a fixed volumetric phase-change mass flux
CalphatJayatillekeWallFunctionFvPatchScalarField	This boundary condition provides a thermal wall function for turbulent thermal diffusivity (usually`alphat`) based on the Jayatilleke model
CalphatPhaseChangeWallFunctionFvPatchScalarField	Abstract base-class for all alphatWallFunctions supporting phase-change
CalphatPhaseJayatillekeWallFunctionFvPatchScalarField	This boundary condition provides a thermal wall function for turbulent thermal diffusivity (usually`alphat`) based on the Jayatilleke model for the Eulerian multiphase solvers
CalphatWallBoilingWallFunctionFvPatchScalarField	A thermal wall function for simulation of subcooled nucleate wall boiling with runtime selectable submodels for:
CalphatWallFunctionFvPatchScalarField	This boundary condition provides a turbulent thermal diffusivity condition when using wall functions
CconvectiveHeatTransferFvPatchScalarField	This boundary condition provides a convective heat transfer coefficient condition
CthermalBaffle1DFvPatchScalarField	This BC solves a steady 1D thermal baffle
CthermalBaffleFvPatchScalarField	This boundary condition provides a coupled temperature condition between multiple mesh regions
CturbulentTemperatureCoupledBaffleMixedFvPatchScalarField	Mixed boundary condition for temperature, to be used for heat-transfer on back-to-back baffles. Optional thin thermal layer resistances can be specified through thicknessLayers and kappaLayers entries
CturbulentTemperatureRadCoupledMixedFvPatchScalarField	Mixed boundary condition for temperature and radiation heat transfer to be used for in multiregion cases. Optional thin thermal layer resistances can be specified through thicknessLayers and kappaLayers entries
►Nconstant	Collection of constants
►NcoordinateSystems
Ccartesian	Cylindrical coordinate system
CcoordinateSystems	Provides a centralised coordinateSystem collection
Ccylindrical	Cylindrical coordinate system
►NCorrectionLimitingMethods
Cabsolute	Correction limiting method based on the absolute particle velocity
CnoCorrectionLimiting
Crelative	Correction limiting method based on the relative particle velocity
►Ncut
CappendOp
CareaIntegrateOp
CareaMagIntegrateOp
CareaMagOp
CareaOp
►ClistOp
Cresult	Result class
CnoOp
CopAddResult	Trait to determine the result of the addition of two operations
CopAddResult< noOp, noOp >
CopAddResult< noOp, Op >
CopAddResult< Op, noOp >
CopAddResult< Op, Op >
CuniformOp
CvolumeIntegrateOp
CvolumeOp
►NDampingModels
CNoDamping
CRelaxation	Relaxation collisional damping model
►NdecompositionConstraints
CpreserveBafflesConstraint	Detects baffles and keeps owner and neighbour on same processor
CpreserveFaceZonesConstraint	Constraint to keep/move owner and neighbour of faceZone onto same processor
CpreservePatchesConstraint	Constraint to keep owner and neighbour of (cyclic) patch on same processor
CsingleProcessorFaceSetsConstraint	Constraint to keep all cells connected to face or point of faceSet on a single processor
►NdiameterModels
►NbinaryBreakupModels
CLehrMilliesMewes	Model of Lehr et al. (2002). The breakup rate is calculated by
CLiao	Bubble breakup model of Liao et al. (2015). The terminal velocities and drag coefficients are computed by an iterative procedure based on the drag model of Ishii and Zuber (1979) at the beginning of the simulation, assuming single bubbles rising in quiescent liquid
CLuoSvendsen	Model of Luo and Svendsen (1996). The breakup rate is calculated by
CpowerLawUniformBinary	Powerlaw kernel with a uniform daughter size distribution
►NbreakupModels
Cexponential	Exponential kernel
CKusters	Solid particle breakage model of Kusters (1991). The breakage rate is calculated by
CLaakkonen	Model of Laakkonen et al. (2007). The total breakup rate is calculated by
CpowerLaw	Powerlaw kernel
►NcoalescenceModels
CAdachiStuartFokkink	Model describing aggregation of solid particles in turbulent flows. Applicable when particles are smaller than the Kolmogorov length scale. The coalescence rate is calculated by
CballisticCollisions	Model describing coagulation due to ballistic collisions. Utilises collisional diameters
CBrownianCollisions	Model describing coagulation due to Brownian motion. Utilises collisional diameters and the Cunningham slip correction. The slip correction coefficient is implemented in the following form:
CconstantCoalescence	Constant coalescence kernel
CCoulaloglouTavlarides	Model of Coulaloglou and Tavlarides (1977). The coalescence rate is calculated by
CDahnekeInterpolation	Interpolation formula of Dahneke (1983) as presented by Otto et al. (1999). Utilises collisional diameters
Chydrodynamic	Hydrodynamic kernel
CLehrMilliesMewesCoalescence	Model of Lehr et al. (2002). The coalescence rate is calculated by
CLiaoCoalescence	Bubble coalescence model of Liao et al. (2015). The terminal velocities and drag coefficients are computed by an iterative procedure based on the drag model of Ishii and Zuber (1979) at the beginning of the simulation, assuming single bubbles rising in quiescent liquid
CLuo	Model of Luo (1993). The coalescence rate is calculated by
CPrinceBlanch	Model of Prince and Blanch (1990). The coalescence rate is calculated by
CturbulentShear	Model describing coagulation due to turbulent shear. Utilises physical, i.e. collisional diameters
►NdaughterSizeDistributionModels
CLaakkonenDaughterSizeDistribution	Daughter size distribution model of Laakkonen et al. (2007). Note that the diameters in the original expression were substituted by bubble volumes giving
CuniformBinary	Daughter size distribution for uniform binary breakup
►NdriftModels
CconstantDrift
CdensityChangeDrift	Drift rate induced by changes in density
CphaseChange	Drift induced by phase change. By default phase change mass flux is distributed between sizeGroups of each velocityGroup with phase change based on interfacial area of each size group
►NIATEsources
Cdummy
CphaseChange	Phase-change IATE source
CrandomCoalescence	Random coalescence IATE source as defined in paper:
CturbulentBreakUp	Turbulence-induced break-up IATE source as defined in paper:
CwakeEntrainmentCoalescence	Bubble coalescence due to wake entrainment IATE source as defined in paper:
CwallBoiling	Wall-boiling IATE source
►NnucleationModels
CconstantNucleation	Nucleation source due to reactions. Applicable for irreversible reactions only
CreactionDriven
CwallBoiling	Wall-boiling model which requires a velocityGroup (i.e. phase) to be specified in which the nucleation occurs. This setting must be consistent with the specifications in the alphatWallBoilingWallFunction. If the departure-diameter lies outside the diameter-range given by the sizeGroups of the corresponding velocityGroup, the solver will give a warning and the nucleation rate will be set to zero
►NshapeModels
►NsinteringModels
CKochFriedlander
CnoSintering
Cfractal	Class for modelling the shape of particle aggregates using the concept of fractal geometry. Returns a collisional diameter
CsinteringModel	Abstract base class for modelling sintering of primary particles in fractal aggregates
Cspherical	Uniform spherical shape
►CbinaryBreakupModel	Base class for binary breakup models that provide a breakup rate between a size class pair directly, i.e. without explicitly stating the daughter size distribution function
CiNew	Class used for the read-construction of
►CbreakupModel	Base class for breakup models which provide a total breakup rate and a separate daughter size distribution function
CiNew	Class used for the read-construction of
►CcoalescenceModel	Base class for coalescence models
CiNew	Class used for the read-construction of
Cconstant	Constant dispersed-phase particle diameter model
CdaughterSizeDistributionModel	Base class for daughter size distribution models. Currently only supports field-independent formulations
►CdriftModel	Base class for drift models
CiNew	Class used for the read-construction of
CIATE	IATE (Interfacial Area Transport Equation) bubble diameter model
►CIATEsource	IATE (Interfacial Area Transport Equation) bubble diameter model run-time selectable sources
CiNew	Class used for the read-construction of
Cisothermal	Isothermal dispersed-phase particle diameter model
CLiaoBase	Base class for coalescence and breakup models of Liao et al. (2015)
ClinearTsub
CnoDiameter	Diameter model for purely continuous phases
►CnucleationModel	Base class for nucleation models
CiNew	Class used for the read-construction of
►CpopulationBalanceModel	Model for tracking the evolution of a dispersed phase size distribution due to coalescence (synonymous with coagulation, aggregation, agglomeration) and breakup events as well as density or phase changes. Provides an approximate solution of the population balance equation by means of a class method. The underlying theory is described in the article of Lehnigk et al. (2021)
CiNew	Return a pointer to a new populationBalanceModel object created on
CSecondaryPropertyModel	Base class for modeling evolution of secondary representative properties of a size class. By default, transport between size classes due to coalescence, breakup and drift conserve the property. This behaviour can be overridden in a derived class
CshapeModel	Base class for modelling the shape of the particles belonging to a size class through alternative diameters, e.g. a collisional diameter, which can then be utilised in population balance submodels, e.g. for modelling fractal aggregation
►CsizeGroup	Single size class fraction field representing a fixed particle volume as defined by the user through the corresponding sphere equivalent diameter
CiNew	Return a pointer to a new sizeGroup created on freestore
Cspherical	Base class for models which represent spherical diameter models, providing a common implementation of surface area per unit volume
CvelocityGroup	Computes the Sauter mean diameter based on a user specified size distribution, defined in terms of size class fractions. Intended for use with a population balance model to account for the evolution of a size distribution by means of coalescence, breakup, drift and nucleation
►NdiffusiveMassTransferModels
CFrossling	Frossling correlation for turbulent mass transfer from the surface of a sphere to the surrounding fluid
CsphericalDiffusiveMassTransfer	Model which applies an analytical solution for mass transfer from the surface of a sphere to the fluid within the sphere
►NdistributionModels
Cexponential	Exponential distribution model
CfixedValue	Returns a fixed value
Cgeneral	A general distribution model where the distribution is specified as (point, value) pairs. By default the values are assumed to represent a probability density function, but the model also supports specifying a cumulative distribution function. In both cases it is assumed that the function is linear between the specified points
CmassRosinRammler	Mass-based Rosin-Rammler distributionModel
CmultiNormal	A multiNormal distribution model
Cnormal	A normal distribution model
CRosinRammler	Rosin-Rammler distributionModel
Cuniform	Uniform/equally-weighted distribution model
►NdragModels
CaerosolDrag	Stokes drag with Cunningham slip correction. The slip correction coefficient is implemented in the following form:
CAttouFerschneider	Attou and Ferschneider's Drag model for film flow through packed beds. The implementation follows the description of Gunjal and Ranade, who, in the reference below, formulate the model in more convenient terms
CBeetstra	Drag model of Beetstra et al. for monodisperse gas-particle flows obtained with direct numerical simulations with the Lattice-Boltzmann method and accounting for the effect of particle ensembles
CdispersedDragModel
CErgun	Reference:
CGibilaro	Reference:
CGidaspowErgunWenYu	Gidaspow, Ergun, Wen and Yu drag model
CGidaspowSchillerNaumann	Gidaspow, Schiller and Naumann drag model
CIshiiZuber	Ishii and Zuber (1979) drag model for dense dispersed bubbly flows
CLain	Drag model of Lain et al
CSchillerNaumann	Schiller and Naumann drag model for dispersed bubbly flows
Csegregated	Segregated drag model for use in regions with no obvious dispersed phase
CSyamlalOBrien	Reference:
CTenneti	Drag model of Tenneti et al. for monodisperse gas-particle flows obtained with particle-resolved direct numerical simulations and accounting for the effect of particle ensembles
CtimeScaleFiltered	A time scale filtering wrapper around an underlying drag model intended for simulations involving dispersed phase with a very small diameter. The model limits the drag coefficient based on the relaxation time given
CtimeScaleFilteredDrag
CTomiyamaAnalytic	Analytical drag model of Tomiyama et al
CTomiyamaCorrelated	Correlation of Tomiyama et al
CTomiyamaKataokaZunSakaguchi	Drag model for gas-liquid system of Tomiyama et al
CWenYu	Wen and Yu drag model
►NenergyScalingFunctions
CdoubleSigmoid
CnoScaling
Cshifted
CshiftedForce
Csigmoid
►NextrudeModels
CcyclicSector	Extrudes a sector
ClinearDirection	Extrudes by transforming points in a specified direction by a given distance
ClinearNormal	Extrudes by transforming points normal to the surface by a given distance
ClinearRadial
Cplane	Extrudes by transforming points normal to the surface by 1 layer over a given distance
Cradial
Csector	Extrudes by rotating a surface around an axis
CsigmaRadial
Cwedge	Extrudes by rotating a surface symmetrically around axis by 1 layer
►NfaceSelections
CfaceZoneSelection	Select faces from faceZone
CsearchableSurfaceSelection	Selects all (internal or coupled) faces intersecting the searchableSurface
►NfileFormats
CAC3DsurfaceFormat	Provide a means of reading/writing AC3D format
CAC3DsurfaceFormatCore	Internal class used by the AC3DsurfaceFormat
CedgeMeshFormat	Provide a means of reading/writing the single-file OpenFOAM edge format
CedgeMeshFormatsCore	A collection of helper functions for reading/writing edge formats
CextendedEdgeMeshFormat	Provide a means of reading/writing the single-file OpenFOAM extendedEdgeMesh format
CextendedFeatureEdgeMeshFormat	Provide a means of reading extendedFeatureEdgeMesh as featureEdgeMesh
CGTSsurfaceFormat	Provide a means of reading/writing GTS format. The output is never sorted by zone and is only written if it consists entirely of triangles
CNASCore	Core routines used when reading/writing NASTRAN files
CNASedgeFormat	Nastran edge reader
CNASsurfaceFormat	Nastran surface reader
COBJedgeFormat	Provide a means of reading/writing Alias/Wavefront OBJ format
COBJsurfaceFormat	Provide a means of reading/writing Alias/Wavefront OBJ format
COFFsurfaceFormat	Provide a means of reading/writing Geomview OFF polyList format
COFSsurfaceFormat	Provide a means of reading/writing the single-file OpenFOAM surface format
COFSsurfaceFormatCore	Internal class used by the OFSsurfaceFormat
CSMESHsurfaceFormat	Provide a means of writing tetgen SMESH format
CSTARCDCore	Core routines used when reading/writing pro-STAR vrt/cel/bnd files
CSTARCDedgeFormat	Read/write the lines from pro-STAR vrt/cel files
CSTARCDsurfaceFormat	Read/write the surface shells from pro-STAR vrt/cel files
CSTARCDsurfaceFormatCore	Internal class used by the STARCDsurfaceFormat
CSTLsurfaceFormat	Provide a means of reading/writing STL files (ASCII and binary)
CSTLsurfaceFormatCore	Internal class used by the STLsurfaceFormat
CsurfaceFormatsCore	A collection of helper functions for reading/writing surface formats
CTRIsurfaceFormat	Provide a means of reading/writing .tri format
CTRIsurfaceFormatCore	Internal class used by the TRIsurfaceFormat
CVTKedgeFormat	Provide a means of writing VTK legacy format
CVTKsurfaceFormat	Provide a means of reading/writing VTK legacy format. The output is never sorted by zone
CVTKsurfaceFormatCore	Internal class used by the VTKsurfaceFormat
CWRLsurfaceFormat	Provide a means of writing VRML97 (wrl) format
CWRLsurfaceFormatCore	Internal class used by the WRLsurfaceFormat
CX3DsurfaceFormat	Provide a means of writing x3d format
CX3DsurfaceFormatCore	Internal class used by the X3DsurfaceFormat
►NfileOperations
CcollatedFileOperation	Version of masterUncollatedFileOperation that collates regIOobjects into a container in the processors/ subdirectory
CcollatedFileOperationInitialise
CfileOperationInitialise
ChostCollatedFileOperation	Version of collatedFileOperation with multiple read/write ranks
ChostCollatedFileOperationInitialise
►CmasterUncollatedFileOperation
CchModOp
CcpOp
CexistsOp
CfileOrNullOp
CfileSizeOp
CisDirOp
CisFileOp
ClastModifiedHROp
ClastModifiedOp
ClnOp
CmkDirOp
CmodeOp
CmvBakOp
CmvOp
CreadDirOp
CrmDirOp
CrmOp
CtypeOp
CmasterUncollatedFileOperationInitialise	FileOperations that performs all file operations on the master processor. Requires the calls to be parallel synchronised!
CuncollatedFileOperation	FileOperation that assumes file operations are local
CunthreadedInitialise
►NFunction1s
CCoded	Constructs a dynamically compiled Function1
CConstant	Templated function that returns a constant value
ChalfCosineRamp	Half-cosine ramp function starting from 0 and increasing to 1 from `start` over the `duration` and remaining at 1 thereafter
CintegratedNonUniformTable	Non-uniform tabulated property function that linearly interpolates between the values
ClaminarBL	Laminar boundary-layer function yHat*(2 - yHat)
ClinearRamp	Linear ramp function starting from 0 and increasing linearRamply to 1 from `start` over the `duration` and remaining at 1 thereafter
CNone	Undefined Function1 which returns an error when called
CNonUniformTable	Non-uniform tabulated property function that linearly interpolates between the values
CNSRDS0	NSRDS function number 100
CNSRDS1	NSRDS function number 101
CNSRDS14	NSRDS function number 114
CNSRDS2	NSRDS function number 102
CNSRDS3	NSRDS function number 103
CNSRDS4	NSRDS function number 104
CNSRDS5	NSRDS function number 105
CNSRDS6	NSRDS function number 106
CNSRDS7	NSRDS-AICHE function number 107
COneConstant	Templated function that returns the corresponding 1 (one)
CPolynomial	Arbitrary order polynomial Function1
CquadraticRamp	Quadratic ramp function starting from 0 and increasing quadratically to 1 from `t_0` over the `duration` and remaining at 1 thereafter
CquarterCosineRamp	Quarter-cosine ramp function starting from 0 and increasing to 1 from `start` over the `duration` and remaining at 1 thereafter
CquarterSineRamp	Quarter-sine ramp function starting from 0 and increasing to 1 from `start` over the `duration` and remaining at 1 thereafter
CRamp	Ramp function base class for the set of scalar functions starting from 0 and increasing monotonically to 1 from `start` over the `duration` and remaining at 1 thereafter
CreverseRamp	A wrapper class to reverse any ramp function such that the result starts from 1 decreasing to 0 from `start` over the `duration` and remaining at 0 thereafter
CScale	Function1 which scales a given 'value' function by a 'scale' scalar function and scales the 'x' argument of the 'value' and 'scale' functions by the optional 'xScale' scalar function
CSine	Templated sine function with support for an offset level
CSquare	Templated square-wave function with support for an offset level
CsquarePulse	Square pulse function. Takes a value of 0 before `start`, then rises instantaneously to 1, remains at 1 for `duration`, then drops instantaneously back to 0
CTable	Templated interpolated tabulated data Function1
CtableBase
CturbulentBL	Turbulent boundary-layer function pow(yHat, exponent)
CUniform	Templated function that returns a constant value
CUniformTable	Tabulated property function that linearly interpolates between the UniformTable values
CZeroConstant	Templated function that returns the corresponding 0 (zero)
►NFunction2s
CAPIdiffCoef
CAPIdiffCoefFunc	API function for vapour mass diffusivity
CCoded	Constructs a dynamically compiled function of two variables
Ccoded
CConstant	Templated function of two variables that returns a constant value
CNone	Undefined Function2 which returns an error when called
COneConstant	Templated function of two variables that returns the corresponding 1 (one)
CScale	Function2 which scales a given 'value' function by a 'scale' scalar function and scales the 'x' and 'y' arguments of the 'value' and 'scale' functions by the optional 'xScale' and 'yScale' scalar functions
CUniformTable	Tabulated property function that linearly interpolates between the uniformTable values
CZeroConstant	Templated function of two variables that returns the corresponding 0 (zero)
►NfunctionEntries	Namespace for containing a functionEntry
CcalcEntry	Uses dynamic compilation to provide calculating functionality for entering dictionary entries
CcodeStream	Dictionary entry that contains C++ OpenFOAM code that is compiled to generate the entry itself. So
CifEntry	Conditional parsing of dictionary entries
CifeqEntry	Conditional parsing of dictionary entries
CincludeEntry	Specify an include file when reading dictionaries, expects a single string to follow
CincludeEtcEntry	Specify an etc file to include when reading dictionaries, expects a single string to follow
CincludeFuncEntry	Specify a functionObject dictionary file to include, expects the functionObject name to follow with option arguments (without quotes)
CincludeIfPresentEntry	Specify a file to include if it exists. Expects a single string to follow
CinputModeEntry	Specify the input mode when reading dictionaries, expects a single word to follow
CinputSyntaxEntry	Specify the dictionary scoping syntax, expects a single word to follow
CnegEntry	Negate a dictionary variable by prefixing with `neg`
CremoveEntry	Remove a dictionary entry
►NfunctionObjects	Namespace for functionObjects
►NfieldValues
CfieldValueDelta	Provides a differencing option between two 'field value' function objects
CsurfaceFieldValue	Provides a 'face regionType' variant of the fieldValues function object
►CvolFieldValue	Provides a 'volRegion' specialisation of the fieldValue function object
CResult	Forward declare the result structure
Cadd	Add a list of fields
Cage	Calculates and writes out the time taken for a particle to travel from an inlet to the location. Solves the following equation when incompressible: $\div (\phi t) = 1$ where:
CblendingFactor	Calculates and outputs the blendingFactor as used by the bended convection schemes. The output is a volume field (cells) whose value is calculated via the maximum blending factor for any cell face
CcloudInfo	Outputs Lagrangian cloud information to a file
Ccomfort	Calculates the thermal comfort quantities predicted mean vote (PMV), predicted percentage of dissatisfaction (PPD) and the draught rate (DR) based on DIN ISO EN 7730:2005
Ccomponents	Calculates the components of a field
CCourantNo	Calculates and outputs the Courant number as a volScalarField. The field is stored on the mesh database so that it can be retrieved and used for other applications
Ccylindrical	Transforms the specified velocity field into a cylindrical polar coordinate system or back to Cartesian
Cddt	Calculates the Eulerian time derivative of a field
Cdiv	Calculates the divergence of a field. The operation is limited to surfaceScalarFields and volVectorFields, and the output is a volScalarField
Cdivide	Divide a list of fields
CdsmcFields	Calculate intensive fields:
Censtrophy	Calculates the enstrophy of the velocity
CfieldAverage	Calculates average quantities for a user-specified selection of volumetric and surface fields
►CfieldAverageItem	Helper class to describe what form of averaging to apply. A set will be applied to each base field in Foam::fieldAverage, of the form:
CiNew	Class used for the read-construction of
CfieldCoordinateSystemTransform	Transforms a user-specified selection of fields from global Cartesian co-ordinates to a local co-ordinate system. The fields are run-time modifiable
CfieldExpression
CfieldsExpression
CfieldValue	Base class for field value -based function objects
CflowType	Calculates and writes the flowType of a velocity field
CforceCoeffs	Extends the forces functionObject by providing lift, drag and moment coefficients. The data can optionally be output into bins, defined in a given direction
Cforces	Calculates the forces and moments by integrating the pressure and skin-friction forces over a given list of patches
CfvMeshFunctionObject	Specialisation of Foam::functionObject for an Foam::fvMesh, providing a reference to the Foam::fvMesh
Cgrad	Calculates the gradient of a field
Chistogram	Write the volume-weighted histogram of a volScalarField
CinterfaceHeight	This function object reports the height of the interface above a set of locations. For each location, it writes the vertical distance of the interface above both the location and the lowest boundary. It also writes the point on the interface from which these heights are computed. It uses an integral approach, so if there are multiple interfaces above or below a location then this method will generate average values
CLambda2	Calculates and outputs the second largest eigenvalue of the sum of the square of the symmetrical and anti-symmetrical parts of the velocity gradient tensor
ClayerAverage
Clog	Calculates the natural logarithm of the specified scalar field
ClogFiles	FunctionObject base class for creating, maintaining and writing log files e.g. integrated of averaged field data vs time
CMachNo	Calculates and writes the Mach number as a volScalarField
Cmag	Calculates the magnitude of a field
CmagSqr	Calculates the magnitude of the sqr of a field
CmeshToMeshAdjustTimeStepFunctionObject	Adjusts time-step for meshToMesh mapping
Cmultiply	Multiply a list of fields
CnearWallFields	Samples near-patch volume fields
Cparticles	This functionObject tracks a particle cloud in the specified velocity field of an incompressible flow (laminar, RANS or LES)
CPecletNo	Calculates and outputs the Peclet number as a surfaceScalarField
CphaseForces	This functionObject calculates and outputs the blended interfacial forces acting on a given phase, i.e. drag, virtual mass, lift, wall-lubrication and turbulent dispersion. Note that it works only in run-time processing mode and in combination with the multiphaseEulerFoam solver
CphaseMap	This functionObject writes the phase-fraction map field alpha.map with incremental value ranges for each phase e.g., with values 0 for water, 1 for air, 2 for oil etc
CphaseScalarTransport	Evolves a passive scalar transport equation within one phase of a multiphase simulation. The scalar is considered to be a phase-intensive property; i.e., its value represents an amount per-unit of the phase. In addition to the scalar, the function also writes out the product of the volume fraction and the scalar, as this provides a phase-extensive field which is often more convenient to post-process
CpopulationBalanceMoments	Calculates and writes out integral (integer moments) or mean properties (mean, variance, standard deviation) of a size distribution determined by a population balance model. Requires solver post-processing
CpopulationBalanceSizeDistribution	Writes out the size distribution determined by a population balance model, either for the entire domain or a cell zone. Requires solver post- processing
Cpressure	Includes tools to manipulate the pressure into different forms
CprocessorField	Writes a scalar field whose value is the local processor ID. The output field name is 'processorID'
CQ	Calculates and outputs the second invariant of the velocity gradient tensor [1/s^2]
CQdot	Calculates and outputs the heat release rate for the current combustion model
Crandomise	Adds a random component to a field, with a specified perturbation magnitude
CreadFields	Reads fields from the time directories and adds them to the mesh database for further post-processing
Creconstruct	Calculates the reconstruction of a field; e.g., to construct a cell-centred velocity, U, from the face-centred flux, phi. The operation is limited to scalar and vector surface fields, and the output is a volume vector or tensor field
CregionFunctionObject	Specialisation of Foam::functionObject for a region and providing a reference to the region Foam::objectRegistry
CregionSizeDistribution	Creates a size distribution via interrogating a continuous phase fraction field
CremoveRegisteredObject	Removes registered objects if present in the database
Cresiduals	Writes out the initial residual for specified fields
CrigidBodyState	Writes the rigid body motion state
CsampledSets
CsampledSurfaces	Set of surfaces to sample
CscalarTransport	Evolves a passive scalar transport equation
Cscale	Multiplies a field by a scaling factor
CsetTimeStepFunctionObject	Updates the time step as a Function1 of time
CsetWriteIntervalFunctionObject	Updates the writeInterval as a Function1 of time
CshearStress	Calculates and writes the shear-stress as the volSymmTensorField field 'shearStress'
CsixDoFRigidBodyControl	Convergence control based on the 6-DoF motion state
CsixDoFRigidBodyState	Writes the 6-DoF motion state
CspecieReactionRates	Writes the domain averaged reaction rates for each specie for each reaction into the file <timeDir>/specieReactionRates.dat
CstopAt	Abstract base class for stop conditions
CstopAtClockTime	Stops the run when the specified clock time in seconds has been reached and optionally write results before stopping
CstopAtFile	Stops the run when the specified file is created in the case directory and optionally write results before stopping
CstreamFunction	This function object calculates and outputs the stream-function as a pointScalarField
Cstreamlines	Generates streamline data by sampling a set of user-specified fields along a particle track, transported by a user-specified velocity field
Csubtract	From the first field subtract the remaining fields in the list
CsurfaceInterpolate	Calculates the surface interpolation of a field
CsystemCall	Executes system calls, entered in the form of a string lists
Ctime	Writes run time, CPU time and clock time and optionally the CPU and clock times per time step
CtimeActivatedFileUpdate	Performs a file copy/replacement once a specified time has been reached
CtimeControl	General time control for functionObjects
CtimeStep	Writes the time step
CtotalEnthalpy	Calculates and writes the total enthalpy (ha + K) as the volScalarField 'Ha'
CturbulenceFields	Stores turbulence fields on the mesh database for further manipulation
CturbulenceIntensity	Evaluates and writes the turbulence intensity field 'I'
Cuniform	Generate a uniform field
CvolRegion	Volume (cell) region selection class
Cvorticity	Calculates the vorticity, the curl of the velocity
CwallHeatFlux	Calculates and write the heat-flux at wall patches as the volScalarField field 'wallHeatFlux'
CwallHeatTransferCoeff	Calculates and writes the estimated heat transfer coefficient at wall patches as the volScalarField field
CwallShearStress	Calculates and write the shear-stress at wall patches as the volVectorField field 'wallShearStress' or 'wallShearStress.<phase>'
CwriteCellCentres	Writes the cell-centres volVectorField and the three component fields as volScalarFields
CwriteCellVolumes	Writes the cell-volumes volScalarField
CwriteDictionary	Writes dictionaries on start-up and on change
CwriteFile	FunctionObject base class for writing single files
CwriteLocalObjects	FunctionObject base class for managing a list of objects on behalf of the inheriting function object, on when those should be written to disk
CwriteObjects	Allows specification of different writing frequency of objects registered to the database
CwriteObjectsBase	FunctionObject base class for writing a list of objects registered to the database, on behalf of the inheriting function object, on when those should be written to disk
CwriteVTK	This functionObject writes objects registered to the database in VTK format using the foamToVTK library
CXiReactionRate	Writes the turbulent flame-speed and reaction-rate volScalarFields for the Xi-based combustion models
CyPlus	Evaluates and outputs turbulence y+ for models. Values written to time directories as field 'yPlus' or 'yPlus.<phase>'
►Nfv	Namespace for finite-volume
►NgradientLimiters
Ccubic	Cubic gradient limiter
Cminmod	Minmod gradient limiter
CVenkatakrishnan	Venkatakrishnan gradient limiter
►NheatTransferModels
Cconstant	Constant heat transfer model. The heat transfer coefficient [W/m^2/K] (htc) must be provided as a value in the coefficients dictionary or as a field in constant
Cfunction1	Function1 heat transfer model. The 1D function returns the heat transfer coefficient as a function of the local velocity magnitude
Cfunction2	Function2 heat transfer model. The 2D function returns the heat transfer coefficient as a function of the local and neighbouring velocity magnitudes. An area-per-unit-volume [1/m] field (AoV) must be provided in constant
Cvariable	Variable heat transfer model depending on local values. The Nusselt number is calculated as:
CaccelerationSource	This fvModel applies an explicit acceleration force to components of the velocity field
CactuationDiskSource	Actuation disk source
CbackwardDdtScheme	Second-order backward-differencing ddt using the current and two previous time-step values
CboundedConvectionScheme	Bounded form of the selected convection scheme
CboundedDdtScheme	Bounded form of the selected ddt scheme
CbuoyancyEnergy	Calculates and applies the buoyancy energy source rho*(U&g) to the energy equation
CbuoyancyForce	Calculates and applies the buoyancy force rho*g to the momentum equation corresponding to the specified velocity field
CcellLimitedGrad	CellLimitedGrad gradient scheme applied to a runTime selected base gradient scheme
CcellMDLimitedGrad	CellMDLimitedGrad gradient scheme applied to a runTime selected base gradient scheme
CCentredFitSnGradScheme	Centred fit snGrad scheme which applies an explicit correction to snGrad
Cclouds	This fvModel adds any number of Lagrangian clouds to any single-phase solver. The particles are tracked through, and exchange sources with, the Eulerian flow field
CcodedFvModel	Constructs on-the-fly fvModel source from user-supplied code
CCoEulerDdtScheme	Courant number limited first-order Euler implicit/explicit ddt
CconvectionScheme	Abstract base class for convection schemes
CcorrectedSnGrad	Simple central-difference snGrad scheme with non-orthogonal correction
CCrankNicolsonDdtScheme	Second-oder Crank-Nicolson implicit ddt using the current and previous time-step fields as well as the previous time-step ddt
Cd2dt2Scheme	Abstract base class for d2dt2 schemes
Cdamping	Base fvModel for damping functions
CddtScheme	Abstract base class for ddt schemes
CdivScheme	Abstract base class for div schemes
CeffectivenessHeatExchangerSource	Heat exchanger source model, in which the heat exchanger is defined as a selection of cells
CEulerD2dt2Scheme	First-order Euler implicit d2dt2 using the current and two previous time-step values
CEulerDdtScheme	Basic first-order Euler implicit/explicit ddt using only the current and previous time-step values
CexplicitPorositySource	Explicit porosity source
CfaceCorrectedSnGrad	Simple central-difference snGrad scheme with non-orthogonal correction
CfaceLimitedGrad	FaceLimitedGrad gradient scheme applied to a runTime selected base gradient scheme
CfaceMDLimitedGrad	FaceMDLimitedGrad gradient scheme applied to a runTime selected base gradient scheme
CfixedTemperatureConstraint	Fixed temperature equation constraint
CfixedValueConstraint	Constrain the field values within a specified region
CfourthGrad	Second-order gradient scheme using least-squares
CfvCellSet	Cell-set fvConstraint abstract base class. Provides a base set of controls regarding the location where the fvConstraint is applied
CgaussConvectionScheme	Basic second-order convection using face-gradients and Gauss' theorem
CgaussDivScheme	Basic second-order div using face-gradients and Gauss' theorem
CgaussGrad	Basic second-order gradient scheme using face-interpolation and Gauss' theorem
CgaussLaplacianScheme	Basic second-order laplacian using face-gradients and Gauss' theorem
CgradScheme	Abstract base class for gradient schemes
CheatSource	Model for applying a heat source. Requires either the power, Q, or the power per unit volume, q, to be specified
CheatTransfer	Model for heat exchange. Requires specification of an ambient temperature with which to exchange heat, and a model for the heat transfer coefficient (htc) and the area per unit volume (AoV). These are then used to apply the following source to the energy equation:
CheatTransferModel	Base class for heat transfer coefficient modelling used in heat transfer fvModels. Area per unit volume [1/m] (AoV) must be provided as a value in the coefficients dictionary or as a field in constant
CinterfaceTurbulenceDamping	Free-surface phase turbulence damping function
CinterRegionExplicitPorositySource	Inter-region explicit porosity source
CinterRegionHeatTransfer	Model for inter-region heat exchange. Requires specification of a model for the heat transfer coefficient (htc) and the area per unit volume (AoV). These are then used to apply the following source to the energy equation:
CinterRegionModel	Base class for inter-region exchange
CisotropicDamping	This fvModel applies an implicit damping force to all components of the vector field to relax the field towards a specified uniform value. Its intended purpose is to damp the motions of an interface in the region approaching an outlet so that no reflections are generated
ClaplacianScheme	Abstract base class for laplacian schemes
CleastSquaresGrad	Second-order gradient scheme using least-squares
CLeastSquaresGrad	Gradient calculated using weighted least-squares on an arbitrary stencil. The stencil type is provided via a template argument and any cell-based stencil is supported:
CLeastSquaresVectors	Least-squares gradient scheme vectors
ClimitedSnGrad	Run-time selected snGrad scheme with limited non-orthogonal correction
ClimitMag	Limits the magnitude of the specified field to the specified `max` value
ClimitPressure	Limits the specified pressure field to be between specified minimum and maximum limits
ClimitTemperature	Limits the temperature to be between minimum and maximum values
ClocalEulerDdt
ClocalEulerDdtScheme	Local time-step first-order Euler implicit/explicit ddt
CmassSource	This fvModel applies a mass source to the continuity equation and to all field equations
CmeanVelocityForce	Calculates and applies the force necessary to maintain the specified mean velocity
CmultivariateGaussConvectionScheme	Basic second-order convection using face-gradients and Gauss' theorem
CorthogonalSnGrad	Simple central-difference snGrad scheme using the cell-centre to cell-centre delta-coefficients
CpatchMeanVelocityForce	Calculates and applies the force necessary to maintain the specified mean velocity averaged over the specified patch
CphaseLimitStabilisation	Stabilisation source for phase transport equations
CphaseStabilisedSnGrad	SnGrad scheme with phase-fraction limited non-orthogonal correction
CphaseTurbulenceStabilisation	Phase turbulence stabilisation
CradialActuationDiskSource	Actuation disk source including radial thrust
Cradiation	Calculates and applies the radiation source to the energy equation
CrotorDiskSource	Cell based momentum source which approximates the mean effects of rotor forces on a cylindrical region within the domain
CsemiImplicitSource	Semi-implicit source, described using an input dictionary. The injection rate coefficients are specified as pairs of Su-Sp coefficients, i.e
CsixDoFAccelerationSource	Solid-body 6-DoF acceleration source
CSLTSDdtScheme	Stabilised local time-step first-order Euler implicit/explicit ddt. The time-step is adjusted locally so that an advective equations remains diagonally dominant
CsnGradScheme	Abstract base class for snGrad schemes
CsolidEquilibriumEnergySource	This fvModel adds the thermal inertia of a solid phase into the energy equation. It assumes that the solid is in thermal equilibrium with the surrounding fluid phase
CsolidificationMeltingSource	This source is designed to model the effect of solidification and melting processes, e.g. windshield defrosting
CsteadyStateD2dt2Scheme	SteadyState d2dt2 which returns 0
CsteadyStateDdtScheme	SteadyState implicit/explicit ddt which returns 0
CsurfaceFilm	SurfaceFilm fvModel
CuncorrectedSnGrad	Simple central-difference snGrad scheme using the non-orthogonal mesh delta-coefficients but without non-orthogonal correction
CverticalDamping	This fvModel applies an explicit damping force to components of the vector field in the direction of gravity. Its intended purpose is to damp the vertical motions of an interface in the region approaching an outlet so that no reflections are generated
CVoFClouds	Lagrangian clouds model for VoF simulations
CVoFSolidificationMeltingSource	Solidification and melting model for VoF simulations
CVoFSurfaceFilm	Surface film model for VoF simulations
CVoFTurbulenceDamping	Free-surface turbulence damping function
CvolumeFractionSource	This fvModel adds transport terms into the equations to account for the presence of a constant volume fraction. The volume fraction is read from constant/alpha.<volumePhase>, where <volumePhase> is given as a parameter to the fvModel. Both advective and diffusive terms are added, and the resulting solution is time-accurate. The flux and velocity are treated as superficial
►NfvMeshDistributors
Cdistributor	Dynamic mesh redistribution using the distributor specified in decomposeParDict
CloadBalancer	Dynamic mesh redistribution using the distributor specified in decomposeParDict
Cnone	Dummy fvMeshDistributor which does not move the mesh points
►NfvMeshMovers
Cengine	Basic mesh motion specifically for engines
CinkJet	Mesh motion specifically for the "pumping" system of an ink-jet injector
Cinterpolator	Interpolates pre-specified motion specified as a set of pointVectorFields
ClayeredEngine
CmotionSolver
Cnone	Dummy fvMeshMover which does not move the mesh points
►NfvMeshStitchers
Cmoving	Mesh stitcher for movng meshes
Cstationary	Mesh stitcher for stationary meshes
►NfvMeshTopoChangers
Clist	Sequence of mesh topology changes applied in order
CmeshToMesh	FvMeshTopoChanger which maps to new mesh
CmovingCone	Sample fvMeshTopoChanger that moves an object in x direction and introduces/removes layers
Cnone	Dummy fvMeshTopoChanger which does not move the mesh points
Craw	Prototype fvMeshTopoChanger without any added functionality
Crefiner	Dynamic mesh refinement/unrefinement based on volScalarField values
►NheatTransferModels
CconstantNuHeatTransfer	Model which applies a user provided constant Nusselt number for interfacial heat transfer
CGunn	Gunn (1978) correlation for fixed and fluidised beds with Re < 10^5 and continuous phase fraction between 0.35 and 1
CRanzMarshall	Ranz-Marshall correlation for turbulent heat transfer from the surface of a sphere to the surrounding fluid
CsphericalHeatTransfer	Model which applies an analytical solution for heat transfer from the surface of a sphere to the fluid within the sphere
CtimeScaleFiltered	A time scale filtering wrapper around an underlying heat transfer model intended for simulations involving dispersed phase with a very small diameter. The model limits the heat transfer coefficient based on the relaxation time given
CtimeScaleFilteredHeatTransfer
►Nincompressible
►NRASModels
CkkLOmega	Low Reynolds-number k-kl-omega turbulence model for incompressible flows
CLamBremhorstKE	Lam and Bremhorst low-Reynolds number k-epsilon turbulence model for incompressible flows
CLienCubicKE	Lien cubic non-linear low-Reynolds k-epsilon turbulence models for incompressible flows
CLienLeschziner	Lien and Leschziner low-Reynolds number k-epsilon turbulence model for incompressible flows
CqZeta	Gibson and Dafa'Alla's q-zeta two-equation low-Re turbulence model for incompressible flows
CShihQuadraticKE	Shih's quadratic algebraic Reynolds stress k-epsilon turbulence model for incompressible flows
►NintegrationSchemes
Canalytical	Analytical integration scheme
CEuler	Euler-implicit integration scheme
►NinterfaceCompositionModels
CHenry	Henry's law for gas solubility in liquid. The concentration of a dissolved species in the liquid is proportional to its partial pressure in the gas. A dimensionless solubility, , is given for each species. This is the ratio of the concentration of the species in the liquid to the corresponding concentration in the gas; i.e., $k = c_{i,liq}/c_{i,gas}$ . Mixing in the gas is assumed to be ideal
CnonRandomTwoLiquid	Non ideal law for the mixing of two species. A separate composition model is given for each species. The composition of a species is equal to the value given by the model, scaled by the species fraction in the bulk of the other phase, and multiplied by the activity coefficient for that species. The gas behaviour is assumed ideal; i.e. the fugacity coefficient is taken as equal to 1
CRaoult	Raoult's law of ideal mixing. A separate composition model is given for each species. The composition of a species is equal to the value given by the model scaled by the species fraction in the bulk of the other phase
Csaturated	Model which uses a saturation pressure model for a single species to calculate the interface composition
►NIsotropyModels
CNoIsotropy
CStochastic	Stochastic return-to-isotropy model
►NkineticTheoryModels
►NconductivityModels
CGidaspow
CHrenyaSinclair
CSyamlal
►NfrictionalStressModels
CJohnsonJackson
CJohnsonJacksonSchaeffer
CSchaeffer
►NgranularPressureModels
CLun
CSyamlalRogersOBrien
►NradialModels
CCarnahanStarling
CLunSavage
CSinclairJackson
►NviscosityModels
CGidaspow
CHrenyaSinclair
CSyamlal
CconductivityModel
CfrictionalStressModel
CgranularPressureModel
CnoneViscosity
CradialModel
CviscosityModel
►NlaminarFlameSpeedModels	Namespace for laminar flame speed models
Cconstant	Constant laminar flame speed model
CGulders	Laminar flame speed obtained from Gulder's correlation
CGuldersEGR	Laminar flame speed obtained from Gulder's correlation with EGR modelling
CRaviPetersen	Laminar flame speed obtained from Ravi and Petersen's correlation
CSCOPE	Laminar flame speed obtained from the SCOPE correlation
►NlaminarModels
►NgeneralisedNewtonianViscosityModels	A namespace for the generalised Newtonian viscosity model implementations
CBirdCarreau	Bird-Carreau generalised Newtonian viscosity model
CCasson	Casson generalised Newtonian viscosity model
CCrossPowerLaw	Cross-Power law generalised Newtonian viscosity model
CHerschelBulkley	Herschel-Bulkley generalised Newtonian viscosity model
CNewtonian	Newtonian viscosity model which returns the fluid Newtonian viscosity
CpowerLaw	Standard power-law generalised Newtonian viscosity model
CstrainRateFunction	Run-time selected strain-rate function generalised Newtonian viscosity model
CstrainRateViscosityModel	An abstract base class for strain-rate dependent generalised Newtonian viscosity models
CgeneralisedNewtonian	Momentum transport model for shear-dependent Non-Newtonian flow
CgeneralisedNewtonianViscosityModel	An abstract base class for generalised Newtonian viscosity models
CGiesekus	Giesekus model for viscoelasticity using the upper-convected time derivative of the stress tensor with support for multiple modes
ClambdaThixotropic	Thixotropic viscosity momentum transport model based on the evolution of the structural parameter $\lambda$ :
CMaxwell	Generalised Maxwell model for viscoelasticity using the upper-convected time derivative of the stress tensor with support for multiple modes
CPTT	PTT model for viscoelasticity using the upper-convected time derivative of the stress tensor with support for multiple modes
CStokes	Momentum transport model for Stokes flow
►NlaminarThermophysicalTransportModels
CFickianFourier	Multi-component Fickian and Fourier based temperature gradient heat flux models with optional Soret thermal diffusion of species for laminar flow
CFourier	Fourier's temperature gradient heat flux model for single specie laminar flow
CMaxwellStefanFourier	Multi-component Maxwell Stefan generalised Fick's law diffusion coefficients and Fourier based temperature gradient heat flux model with optional Soret thermal diffusion of species for laminar flow
CunityLewisFourier	UnityLewisFourier's energy gradient heat flux model for laminar flow. Specie fluxes are computed assuming a unity turbulent Lewis number
►NLESModels	Namespace for LES SGS models
CcontinuousGasKEqn	One-equation SGS model for the gas-phase in a two-phase system supporting phase-inversion
CcubeRootVolDelta	Simple cube-root of cell volume delta used in LES SGS models
CDeardorffDiffStress	Differential SGS Stress Equation Model for incompressible and compressible flows
CdynamicKEqn	Dynamic one equation eddy-viscosity model
CdynamicLagrangian	Dynamic SGS model with Lagrangian averaging
CIDDESDelta	IDDESDelta used by the IDDES (improved low Re Spalart-Allmaras DES model) The min and max delta are calculated using the double distance of the min or max from the face centre to the cell centre
CkEqn	One equation eddy-viscosity model
CkOmegaSSTDES	Implementation of the k-omega-SST-DES turbulence model for incompressible and compressible flows
CLESeddyViscosity	Eddy viscosity LES SGS model base class
CmaxDeltaxyz	Delta calculated by taking the maximum distance between the cell centre and any face centre. For a regular hex cell, the computed delta will equate to half of the cell width; accordingly, the deltaCoeff model coefficient should be set to 2 for this case
CNicenoKEqn	One-equation SGS model for the continuous phase in a two-phase system including bubble-generated turbulence
CPrandtlDelta	Apply Prandtl mixing-length based damping function to the specified geometric delta to improve near-wall behavior or LES SGS models
CSmagorinsky	The Smagorinsky SGS model
CSmagorinskyZhang	The Smagorinsky SGS model including bubble-generated turbulence
►CsmoothDelta	Smoothed delta which takes a given simple geometric delta and applies smoothing to it such that the ratio of deltas between two cells is no larger than a specified amount, typically 1.15
CdeltaData	Public member class used by mesh-wave to propagate the delta-ratio
CSpalartAllmarasDDES	SpalartAllmaras DDES turbulence model for incompressible and compressible flows
CSpalartAllmarasDES	SpalartAllmarasDES DES turbulence model for incompressible and compressible flows
CSpalartAllmarasIDDES	SpalartAllmaras IDDES turbulence model for incompressible and compressible flows
CvanDriestDelta	Apply van Driest damping function to the specified geometric delta to improve near-wall behavior or LES SGS models
CWALE	The Wall-adapting local eddy-viscosity (WALE) SGS model
►NliftModels
CconstantLiftCoefficient	Constant coefficient lift model
CdispersedLiftModel
CLegendreMagnaudet	Lift model of Legendre and Magnaudet
CMoraga	Lift model of Moraga et al
CnoLift
CSaffmanMei	Lift model of Saffman (1965) as extended by Mei (1992). Applicable to spherical particles
CTomiyamaLift	Lift model of Tomiyama et al
CwallDamped
►NlimitFuncs	Namespace for limiting functions
CLimitFuncs	Class to create NVD/TVD limited weighting-factors
CmagSqr
Cnull
CrhoMagSqr
►NmeshReaders	A namespace for holding various types of mesh readers
CSTARCD	Read pro-STAR vrt/cel/bnd files. The protected data in meshReader are filled
►NmeshWriters	A namespace for holding various types of mesh writers
CSTARCD	Writes polyMesh in pro-STAR (v4) bnd/cel/vrt format
►NmixtureViscosityModels	A namespace for incompressible mixtureViscosityModel implementations
CBinghamPlastic	Viscosity correction model for Bingham plastics
Cplastic	Viscosity correction model for a generic power-law plastic
CQuemada	Quemada viscosity model for for colloidal dispersions
Cslurry	Thomas' viscosity correction for slurry
►NPackingModels
CExplicit	Explicit model for applying an inter-particle stress to the particles
CImplicit	Implicit model for applying an inter-particle stress to the particles
CNoPacking
►NpairPotentials
CazizChen	Reference:
Ccoulomb
CdampedCoulomb
CexponentialRepulsion
ClennardJones
CmaitlandSmith	Reference:
CnoInteraction
►NParticleStressModels
Cexponential	Exponential inter-particle stress model of the same form as used in twoPhaseEulerFoam
CHarrisCrighton	Inter-particle stress model of Harris and Crighton
CLun	Inter-particle stress model of Lun et al
►NpatchDistMethods
CadvectionDiffusion	Calculation of approximate distance to nearest patch for all cells and boundary by solving the Eikonal equation in advection form with diffusion smoothing
CmeshWave	Fast topological mesh-wave method for calculating the distance to nearest patch for all cells and boundary
CPoisson	Calculation of approximate distance to nearest patch for all cells and boundary by solving Poisson's equation
►NpatchToPatches
►Cintersection	Class to generate patchToPatch coupling geometry. A full geometric intersection is done between a face and those opposite, and coupling geometry is calculated accordingly
Ccouple	Structure to store the geometry associated with the coupling
Cpart	Structure to store the geometry associated with part of a patch
CinverseDistance	Class to generate patchToPatch coupling geometry. Couples a face to the opposite face onto which its centre-normal ray projects, plus the immediate neighbours to that opposite face. The proportion of contribution from the different faces is calculated using inverse distance weighting
Cnearest	Class to generate patchToPatch coupling geometry. Couples a face to the single nearest opposite face only
Crays
►NPDRDragModels
Cbasic	Basic sub-grid obstacle drag model. Details supplied by J Puttock 2/7/06
►NphaseTransferModels
Cdeposition	Phase transfer model representing change from a dispersed phase to a film as a result of deposition onto a third phase
CreactionDriven	Phase transfer model representing change from one phase to another due to reactions. Intended for irreversible reactions
►NporosityModels
CDarcyForchheimer	Darcy-Forchheimer law porosity model, given by:
CfixedCoeff	Fixed coefficient form of porosity model
CpowerLaw	Power law porosity model, given by:
CpowerLawLopesdaCosta	Variant of the power law porosity model with spatially varying drag coefficient
CpowerLawLopesdaCostaZone
Csolidification	Simple solidification porosity model
►NradiationModels
►NabsorptionEmission
CgreyMean	GreyMean radiation absorption and emission coefficients for continuous phase
CgreyMeanCombustion	GreyMeanCombustion radiation absorption and emission coefficients for continuous phase. Exactly as greyMean, but with additional effects of the combustion heat release rate included
CwideBand	WideBand radiation absorption and emission coefficients for continuous phase
CwideBandCombustion	WideBandCombustion radiation absorption and emission coefficients for continuous phase. Exactly as wideBand, but with additional effects of the combustion heat release rate included
►NabsorptionEmissionModels
Cbinary	Radiation coefficient based on two absorption models
Ccloud	Retrieves absorption/emission data from a cloud object
Cconstant	Constant radiation absorption and emission coefficients for continuous phase
CgreyMean
CgreyMeanCombustion
CinterpolationLookUpTable
CnoAbsorptionEmission
CwideBand
CwideBandCombustion
►NabsorptionEmissionsModels
CnoAbsorptionEmission	Dummy absorption-emission model for 'none'
►NscatterModels
Ccloud	Cloud radiation scatter model
Cconstant	Constant radiation scatter coefficient
CnoScatter	Dummy scatter model for 'none'
►NsootModels
CmixtureFraction	This soot model is purely an state model. The amount of soot produced is determined by a single step chemistry as :
CnoSoot	Dummy soot model for 'none'
CabsorptionCoeffs
CabsorptionEmissionModel	Model to supply absorption and emission coefficients for radiation modelling
CblackBodyEmission	Class black body emission
CfvDOM	Finite Volume Discrete Ordinates Method. Solves the RTE equation for n directions in a participating media, not including scatter
CnoRadiation	No radiation - does nothing to energy equation source terms (returns zeros)
CopaqueSolid	Radiation for solid opaque solids - does nothing to energy equation source terms (returns zeros) but creates absorptionEmissionModel and scatterModel
CP1	Works well for combustion applications where optical thickness, tau is large, i.e. tau = a*L > 3 (L = distance between objects)
CradiativeIntensityRay	Radiation intensity for a ray in a given direction
CscatterModel	Base class for radiation scattering
CsootModel	Base class for soot models
CviewFactor	View factor radiation model. The system solved is: C q = b where: Cij = deltaij/Ej - (1/Ej - 1)Fij q = heat flux b = A eb - Ho and: eb = sigma*T^4 Ej = emissivity Aij = deltaij - Fij Fij = view factor matrix
►NRASModels
CbuoyantKEpsilon	Additional buoyancy generation/dissipation term applied to the k and epsilon equations of the standard k-epsilon model
CcontinuousGasKEpsilon	K-epsilon model for the gas-phase in a two-phase system supporting phase-inversion
CfWallFunctionFvPatchScalarField	This boundary condition provides a turbulence damping function, f, wall function condition for low- and high Reynolds number, turbulent flow cases
CkEpsilon	Standard k-epsilon turbulence model for incompressible and compressible flows including rapid distortion theory (RDT) based compression term
CkEpsilonLopesdaCosta	Variant of the standard k-epsilon turbulence model with additional source terms to handle the changes in turbulence in porous regions represented by the powerLawLopesdaCosta porosity model
CkineticTheoryModel	Kinetic theory particle phase RAS model
CkOmega	Standard high Reynolds-number k-omega turbulence model for incompressible and compressible flows
CkOmega2006	Standard (2006) high Reynolds-number k-omega turbulence model for incompressible and compressible flows
CkOmegaSST	Specialisation for RAS of the generic kOmegaSSTBase base class. For more information, see Description of kOmegaSSTBase.H
CkOmegaSSTLM	Langtry-Menter 4-equation transitional SST model based on the k-omega-SST RAS model
CkOmegaSSTSAS	Scale-adaptive URAS model based on the k-omega-SST RAS model
CkOmegaSSTSato	Implementation of the k-omega-SST turbulence model for dispersed bubbly flows with Sato (1981) bubble induced turbulent viscosity model
CLaheyKEpsilon	Continuous-phase k-epsilon model including bubble-generated turbulence
CLaunderSharmaKE	Launder and Sharma low-Reynolds k-epsilon turbulence model for incompressible and compressible and combusting flows including rapid distortion theory (RDT) based compression term
CLRR	Launder, Reece and Rodi Reynolds-stress turbulence model for incompressible and compressible flows
CmixtureKEpsilon	Mixture k-epsilon turbulence model for two-phase gas-liquid systems
CphasePressureModel	Particle-particle phase-pressure RAS model
CrealizableKE	Realizable k-epsilon turbulence model for incompressible and compressible flows
CRNGkEpsilon	Renormalisation group k-epsilon turbulence model for incompressible and compressible flows
CSpalartAllmaras	Spalart-Allmaras one-eqn mixing-length model for incompressible and compressible external flows
CSSG	Speziale, Sarkar and Gatski Reynolds-stress turbulence model for incompressible and compressible flows
Cv2f	Lien and Kalitzin's v2-f turbulence model for incompressible and compressible flows, with a limit imposed on the turbulent viscosity given by Davidson et al
Cv2fBase	Abstract base-class for v2-f models to provide BCs access to the v2 and f fields
Cv2WallFunctionFvPatchScalarField	This boundary condition provides a turbulence stress normal to streamlines wall function condition for low- and high-Reynolds number, turbulent flow cases
►NRBD
►Njoints	Namespace for rigid-body joints
Ccomposite	Prismatic joint for translation along the specified arbitrary axis
Cfloating	Prismatic joint for translation along the specified arbitrary axis
Cfunction	Joint in which the position is a function of the parent joint's position
CfunctionDot	Joint in which the position is a function of the parent joint's velocity
Cnull	Null joint for the root-body
CPa	Prismatic joint for translation along the specified arbitrary axis
CPx	Prismatic joint for translation along the x-axis
CPxyz	Prismatic joint for translation in the x/y/z directions
CPy	Prismatic joint for translation along the y-axis
CPz	Prismatic joint for translation along the x-axis
CRa	Revolute joint for rotation about the specified arbitrary axis
Crigid	Rigid joint
Crotating	Joint with a specified rotational speed
CRs	Spherical joint for rotation about the x/y/z-axes using a quaternion (Euler parameters) to avoid gimble-lock
CRx	Revolute joint for rotation about the x-axis
CRxyz	Spherical joint for rotation about the x/y/z-axes using Euler-angles in the order x, y, z
CRy	Revolute joint for rotation about the y-axis
CRyxz	Spherical joint for rotation about the x/y/z-axes using Euler-angles in the order y, x, z
CRz	Revolute joint for rotation about the z-axis
CRzyx	Spherical joint for rotation about the x/y/z-axes using Euler-angles in the order z, y, x
►Nrestraints	Namespace for rigid-body dynamics restraints
CexternalForce	Time-dependent external force restraint using Function1
ClinearAxialAngularSpring	Linear axial angular spring restraint
ClinearDamper	Linear damper restraint. Operates in the local frame of the body
ClinearSpring	Linear spring restraint
CsphericalAngularDamper	Spherical angular damper restraint. Operates in the local frame of the body
►NrigidBodySolvers
CCrankNicolson	Crank-Nicolson 2nd-order time-integrator for 6DoF solid-body motion
CNewmark	Newmark 2nd-order time-integrator for 6DoF solid-body motion
Csymplectic	Symplectic 2nd-order explicit time-integrator for rigid-body motion
CcompositeBody	This specialised rigidBody holds the original body after it has been merged into a parent
Ccuboid	Specialisation of rigidBody to construct a cuboid given the mass and lengths of the sides
►Cjoint	Abstract base-class for all rigid-body joints
CiNew
CXSvc	Joint state returned by jcalc
CjointBody
CmasslessBody
Crestraint	Base class for defining restraints for rigid-body dynamics
CrigidBody
CrigidBodyInertia	This class represents the linear and angular inertia of a rigid body by the mass, centre of mass and moment of inertia tensor about the centre of mass
CrigidBodyModel	Basic rigid-body model representing a system of rigid-bodies connected by 1-6 DoF joints
CrigidBodyModelState	Holds the motion state of rigid-body model
CrigidBodyMotion	Six degree of freedom motion for a rigid body
CrigidBodySolver
Csphere	Specialisation of rigidBody to construct a sphere given the mass and radius
CsubBody	This specialised rigidBody holds the original body after it has been merged into a master
►NreactionRateFlameAreaModels
Crelaxation	Consumption rate per unit of flame area obtained from a relaxation equation
►NregionModels
►NsurfaceFilmModels
CArrheniusViscosity	The Arrhenius temperature-dependent viscosity model multiplies the viscosity of a base model by an Arrhenius-type temperature function:
CBrunDrippingEjection	Film Dripping mass transfer model
CconstantHeatTransfer	Constant heat transfer model
CconstantRadiation	Film constant radiation model. The constant radiative flux is specified by the user, and operated over a time interval defined by a start time and duration. In addition, a mask can be applied to shield the film from the radiation
CconstantViscosity	Constant viscosity model
CcontactAngleForce	Base-class for film contact angle force models
CcurvatureSeparation	Curvature film separation model
CdistributionContactAngleForce	PDF distribution based film contact angle force
CdrippingEjection	Film Dripping mass transfer model
CejectionModel	Base class for film ejection models, handling mass transfer from the film
CejectionModelList	List container for film ejection models
CfilmSubModelBase	Base class for surface film sub-models
Cforce	Base class for film (stress-based) force models
CforceList	List container for film sources
Cfunction1Viscosity	The Foam::Function1 temperature-dependent viscosity model multiplies the viscosity of a base model by a Function1 temperature function
CheatTransferModel	Base class for film heat transfer models
CkinematicSingleLayer	Kinematic form of single-cell layer surface film model
Claminar	Film laminar momentum transport model
CmappedConvectiveHeatTransfer	Convective heat transfer model based on a re-working of a Nusselt number correlation
CmomentumTransportModel	Base class for film momentum transport models
CNewtonianViscosity	Newtonian viscosity model with the viscosity obtain directly from the thermophysical properties
CnoPhaseChange	Dummy phase change model for 'none'
CnoRadiation	Dummy radiation model for 'none' option
CpatchEjection	Remove and eject the mass in the film as it passes over the selected patches
CperturbedTemperatureDependentContactAngleForce	Temperature dependent contact angle force with a stochastic perturbation
CphaseChangeModel	Base class for surface film phase change models
CprimaryRadiation	Radiation model whereby the radiative heat flux is mapped from the primary region
CradiationModel	Base class for film radiation models
Csolidification	Solidification phase change model where all film mass is converted when the local temperature > activation temperature. The latent heat is assumed to be removed by heat-transfer to the wall
CspeciePhaseChange	Specie phase change model abstract base class
CstandardPhaseChange	Standard phase change model with modification for boiling
CstandardRadiation	Standard radiation model
CsurfaceFilmRegionModel	Base class for surface film models
CtemperatureDependentContactAngleForce	Temperature dependent contact angle force
CthermocapillaryForce	Thermocapillary force
CthermoSingleLayer	Thermodynamic form of single-cell layer surface film model
CthixotropicViscosity	Thixotropic viscosity model based on the evolution of the structural parameter $\lambda$ :
CtransferModel	Base class for film transfer models, handling mass transfer between the film and the continuous phase
CtransferModelList	List container for film transfer models
CviscosityModel	Base class for surface film viscosity models
CVoFPatchTransfer	Transfer mass between the film and the VoF in the continuous phase
CwaxSolventEvaporation	Wax solvent mixture evaporation model
CwaxSolventViscosity	Wax solvent mixture viscosity model
►NthermalBaffleModels
CnoThermo	Dummy surface model for 'none'
CthermalBaffle	2D thermal baffle
CregionModel	Base class for region models
CregionModel1D	Base class for 1-D region models
CregionModelFunctionObject	Region model function object base class
CregionModelFunctionObjectList	List of cloud function objects
CsingleLayerRegion	Base class for single layer region models
CSurfaceFilmModel	Templated wall surface film model class
CthermalBaffleModel
►NrelativeVelocityModels
Cgeneral	General relative velocity model
CMichaelsBolger	Michaels & Bolger relative velocity model
Csimple	Simple relative velocity model
►NsampledSets
CarcUniform	Uniform samples along an arc
CboundaryPoints	Specified point samples within patches
CboundaryRandom	Random samples within patches
CboxUniform	Uniform 3D-grid of samples
CcellSetSampledSet	Samples at the cell-centres of a given cell set
CcircleRandom	Random samples within a circle
CfaceSetSampledSet	Samples at the face-centres of a given face set
ClineCell	Cell-samples along a line at the mid-points in-between face-intersections
ClineCellFace	Face-intersections along a line, plus cell-samples at the mid-points in-between
ClineFace	Face-intersections along a line
ClineUniform	Uniform samples along a line
Cpoints	Specified point samples. Optionally ordered into a continuous path. Ordering is an optimisation; it enables tracking from one point to the next. If ordering is off, each point is searched for individually
CsphereRandom	Random samples within a sphere
CtriSurfaceMeshSampledSet	Samples from all the points of a triSurfaceMesh. Surface files are read from constant/triSurface
►NsampledSurfaces
CcuttingPlane	A sampledSurface defined by a plane using the iso-surface algorithm to 'cut' the mesh
CdistanceSurface	A sampledSurface defined by a distance to a surface
CisoSurface	A sampledSurface defined by a surface of iso value
CnearestEqOp
Cpatch	A sampledSurface on patches. Non-triangulated by default
CpatchInternalField	Variation of sampledPatch that samples the internalField (at a given normal distance from the patch) instead of the patchField. Note:
Cplane	A sampledSurface defined by a plane which 'cuts' the mesh using the cuttingPlane algorithm. The plane is triangulated by default
CthresholdCellFaces	A sampledSurface defined by the cell faces corresponding to a threshold value
CtriSurfaceMesh	A sampledSurface from a triSurfaceMesh. It samples on the points/triangles of the triSurface. It either samples cells or (non-coupled) boundary faces
►NsaturationModels
CAntoine	Antoine equation for the vapour pressure
CAntoineExtended	Extended Antoine equation for the vapour pressure
CArdenBuck	ArdenBuck equation for the vapour pressure of moist air
CconstantSaturationConditions	Constant saturation pressure and temperature
Cfunction1	Saturation vapour temperature in terms of the vapour pressure (in Pa). The saturation temperature in Kelvins is specified as a Foam::Function1 type, to enable use of, e.g. constant, polynomial, table values
Cpolynomial	Polynomial equation for the saturation vapour temperature in terms of the vapour pressure (in Pa)
►NsinteringModels
CKochFriedlander	Sintering model of Koch and Friedlander (1990). The characteristic time for sintering is given by
CnoSintering
►NsixDoFRigidBodyMotionConstraints	Namespace for six DoF motion constraints
Caxis	Orientation constraint: may only rotate around a fixed axis
Cline	Translation constraint on the centre of rotation: may only move along a line
Corientation	Orientation constraint: fixed in global space
Cplane	Translation constraint on the centre of rotation: may only move on a plane
Cpoint	Translation constraint on the centre of rotation: fixed in space
►NsixDoFRigidBodyMotionRestraints	Namespace for six DoF motion restraints
CaxialAngularSpring	Axial angular spring with moment values obtained from a Function1 and linear damping
ClinearAxialAngularSpring	SixDoFRigidBodyMotionRestraints model. Linear axial angular spring
ClinearDamper	SixDoFRigidBodyMotionRestraints model. Linear spring
ClinearSpring	SixDoFRigidBodyMotionRestraints model. Linear spring
CsphericalAngularDamper	SixDoFRigidBodyMotionRestraints model. Spherical angular damper
CsphericalAngularSpring	SixDoFRigidBodyMotionRestraints model. Spherical angular spring
►NsixDoFSolvers
CCrankNicolson	Crank-Nicolson 2nd-order time-integrator for 6DoF solid-body motion
CNewmark	Newmark 2nd-order time-integrator for 6DoF solid-body motion
Csymplectic	Symplectic 2nd-order explicit time-integrator for 6DoF solid-body motion
►NsolidBodyMotionFunctions	Namespace for solid-body motions
CaxisRotationMotion	Constant velocity rotation around CoG. Similar to rotatingMotion but motion specified as rotation vector
ClinearMotion	SolidBodyMotionFvMesh 6DoF motion function. Constant velocity displacement
CmultiMotion	Combination of SolidBodyMotionFvMesh 6DoF motion functions
CoscillatingLinearMotion	SolidBodyMotionFvMesh 6DoF motion function. Oscillating displacement
CoscillatingRotatingMotion	SolidBodyMotionFvMesh 6DoF motion function. Oscillating rotation
CrotatingMotion	SolidBodyMotionFvMesh 6DoF motion function
CSDA	Ship design analysis (SDA) 3DoF motion function
CsixDoFMotion	Tabulated 6DoF motion function
►Nspecies
Cthermo	Basic thermodynamics type based on the use of fitting functions for cp, h, s obtained from the template argument type thermo. All other properties are derived from these primitive functions
►NSRF	Namespace for single rotating frame (SRF) models
Crpm	Basic SRF model whereby angular velocity is specified in terms of a (global) axis and revolutions-per-minute [rpm]
CSRFModel	Top level model for single rotating frame
►NsurfaceTensionModels
Cconstant	Uniform constant surface tension model
CconstantSurfaceTensionCoefficient	Constant value surface tension model
CliquidProperties	Temperature-dependent surface tension model in which the surface tension function provided by the phase Foam::liquidProperties class is used
CtemperatureDependent	Temperature-dependent surface tension model
►NswarmCorrections
CnoSwarm	No swarm correction
CTomiyamaSwarm	Swarm correction of Tomiyama et al
►NTableReaders
CCsv	Reads an interpolation table from a file in CSV-format. Entries govern the layout of the CSV file. The index of the first (x) column of the table is given by the refColumn entry, and is always scalar. The indices of the components of the second (y) column are given by the componentColumns entry
CEmbedded	Reads an interpolation table from the `values` entry in OpenFOAM-format
CFoam	Reads an interpolation table from a file in OpenFOAM-format. This is a list of Tuple2's where the first (x) column is scalar, and the second (y) column is the type to be interpolated
►NtetherPotentials
CharmonicSpring
CpitchForkRing
CrestrainedHarmonicSpring
►NTimeScaleModels
Cequilibrium	Equilibrium model for the time scale over which properties of a dispersed phase tend towards the mean value
Cisotropic	Model for the time scale over which the velocity field of a dispersed phase tends towards an isotropic distribution
CnonEquilibrium	Non-Equilibrium model for the time scale over which properties of a dispersed phase tend towards the mean value
►NtriIntersect
Clocation
►NturbulenceThermophysicalTransportModels
CeddyDiffusivity	Eddy-diffusivity based temperature gradient heat flux model for single specie RAS or LES of turbulent flow
CFickian	Base class for multi-component Fickian based temperature gradient heat flux models with optional Soret thermal diffusion of species
CFickianEddyDiffusivity	Multi-component Fickian and eddy-diffusivity turbulent based temperature gradient heat flux model for RAS or LES of turbulent flow with optional Soret thermal diffusion of species
CMaxwellStefan	Base class for multi-component Maxwell Stefan generalised Fick's law diffusion coefficients based temperature gradient heat flux model with optional Soret thermal diffusion of species
CnonUnityLewisEddyDiffusivity	Non-unity-Lewis-Eddy-diffusivity based temperature gradient heat flux model for RAS or LES of turbulent flow. Allows independent specification of turbulent Prandtl and Schmidt numbers. Unity laminar Lewis number is assumed
CunityLewisEddyDiffusivity	Eddy-diffusivity based energy gradient heat flux model for RAS or LES of turbulent flow. Specie fluxes are computed assuming a unity turbulent Lewis number
►NturbulentDispersionModels
CBurns	Turbulent dispersion model of Burns et al
CconstantTurbulentDispersionCoefficient	Constant coefficient turbulent dispersion model
CdispersedTurbulentDispersionModel
CGosman	Turbulent dispersion model of Gosman et al
CLopezDeBertodano	Lopez de Bertodano (1992) turbulent dispersion model
CnoTurbulentDispersion
►NtwoPhaseChangeModels
CcavitationModel	Abstract base class for cavitation models
CKunz	Kunz cavitation model slightly modified so that the condensation term is switched off when the pressure is less than the saturation vapour pressure. This change allows the condensation term to be formulated as a coefficient multiplying (p - p_sat) so that it can be included as an implicit term in the pressure equation
CMerkle	Merkle cavitation model
CnoPhaseChange	Dummy phase change model for 'no phase change'
CSchnerrSauer	SchnerrSauer cavitation model
►NuserTimes
Cengine	A userTime based on engine crank-angle degrees
Creal	A simple userTime which simply returns the real-time is seconds
CuserTime
►NvirtualMassModels
CconstantVirtualMassCoefficient	Constant coefficient virtual mass model
CdispersedVirtualMassModel
CLamb	Virtual mass model of Lamb
CnoVirtualMass
►NviscosityModels	A namespace for Newtonian viscosity models
Cconstant	A uniform constant Newtonian viscosity model
►NwallBoilingModels
►NdepartureDiameterModels
CKocamustafaogullariIshiiDepartureDiameter	A correlation for bubble departure diameter
CTolubinskiKostanchuk	Tolubinski-Kostanchuk correlation for bubble departure diameter
►NdepartureFrequencyModels
CCole	Cole correlation for bubble departure frequency
CKocamustafaogullariIshiiDepartureFrequency	Correlation for bubble departure frequency
►NnucleationSiteModels
CKocamustafaogullariIshiiNucleationSite	A correlation for nucleation site density
CLemmertChawla	Lemmert & Chawla function for nucleation site density, correlation by Egorov & Menter
►NpartitioningModels
Ccosine	Cosine wall heat flux partitioning model
CLavieville	Lavieville wall heat flux partitioning model
Clinear	Linear wall heat flux partitioning model
CphaseFraction	Wall heat-flux partitioned according to the phase volume fraction
CdepartureDiameterModel	Base class for bubble departure diameter models
CdepartureFrequencyModel	Base class for bubble departure frequency models
CnucleationSiteModel	Base class for nucleation site density models
CpartitioningModel	Base class for wall heat flux partitioning models
►NwallDampingModels
Ccosine
Clinear
Csine
►NwallHeatTransferCoeffModels
CkappaEff	Calculates the estimated flow heat transfer coefficient at wall patches as the volScalarField field 'kappaEff' using one of equeations bellow
CReynoldsAnalogy	Calculates and writes the estimated flow heat transfer coefficient at wall patches as the volScalarField field 'wallHeatTransferCoeff' using Reynolds Analogy
►NwallLubricationModels
CAntal	Wall lubrication model of Antal et al
CdispersedWallLubricationModel
CFrank	Wall lubrication model of Frank
CnoWallLubrication
CTomiyamaWallLubrication	Wall lubrication model of Tomiyama
►NwaveModels
CAiry	First-order wave model
Csolitary	Solitary wave model
CStokes2	Second-order wave model
CStokes5	Fifth-order wave model
►NXiEqModels
CbasicSubGrid	Basic sub-grid obstacle flame-wrinkling enhancement factor model. Details supplied by J Puttock 2/7/06
CGulder	Simple Gulder model for XiEq based on Gulders correlation with a linear correction function to give a plausible profile for XiEq
Cinstability	This is the equilibrium level of the flame wrinkling generated by instability. It is a constant (default 2.5). It is used in XiModel.H
CSCOPEBlend	Simple SCOPEBlendXiEq model for XiEq based on SCOPEXiEqs correlation with a linear correction function to give a plausible profile for XiEq. See SCOPELaminarFlameSpeed.H for details on the SCOPE laminar flame speed model
CSCOPEXiEq	Simple SCOPEXiEq model for XiEq based on SCOPEXiEqs correlation with a linear correction function to give a plausible profile for XiEq. See SCOPELaminarFlameSpeed.H for details on the SCOPE laminar flame speed model
►NXiGModels
CbasicSubGrid	Basic sub-grid obstacle flame-wrinkling generation rate coefficient model. Details supplied by J Puttock 2/7/06
CinstabilityG	Flame-surface instabilityG flame-wrinkling generation rate coefficient model used in XiModel.H
CKTS	Simple Kolmogorov time-scale (KTS) model for the flame-wrinkling generation rate
►NXiModels
Calgebraic	Simple algebraic model for Xi based on Gulders correlation with a linear correction function to give a plausible profile for Xi. See report TR/HGW/10 for details on the Weller two equations model. See XiModel.H for more details on flame wrinkling modelling
Cfixed	Fixed value model for Xi. See XiModel.H for more details on flame wrinkling modelling
Ctransport	Simple transport model for Xi based on Gulders correlation with a linear correction function to give a plausible profile for Xi. See report TR/HGW/10 for details on the Weller two equations model. See XiModel.H for more details on flame wrinkling modelling
CabsoluteEnthalpy	Thermodynamics mapping class to expose the absolute enthalpy functions
CabsoluteInternalEnergy	Thermodynamics mapping class to expose the absolute internal energy functions
CabsorptionCoeffs	Absorption coefficients class used in greyMean and wideBand absorptionEmission models
CaC10H7CH3	AlphaMethylNaphthalene
CaccessOp
CactiveBaffleVelocityFvPatchVectorField	This velocity boundary condition simulates the opening of a baffle due to local flow conditions, by merging the behaviours of wall and cyclic conditions. The baffle joins two mesh regions, where the open fraction determines the interpolation weights applied to each cyclic- and neighbour-patch contribution
CactivePressureForceBaffleVelocityFvPatchVectorField	This boundary condition is applied to the flow velocity, to simulate the opening or closure of a baffle due to local pressure or force changes, by merging the behaviours of wall and cyclic conditions
CadaptiveLinear	Produces a linear ramp which adapts its gradient to changes in endTime and deltaT to always arrive at the relaxationEnd value at the end of the run
CadaptiveSolver
CaddPatchCellLayer	Adds layers of cells to outside of polyPatch. Can optionally create stand-alone extruded mesh (addToMesh=false)
CadiabaticPerfectFluid	Adiabatic perfect fluid equation of state for liquids:
CadjointOutletPressureFvPatchScalarField
CadjointOutletVelocityFvPatchVectorField
CadsorptionMassFractionFvPatchScalarField	This is a mass-fraction boundary condition for an adsorbing wall
CadvectiveFvPatchField	This boundary condition provides an advective outflow condition, based on solving DDt(W, field) = 0 at the boundary where `W` is the wave velocity and `field` is the field to which this boundary condition is applied
CalgebraicPairGAMGAgglomeration	Agglomerate using the pair algorithm
►CalphaContactAngleFvPatchScalarField	Contact-angle boundary condition for multi-phase interface-capturing simulations
CcontactAngleProperties
CalphaFixedPressureFvPatchScalarField	A fixed-pressure alphaContactAngle boundary
CAMIInterpolation	Interpolation class dealing with transfer of data between two primitive patches with an arbitrary mesh interface (AMI)
CAMIMethod	Base class for Arbitrary Mesh Interface (AMI) methods
CAmultiplier
CandEqOp
CandEqOp2
CandOp
CandOp2
CandOp3
CAndradeTransport	Transport package using the Andrade function for the natural logarithm of dynamic viscosity and thermal conductivity of liquids:
CangularOscillatingDisplacementPointPatchVectorField	Foam::angularOscillatingDisplacementPointPatchVectorField
CangularOscillatingVelocityPointPatchVectorField	Foam::angularOscillatingVelocityPointPatchVectorField
CAnisothermalPhaseModel	Class which represents a phase for which the temperature (strictly energy) varies. Returns the energy equation and corrects the thermodynamic model
CanisotropicFilter	Anisotropic filter
CAr	Liquid Ar
►CargList	Extract command arguments and options from the supplied argc and argv parameters
CinitValidTables
CArrheniusReactionRate	Arrhenius reaction rate given by:
Cash	Coal ash solid properties
CaspectRatioModel	Model for deviations in the shape of the dispersed phase from spherical. Just a sub-model modifier, typically for the drag model. Not a proper part of the diameter/shape modelling in the phase models
CatmBoundaryLayer	This class provides functions to evaluate the velocity and turbulence distributions appropriate for atmospheric boundary layers (ABL)
CatmBoundaryLayerInletEpsilonFvPatchScalarField	This boundary condition specifies an inlet value for the turbulence dissipation, $\epsilon$ , appropriate for atmospheric boundary layers
CatmBoundaryLayerInletKFvPatchScalarField	This boundary condition specifies an inlet value for the turbulence kinetic energy, , appropriate for atmospheric boundary layers
CatmBoundaryLayerInletVelocityFvPatchVectorField	This boundary condition specifies a velocity inlet profile appropriate for atmospheric boundary layers (ABL)
►CatomicWeightTable	A table of atomic weights for all the elements
CatomicWeight	Structure to hold the element name and atomic weight pair
CAtomisationModel	Templated atomisation model class
CattachDetach	Attach/detach boundary mesh modifier. This modifier takes a set of internal faces and converts them into boundary faces and vice versa based on the given activation switch
CattachPolyTopoChanger	This class is derived from polyMesh and serves as a tool for statically connecting pieces of a mesh by executing the mesh modifiers and cleaning the mesh
CautoDensity	Choose random points inside the domain and place them with a probability proportional to the target density of points
Cautomatic
CautoPtr	An auto-pointer similar to the STL auto_ptr but with automatic casting to a reference to the type and with pointer allocation checking on access
CAverageField	A primitive field with a separate average value
CAveragingMethod	Base class for lagrangian averaging methods
CaxesRotation	A coordinate rotation specified using global axis
CbackgroundMeshDecomposition	Store a background polyMesh to use for the decomposition of space and queries for parallel conformalVoronoiMesh
CbadQualityToCell	Selects bad quality cells (using snappyHexMesh/cvMesh mesh quality selector)
CbadQualityToFace	Selects bad quality faces (using snappyHexMesh/cvMesh mesh quality selector)
CbarotropicCompressibilityModel	Abstract class for barotropic compressibility models
CBarycentric	Templated 3D Barycentric derived from VectorSpace. Has 4 components, one of which is redundant
CBarycentric2D	Templated 2D Barycentric derived from VectorSpace. Has 3 components, one of which is redundant
CBarycentricTensor	Templated 4x3 tensor derived from VectorSpace. Has 12 components. Can represent a barycentric transformation as a matrix-barycentric inner- product. Can alternatively represent an inverse barycentric transformation as a vector-matrix inner-product
CBarycentricTensor2D	Templated 3x3 tensor derived from VectorSpace. Has 9 components. Can represent a barycentric transformation as a matrix-barycentric inner- product. Can alternatively represent an inverse barycentric transformation as a vector-matrix inner-product
CbasicChemistryModel	Base class for chemistry models
CbasicCombustionMixture	Specialisation of the basicMixture for combustion
CbasicMixture	Foam::basicMixture
CbasicSpecieMixture	Specialisation of basicMixture for a mixture consisting of a number for molecular species
CbasicSymmetryFvPatchField	A symmetry patch
CbasicSymmetryPointPatchField	A Symmetry boundary condition for pointField
►CbasicThermo	Base-class for fluid and solid thermodynamic properties
Cimplementation
CbC10H7CH3	BetaMethylNaphthalene
CBiIndirectList	Indexes into negList (negative index) or posList (zero or positive index)
CbiLinearFitPolynomial	BiLinear polynomial for interpolation fitting
CBinaryCollisionModel	Templated DSMC particle collision class
CbinaryNode	Node of the binary tree
CbinaryTree	Data storage of the chemistryOnLineLibrary according to a binary tree structure
CBinSum	Sums into bins
CbladeModel	Blade model class calculates: Linear interpolated blade twist and chord based on radial position Interpolation factor (for interpolating profile performance)
Cblended	Linear/upwind blended interpolation scheme
CblendedDiffusiveMassTransferModel
CblendedDragModel
CblendedHeatTransferModel
CBlendedInterfacialModel
CblendedLiftModel
CblendedPhaseTransferModel
CblendedSchemeBase	Base class for blended schemes to provide access to the blending factor surface field
CblendedTurbulentDispersionModel
CblendedVirtualMassModel
CblendedWallLubricationModel
CblendingMethod	Abstract base class for functions that are used to combine interfacial sub-models according to the volume fractions of the phases that they apply to
CBlobsSheetAtomisation	Primary Breakup Model for pressure swirl atomisers
►Cblock	Creates a single block of cells from point coordinates, numbers of cells in each direction and an expansion ratio
CiNew	Class used for the read-construction of
CblockDescriptor	Takes the description of the block and the list of curved edges and creates a list of points on edges together with the weighting factors
►CblockEdge	Define a curved edge that is parameterised for 0<lambda<1 between the start and end point
CiNew	Class used for the read-construction of
►CblockFace	Define a curved face
CiNew	Class used for the read-construction of
CblockMesh	A multi-block mesh generator
►CblockVertex	Define a block vertex
CiNew	Class used for the read-construction of
CbodyCentredCubic	Generate a BCC lattice of points inside the surfaces to be conformed to of the conformalVoronoiMesh
CbooleanSurface	Surface-surface intersection. Given two surfaces construct combined surface
CboundaryCutter	Does modifications to boundary faces
CboundaryRegion	The boundaryRegion persistent data saved as a Map<dictionary>
CboundaryToFace	A topoSetSource to select all external (boundary) faces
CboundBox	A bounding box defined in terms of the points at its extremities
CBoussinesq	Incompressible gas equation of state using the Boussinesq approximation for the density as a function of temperature only:
CboxToCell	A topoSetSource to select cells based on cell centres inside box(es)
CboxToFace	A topoSetSource to select faces based on face centres inside box
CboxToPoint	A topoSetSource to select points based on whether they are inside box
CBreakupModel	Templated break-up model class
CBrownianMotionForce	Calculates particle Brownian motion force
CBSpline	An implementation of B-splines
CbufferedAccumulator
CC	Graphite solid properties
CC10H22	NDecane
CC12H26	NDodecane
CC13H28	NTriDecane
CC14H30	NTetraDecane
CC16H34	NHexaDecane
CC2H5OH	Ethanol
CC2H6	Ethane
CC2H6O	DiMethylEther
CC3H6O	Acetone
CC3H8	Propane
CC4H10O	DiEthylEther
CC6H14	NHexane
CC6H6	Benzene
CC7H16	NHeptane
CC7H8	Toluene
CC8H10	EthylBenzene
CC8H18	NOctane
CC9H20	NNonane
CCaCO3	Calcium carbonate (limestone)
CcalculatedFvPatchField	This boundary condition is not designed to be evaluated; it is assumed that the value is assigned via field assignment, and not via a call to e.g. `updateCoeffs` or `evaluate`
CcalculatedFvsPatchField	Foam::calculatedFvsPatchField
CcalculatedPointPatchField	A calculated boundary condition for pointField
CCallback	Abstract class to handle automatic call-back registration with the CallbackRegistry. Derive from this class and extend by adding the appropriate callback functions
CCallbackRegistry	Base class with which callbacks are registered
CCatmullRomSpline	An implementation of Catmull-Rom splines (sometimes known as Overhauser splines)
CCECCellToCellStencil
CCECCellToFaceStencil	Combined corresponding cellToCellStencil of owner and neighbour
Ccell	A cell is defined as a list of faces with extra functionality
CcellAspectRatioControl
CcellClassification	'Cuts' a mesh with a surface
CcellCoBlended	Two-scheme cell-based Courant number based blending interpolation scheme
CcellCuts	Description of cuts across cells
CcellFeatures	Cell analysis class
CcellInfo	Holds information regarding type of cell. Used in inside/outside determination in cellClassification
CcellLooper	Abstract base class. Concrete implementations know how to cut a cell (i.e. determine a loop around the circumference)
CcellMapper	This object provides mapping and fill-in information for cell data between the two meshes after the topological change. It is constructed from polyTopoChangeMap
CcellMatcher	Base class for cellshape matchers (hexMatch, prismMatch, etc.). These are classes which given a mesh and cell number find out the orientation of the cellShape and construct cell-vertex to mesh-vertex mapping and cell-face to mesh-face mapping
CcellModel	Maps a geometry to a set of cell primitives, which enables geometric cell data to be calculated without access to the primitive geometric level. This means mapping a 3D geometry to a set of pyramids which are each described by a cell face and the cell centre point
CcellModeller	A static collection of cell models, and a means of looking them up
CcellMotionFvPatchField	Foam::cellMotionFvPatchField
CcellPointWeight	Foam::cellPointWeight
CcellQuality	Class calculates cell quality measures
CcellSet	A collection of cell labels
CcellSets
CcellShape	An analytical geometric cellShape
CcellShapeControl
CcellShapeControlMesh
CcellSizeAndAlignmentControl
CcellSizeAndAlignmentControls
CcellSizeCalculationType	Abstract base class for specifying target cell sizes
CcellSizeFunction	Abstract base class for specifying target cell sizes
CcellSplitter	Does pyramidal decomposition of selected cells. So all faces will become base of pyramid with as top a user-supplied point (usually the cell centre)
CcellTable	The cellTable persistent data saved as a Map<dictionary>
CcellToCell	A topoSetSource to select the cells from another cellSet
►CcellToCellStencil	Baseclass for extended cell centred addressing. Contains per cell a list of neighbouring cells and/or boundaryfaces in global addressing
CunionEqOp	Combine operator for labelLists
CcellToFace	A topoSetSource to select a faceSet from cells
►CcellToFaceStencil	Base class for extended cell-to-face stencils (face values from neighbouring cells)
CunionEqOp	Combine operator for labelLists
CcellToPoint	A topoSetSource to select points based on usage in cells
CcellVolumeWeightMethod	Cell-volume-weighted mesh-to-mesh interpolation class
CcellZone	A subset of mesh cells
CCellZoneInjection	Injection positions specified by a particle number density within a cell set
CcellZoneSet	Like cellSet but -reads data from cellZone -updates cellZone when writing
CcentredCECCellToCellStencilObject
CcentredCECCellToFaceStencilObject
CcentredCFCCellToCellStencilObject
CcentredCFCCellToFaceStencilObject
CcentredCFCFaceToCellStencilObject
CcentredCPCCellToCellStencilObject
CcentredCPCCellToFaceStencilObject
CcentredFECCellToFaceStencilObject
CCentredFitData	Data for the quadratic fit correction interpolation scheme
CCentredFitScheme	Centred fit surface interpolation scheme which applies an explicit correction to linear
CCentredFitSnGradData	Data for centred fit snGrad schemes
CCFCCellToCellStencil
CCFCCellToFaceStencil	Combined corresponding cellToCellStencil of owner and neighbour
CCFCFaceToCellStencil
CCH3OH	Methanol
CCH4N2O	Urea, note that some of the properties are unavailable in the literature and have been copied from water
CChemicallyActivatedReactionRate	General class for handling chemically-activated bimolecular reactions
CchemistryModel	Extends base chemistry model by adding a thermo package, and ODE functions. Introduces chemistry equation system and evaluation of chemical source terms with optional support for TDAC mechanism reduction and tabulation
CchemistryReductionMethod	An abstract class for methods of chemical mechanism reduction
CchemistrySolver	An abstract base class for solving chemistry
CchemistryTabulationMethod	An abstract class for chemistry tabulation
CchemkinReader	Foam::chemkinReader
CchemPointISAT	Leaf of the binary tree. The chemPoint stores the composition 'phi', the mapping of this composition Rphi, the mapping gradient matrix A and the matrix describing the Ellipsoid Of Accuracy (EOA)
CCirculator	Walks over a container as if it were circular. The container must have the following members defined:
CCirculatorBase	Base class for circulators
CclippedLinear	Centred interpolation interpolation scheme using clipped-weights to improve stability on meshes with very rapid variations in cell size
Cclock	Read access to the system clock with formatting
CclockTime	Starts timing (using rtc) and returns elapsed time from start. Better resolution (2uSec instead of ~20mSec) than cpuTime
CclosedTriSurfaceMesh	Like triSurface, a surface geometry formed of discrete facets, e.g. \ triangles and/or quadrilaterals, defined in a file using formats such as Wavefront OBJ, or stereolithography STL. A closedTriSurfaceMesh is a geometry surface which is meant to be closed but contains some imperfections, e.g. small holes or multiple parts, which mean it is not strictly closed
CCloud	Base cloud calls templated on particle type
Ccloud	A cloud is a collection of lagrangian particles
CCloudFunctionObject	Templated cloud function object base class
CCloudFunctionObjectList	List of cloud function objects
CcloudSolution	Stores all relevant solution info for cloud
CCloudSubModelBase	Base class for cloud sub-models
CcmptDivideOp
CcmptDivideOp2
CcmptDivideOp3
CcmptMultiplyOp
CcmptMultiplyOp2
CcmptMultiplyOp3
CcmptPowOp
CcmptPowOp2
CcmptPowOp3
CCoBlended	Two-scheme Courant number based blending interpolation scheme
CcodedBase	Base class for function objects and boundary conditions using dynamic code
CcodedFixedValueFvPatchField	Constructs on-the-fly a new boundary condition (derived from fixedValueFvPatchField) which is then used to evaluate
CcodedFixedValuePointPatchField	Constructs on-the-fly a new boundary condition (derived from fixedValuePointPatchField) which is then used to evaluate
CcodedFunctionObject	Provides a general interface to enable dynamic code compilation
CcodedMixedFvPatchField	Constructs on-the-fly a new boundary condition (derived from mixedFvPatchField) which is then used to evaluate
CcoefficientMultiComponentMixture	Thermophysical properties mixing class which applies mass-fraction weighted mixing to the thermodynamic and transport coefficients
►CcoefficientWilkeMultiComponentMixture	Thermophysical properties mixing class which applies mass-fraction weighted mixing to the thermodynamic coefficients and Wilke's equation to transport properties
CtransportMixture
CcollidingCloud	Cloud class to introduce colliding parcels
CCollidingCloud	Adds collisions to clouds
CcollidingParcel	Definition of colliding parcel
►CCollidingParcel	Wrapper around parcel types to add collision modelling
CconstantProperties	Class to hold thermo particle constant properties
CiNew	Factory class to read-construct particles used for
CtrackingData	Class to hold temporary data during tracking
CCollisionModel	Templated collision model class
CCollisionRecordList
CcombineConstraintsEqOp	Reduce operator
CcombineEqOp	Reduction class. If x and y are not equal assign value
CcombineFaces	Combines boundary faces into single face. The faces get the patch of the first face ('the master')
CcombineReduceFileStates	Combine operator for PackedList of fileState
CcombustionModel	Base class for combustion models
CcommSchedule	Determines the order in which a set of processors should communicate with one another
CCompactIOField	A Field of objects of type <T> with automated input and output using a compact storage. Behaves like IOField except when binary output in case it writes a CompactListList
CCompactIOList	A List of objects of type <T> with automated input and output using a compact storage. Behaves like IOList except when binary output in case it writes a CompactListList
CCompactListList	A packed storage unstructured matrix of objects of type <T> using an offset table for access
CCompactSpatialTensor	Templated 3D compact spatial tensor derived from MatrixSpace used to represent transformations of spatial vectors and the angular and linear inertia of rigid bodies
CCompactSpatialTensorT	Templated 3D transposed compact spatial tensor derived from MatrixSpace used to represent transformations of spatial vectors of rigid bodies
CcompileTemplate
Ccomplex	Extension to the c++ complex library type
CcomponentDisplacementMotionSolver	Virtual base class for displacement motion solver
CcomponentVelocityMotionSolver	Virtual base class for velocity motion solver
CCompositionModel	Templated reacting parcel composition model class Consists of carrier species (via thermo package), and additional liquids and solids
CcompressibleInterPhaseTransportModel	Transport model selection class for the compressibleInterFoam family of solvers
CcompressibleMomentumTransportModel	Base class for single-phase compressible turbulence models
►CcompressibleMultiphaseMixture
►CinterfacePair
Chash
CcompressibleTwoPhaseMixture	Thermophysical properties class for a mixture of two rhoThermo including interfaceProperties for VoF for use in compressibleInterFoam
CConeInjection	This injector injects particles in a number of cones. The user specifies a position and a direction to inject at, and two angles to inject between. Optionally, this injector can introduce particles over a disc, instead of at a point, in which case inner and outer diameters of the disc are also specified
CconformalVoronoiMesh
CconformationSurfaces
CconstAnIsoSolidTransport	Constant properties Transport package. Templated into a given Thermodynamics package (needed for thermal conductivity)
CconstantAlphaContactAngleFvPatchScalarField	A constant alphaContactAngle scalar boundary condition
CConstantRateDevolatilisation	Constant rate devolatisation model
CConstCirculator	Walks over a container as if it were circular. The container must have the following members defined:
CconstIsoSolidTransport	Constant properties Transport package. Templated into a given thermodynamics package (needed for thermal conductivity)
CConstMatrixBlock
CconstrainHbyA
CconstrainPressure
CconstTransport	Transport package with constant properties
CconsumptionSpeed	Correlation function for laminar consumption speed obtained from flamelet solution at increasing strain rates
CcontrolMeshRefinement
►CconvergenceControl	Convergence control class. Provides methods to check the convergence of the time loop against an absolute residual tolerance
CresidualData	Classes
CcoordinateRotation	Abstract base class for coordinate rotation
CcoordinateSystem	Base class for other coordinate system specifications
CcoordSet	Holds list of sampling positions
CcopiedFixedValueFvPatchScalarField	Copies the boundary values from a user specified field
CcorrectContactAngle	Correction for the boundary condition on the unit normal nHat on walls to produce the correct contact angle. The dynamic contact angle is calculated from the component of the velocity on the direction of the interface, parallel to the wall
CCorrectionLimitingMethod	Base class for correction limiting methods
►CcorrectorConvergenceControl	Corrector convergence control class. Provides methods to check the convergence of an inner iteration loop (e.g., pimple) against both absolute and relative residual tolerances
CcorrResidualData	Residual correction data structure
CCorrectPhi	Flux correction functions to ensure continuity
CcorrelationFunction
CcoupledFacePair	Data associated with a pair of coupled faces
CcoupledFacePointPatch	Coupled patch for post-processing. Used as the base class for processor and cyclic pointPatches
CcoupledFvPatch	An abstract base class for patches that couple regions of the computational domain e.g. cyclic and processor-processor links
CcoupledFvPatchField	Abstract base class for coupled patches
CcoupledFvsPatchField	Foam::coupledFvsPatchField
CcoupledPointPatch	Coupled patch for post-processing. Used as the base class for processor and cyclic pointPatches
CcoupledPointPatchField	A Coupled boundary condition for pointField
►CcoupledPolyPatch	The coupledPolyPatch is an abstract base class for patches that couple regions of the computational domain e.g. cyclic and processor-processor links
CownToNbrDebugOrderData	Data to pass from owner.initOrder to nbr.order if debugging
CownToNbrOrderData	Data to pass from owner.initOrder to nbr.order
CownToOwnOrderData	Data to pass from owner.initOrder to owner.order
CcoupleGroupIdentifier	Encapsulates using patchGroups to specify coupled patch
CCOxidationDiffusionLimitedRate	Diffusion limited rate surface reaction model for coal parcels. Limited to:
CCOxidationHurtMitchell	Char oxidation model given by Hurt and Mitchell:
CCOxidationIntrinsicRate	Intrinsic char surface reaction mndel
CCOxidationKineticDiffusionLimitedRate	Kinetic/diffusion limited rate surface reaction model for coal parcels. Limited to:
CCOxidationMurphyShaddix	Limited to C(s) + O2 -> CO2
CCPCCellToCellStencil
CCPCCellToFaceStencil	Combined corresponding cellToCellStencil of owner and neighbour
CcpuLoad	Class to maintain a field of the CPU load per cell
CcpuTime	Starts timing CPU usage and return elapsed time from start
CcreateShellMesh	Creates mesh by extruding a patch
CcrossProduct
CcsvSetWriter	Write set in csv format
Ccubic	Cubic interpolation scheme class derived from linear and returns linear weighting factors but also applies an explicit correction
►CcubicEqn	Cubic equation of the form ax^3 + bx^2 + c*x + d = 0
Ccoefficient	Coefficient indexing enumeration
CcubicUpwindFitPolynomial	Cubic polynomial for upwind biased interpolation fitting
►Ccurve	A single curve in a graph
CcurveStyle	The style (line, symbol, etc) of a curve
CCuthillMcKeeRenumber	Cuthill-McKee renumbering
CcuttingPlane	Constructs plane through mesh
CCV2D	Conformal-Voronoi 2D automatic mesher with grid or read initial points and point position relaxation with optional "squarification"
Ccv2DControls	Controls for the 2D CV mesh generator
CcvControls	Controls for the conformalVoronoiMesh mesh generator
CcyclicAMIFvPatch	Cyclic patch for Arbitrary Mesh Interface (AMI)
CcyclicAMIFvPatchField	This boundary condition enforces a cyclic condition between a pair of boundaries, whereby communication between the patches is performed using an arbitrary mesh interface (AMI) interpolation
CcyclicAMIFvsPatchField	Foam::cyclicAMIFvsPatchField
CcyclicAMIGAMGInterface	GAMG agglomerated cyclic AMI interface
CcyclicAMIGAMGInterfaceField	GAMG agglomerated cyclic interface field
CcyclicAMILduInterface	An abstract base class for cyclic AMI coupled interfaces
CcyclicAMILduInterfaceField	Abstract base class for cyclic AMI coupled interfaces
CcyclicAMIPointPatch	Cyclic AMI point patch - place holder only
CcyclicAMIPointPatchField	Cyclic AMI front and back plane patch field
CcyclicAMIPolyPatch	Cyclic patch for Arbitrary Mesh Interface (AMI)
CcyclicFvPatch	Cyclic-plane patch
CcyclicFvPatchField	This boundary condition enforces a cyclic condition between a pair of boundaries
CcyclicFvsPatchField	Foam::cyclicFvsPatchField
CcyclicGAMGInterface	GAMG agglomerated cyclic interface
CcyclicGAMGInterfaceField	GAMG agglomerated cyclic interface field
CcyclicLduInterface	An abstract base class for cyclic coupled interfaces
CcyclicLduInterfaceField	Abstract base class for cyclic coupled interfaces
CcyclicPointPatch	Cyclic patch for post-processing
CcyclicPointPatchField	Cyclic front and back plane patch field
CcyclicPolyPatch	Cyclic plane patch
CcyclicSlipFvPatch	Cyclic-plane patch
CcyclicSlipFvPatchField	This boundary condition is a light wrapper around the cyclicFvPatchField condition, providing no new functionality
CcyclicSlipFvsPatchField	Foam::cyclicSlipFvsPatchField
CcyclicSlipPointPatch	Cyclic patch with slip constraint
CcyclicSlipPointPatchField	Cyclic + slip constraints
CcyclicSlipPolyPatch	Copy of cyclicSlip - used to be able to instantiate cyclicSlip pointPatch which is cyclicSlip with slip constraints
CcyclicTransform	Cyclic plane transformation
CcylinderAnnulusToCell	A topoSetSource to select cells based on cell centres inside a cylinder annulus
CcylinderAnnulusToFace	A topoSetSource to select faces based on face centres inside a cylinder annulus
CcylinderToCell	A topoSetSource to select cells based on cell centres inside a cylinder
CcylinderToFace	A topoSetSource to select faces based on face centres inside a cylinder
Ccylindrical	A local coordinate rotation
CcylindricalInletVelocityFvPatchVectorField	This boundary condition describes an inlet vector boundary condition in cylindrical co-ordinates given a central axis, central point, rpm, axial and radial velocity
CDampingModel	Base class for collisional damping models
Cdata	Database for solution and other reduced data
CdecomposedBlockData	DecomposedBlockData is a List<char> with IO on the master processor only
CdecompositionConstraint
CdecompositionMethod	Abstract base class for decomposition
Cdeferred	Deferred correction interpolation scheme derived from upwind which returns upwind weighting factors and an explicit correction obtained from the specified scheme
CdegenerateMatcher	Collection of all hex degenerate matchers (hex, wedge, prism etc.) Has static member function to match a shape
CDelaunayMesh	The vertex and cell classes must have an index defined
CDelaunayMeshTools	Collection of functions for operating on a Delaunay mesh. Includes:
CdemandDrivenEntry	Class for demand-driven dictionary entries
CDenseDragForce
CDevolatilisationModel	Templated devolatilisation model class
CDiagonalMatrix	DiagonalMatrix<Type> is a 2D diagonal matrix of objects of type Type, size nxn
CDiagonalPreconditioner	Diagonal preconditioner for both symmetric and asymmetric matrices
CdiagonalPreconditioner	Diagonal preconditioner for both symmetric and asymmetric matrices
CDiagonalSolver	Foam::DiagonalSolver
CdiagonalSolver	Foam::diagonalSolver
CDiagTensor	Templated 3D DiagTensor derived from VectorSpace
CdiameterModel	Abstract base-class for dispersed-phase particle diameter models
CDICGaussSeidelSmoother	Combined DIC/GaussSeidel smoother for symmetric matrices in which DIC smoothing is followed by GaussSeidel to ensure that any "spikes" created by the DIC sweeps are smoothed-out
CDICPreconditioner	Simplified diagonal-based incomplete Cholesky preconditioner for symmetric matrices (symmetric equivalent of DILU). The reciprocal of the preconditioned diagonal is calculated and stored
CDICSmoother	Simplified diagonal-based incomplete Cholesky smoother for symmetric matrices
►Cdictionary	A list of keyword definitions, which are a keyword followed by any number of values (e.g. words and numbers). The keywords can represent patterns which are matched using Posix regular expressions. The general order for searching is as follows:
CincludedDictionary
CDictionary	General purpose template dictionary class which manages the storage associated with it
CDictionaryBase	Base dictionary class templated on both the form of doubly-linked list it uses as well as the type it holds
CdictionaryEntry	A keyword and a list of tokens is a 'dictionaryEntry'
CdictionaryListEntry	Read/write List of dictionaries
CdictionaryName
CdiffusiveMassTransferModel	Model for diffusive mass transfer coefficients between two phases
CDILUGaussSeidelSmoother	Combined DILU/GaussSeidel smoother for asymmetric matrices in which DILU smoothing is followed by GaussSeidel to ensure that any "spikes" created by the DILU sweeps are smoothed-out
CDILUPreconditioner	Simplified diagonal-based incomplete LU preconditioner for asymmetric matrices. The reciprocal of the preconditioned diagonal is calculated and stored
CDILUSmoother	Simplified diagonal-based incomplete LU smoother for asymmetric matrices
Cdimensioned	Generic dimensioned Type class
CDimensionedField	Field with dimensions and associated with geometry type GeoMesh which is used to size the field and a reference to it is maintained
CdimensionSet	Dimension set for the base types
CdimensionSets
CdimFieldDecomposer	Dimensioned field decomposer
CdirectAMI	Direct mapped Arbitrary Mesh Interface (AMI) method
CdirectFieldMapper	Direct field mapper
CdirectFvPatchFieldMapper	Direct fvPatchFieldMapper
CdirectionalDiffusivity	Directional finite volume mesh motion diffusivity
CdirectionInfo	Holds direction in which to split cell (in fact a local coordinate axes). Information is a label and a direction
CdirectionMixedFvPatchField	Base class for direction-mixed boundary conditions
Cdirections	Set of directions for each cell in the mesh. Either uniform and size=1 or one set of directions per cell
CdirectMethod	Direct (one-to-one cell correspondence) mesh-to-mesh interpolation class
CdirectPointPatchFieldMapper	Direct PointPatchFieldMapper
CdispersedDisplacedPhaseInterface	Class to represent a interface between phases where one phase is considered dispersed within the other, and the interface has been displaced to some extent by a third phase
CdispersedDisplacedSidedPhaseInterface	Class to represent a certain side of an interface between phases, where one phase is considered dispersed within the other, and the interface has been displaced to some extent by a third phase
CdispersedDragModel	Model for drag between two phases where one phase can be considered dispersed in the other and the drag therefore characterised by a drag coefficient
CdispersedLiftModel	Model for lift between two phases where one phase can be considered dispersed in the other and the lift therefore characterised by a lift coefficient
CdispersedPhaseInterface	Class to represent a interface between phases where one phase is considered dispersed within the other
CdispersedSidedPhaseInterface	Class to represent a certain side of an interface between phases where one phase is considered dispersed within the other
CdispersedTurbulentDispersionModel	Model for turbulent dispersion between two phases where one phase can be considered dispersed in the other
CdispersedVirtualMassModel	Model for virtual mass between two phases where one phase can be considered dispersed in the other and the virtual mass therefore characterised by a virtual mass coefficient
CdispersedWallLubricationModel	Model for the wall lubrication force between two phases where one phase can be considered dispersed in the other
CDispersionModel
CDispersionRASModel	Base class for particle dispersion models based on RAS turbulence
CdisplacedPhaseInterface	Class to represent an interface between phases which has been displaced to some extent by a third phase
CdisplacedSidedPhaseInterface	Class to represent a certain side of an interface between phases, where the interface has been displaced to some extent by a third phase
CdisplacementComponentLaplacianFvMotionSolver	Mesh motion solver for an fvMesh. Based on solving the cell-centre Laplacian for the given component of the motion displacement
CdisplacementLaplacianFvMotionSolver	Mesh motion solver for an fvMesh. Based on solving the cell-centre Laplacian for the motion displacement
CdisplacementLayeredMotionMotionSolver	Mesh motion solver for an (multi-block) extruded fvMesh. Gets given the structure of the mesh blocks and boundary conditions on these blocks
CdisplacementLinearMotionMotionSolver	Mesh motion solver simple linear expansion and contraction of a mesh region defined by a motion axis and the extents of the motion
CdisplacementMeshMoverMotionSolver	Mesh motion solver for an fvMesh. Based on solving the cell-centre Laplacian for the motion displacement
CdisplacementMotionSolver	Virtual base class for displacement motion solver
CdisplacementSBRStressFvMotionSolver	Mesh motion solver for an fvMesh. Based on solving the cell-centre solid-body rotation stress equations for the motion displacement
CDistortedSphereDragForce	Drag model for distorted spheres
CDistributeableMeshObject
CDistributedDelaunayMesh
CdistributedTriSurfaceMesh	IOoject and searching on distributed triSurface. All processor hold (possibly overlapping) part of the overall surface. All queries are distributed to the processor that can answer it and the result sent back
CdistributedWeightedFvPatchFieldMapper	FieldMapper with weighted mapping from (optionally remote) quantities
Cdistribution	Accumulating histogram of values. Specified bin resolution automatic generation of bins
CDistribution	Accumulating histogram of component values. Specified bin resolution, automatic generation of bins
►CdistributionMap	Class containing processor-to-processor mapping information
Ctransform	Default transformation behaviour
CtransformPosition	Default transformation behaviour for position
CdistributionMapBase	Class containing processor-to-processor mapping information
CdistributionModel	A library of runtime-selectable distribution models
CdivideEqOp
CdivideEqOp2
CdivideOp
CdivideOp2
CdivideOp3
CdlLibraryTable	A table of dynamically loaded libraries
►CDLListBase	Base doubly-linked list
Cconst_iterator	An STL-conforming const_iterator
Cconst_reverse_iterator	An STL-conforming const_reverse_iterator
Citerator	An STL-conforming iterator
Clink	Link structure
CdomainDecomposition	Automatic domain decomposition class for finite-volume meshes
Cdownwind	Downwind interpolation scheme class
CdragModel	Model for drag between phases
CDSMCCloud	Templated base class for dsmc cloud
CdsmcCloud	Cloud class to simulate dsmc parcels
►CDSMCParcel	DSMC parcel class
CconstantProperties	Class to hold DSMC particle constant properties
CiNew	Factory class to read-construct particles used for
CdummyAgglomeration	Agglomerate without combining cells. Used for testing
CdummyISstream	Dummy stream for input. Aborts at any attempt to read from it
CdummyIstream	Dummy stream for input. Aborts at any attempt to read from it
CdummyTransform
CduplicatePoints	Duplicate points
CdynamicAlphaContactAngleFvPatchScalarField	A dynamic alphaContactAngle scalar boundary condition
CdynamicCode	Tools for handling dynamic code compilation
CdynamicCodeContext	Encapsulation of dynamic code dictionaries
CDynamicField	Dynamically sized Field
CDynamicID	A class that holds the data needed to identify things (zones, patches) in a dynamic mesh
►CdynamicIndexedOctree	Non-pointer based hierarchical recursive searching. Storage is dynamic, so elements can be deleted
Cnode	Tree node. Has up pointer and down pointers
CDynamicList	A 1D vector of objects of type <T> that resizes itself as necessary to accept the new objects
CdynamicMeshPointInterpolator	Interpolates pointVectorFields
CdynamicPressureFvPatchScalarField	This boundary condition provides a dynamic pressure condition. It subtracts a kinetic energy term from a reference pressure to get a value which is fixed on the boundary. It forms the base class for the total and entrainment pressure conditions
CdynamicTreeDataPoint	Holds (reference to) pointField. Encapsulation of data needed for octree searches. Used for searching for nearest point. No bounding boxes around points. Only overlaps and calcNearest are implemented, rest makes little sense
CeagerGAMGProcAgglomeration	'Eager' processor agglomeration of GAMGAgglomerations: at every level agglomerates 'mergeLevels' number of processors onto the minimum processor number
CeConstThermo	Internal energy based thermodynamics package using a constant heat capacity at constant volume:
CeddyViscosity	Eddy viscosity turbulence model base class
Cedge	An edge is a list of two point labels. The functionality it provides supports the discretisation on a 2-D flat mesh
CedgeCollapser	Does polyTopoChanges to remove edges. Can remove faces due to edge collapse but can not remove cells due to face removal! Also removes unused points
CedgeFaceCirculator	Walks from starting face around edge
CedgeIntersections	Holder of intersections of edges of a surface with another surface. Optionally shuffles around points on surface to resolve any 'conflicts' (edge hitting triangle edge, edge hitting point etc.)
CEdgeMap	Map from edge (expressed as its endpoints) to value
CedgeMesh	Points connected by edges
CedgeStats	Helper class to calculate minimum edge length on mesh
CedgeSurface	Description of surface in form of 'cloud of edges'
CedgeVertex	Combines edge or vertex in single label. Used to specify cuts across cell circumference
CegrMixture	Foam::egrMixture
CeIcoTabulatedThermo	Internal energy based thermodynamics package using non-uniform tabulated data for heat capacity vs temperature
CelectrostaticPotential
CemptyFvPatch	A patch which will not exist in the fvMesh. Typical example is a front and back plane of a 2-D geometry
CemptyFvPatchField	This boundary condition provides an 'empty' condition for reduced dimensions cases, i.e. 1- and 2-D geometries. Apply this condition to patches whose normal is aligned to geometric directions that do not constitute solution directions
CemptyFvsPatchField	Foam::emptyFvsPatchField
CemptyPointPatch	Empty plane patch
CemptyPointPatchField	An empty boundary condition for pointField
CemptyPolyPatch	Empty front and back plane patch. Used for 2-D geometries
CenergyJumpAMIFvPatchScalarField	This boundary condition provides an energy jump condition across a pair of coupled patches with an arbitrary mesh interface (AMI). It is not applied directly, but is employed on-the-fly when converting temperature boundary conditions into energy
CenergyJumpFvPatchScalarField	This boundary condition provides an energy jump condition across a pair of coupled patches. It is not applied directly, but is employed on-the-fly when converting temperature boundary conditions into energy
CenergyScalingFunction
CenginePiston	Foam::enginePiston
CengineValve	Foam::engineValve
CenrichedPatch	The enriched patch contains a double set of faces from the two sides of the sliding interface before the cutting
CensightAsciiStream
CensightBinaryStream
CensightFile	Ensight output with specialised write() for strings, integers and floats. Correctly handles binary write as well
CensightGeoFile	Specialised Ensight output with extra geometry file header
►CensightMesh
CnFacePrimitives
►CensightPart	Base class for ensightPartCells and ensightPartFaces
ClocalPoints	Track the points used by the part and map global to local indices
CensightPartCells	An implementation of ensightPart to hold volume mesh cells
CensightPartFaces	An implementation of ensightPart to hold volume mesh faces
CensightParts	A collection of several ensightPart elements
CensightPTraits	Conversion of OpenFOAM pTraits into the Ensight equivalent
CensightPTraits< scalar >
CensightPTraits< sphericalTensor >
CensightPTraits< symmTensor >
CensightPTraits< tensor >
CensightPTraits< vector >
CensightSetWriter
CensightStream	Abstract base class for writing Ensight data
CensightSurfaceWriter	A surfaceWriter for Ensight format
CentrainmentPressureFvPatchScalarField	This boundary condition provides an entrainment pressure condition. The condition is the same as totalPressure condition except that where the total pressure uses the square of the velocity magnitude, this uses the signed square of the normal velocity. In the incompressible case, that means the formulation is as follows:
Centry	A keyword and a list of tokens is an 'entry'
CePolynomialThermo	Internal energy based thermodynamics package using a polynomial function of temperature for the constant heat capacity at constant volume:
CePowerThermo	Internal energy based thermodynamics package using a power function of temperature for the constant heat capacity at constant volume which is particularly suitable for solids at low temperatures:
CepsilonmWallFunctionFvPatchScalarField	This boundary condition provides a turbulence dissipation wall constraint for the Foam::mixtureKEpsilon model
CepsilonWallFunctionFvPatchScalarField	This boundary condition provides a turbulence dissipation wall constraint for low- and high-Reynolds number turbulence models
CeqEqOp
CeqEqOp2
CeqEqOp3
CeqMagOp
CeqMagOp2
CeqMinusOp
CeqMinusOp2
CeqOp
CeqOp2
CeqSqrOp
CeqSqrOp2
CErgunWenYuDragForce	Ergun-Wen-Yu drag model for solid spheres
Cerror	Class to handle errors and exceptions in a simple, consistent stream-based manner
CerrorManip	Error stream manipulators for exit and abort which may terminate the program or throw an exception depending if the exception handling has been switched on (off by default)
CerrorManipArg	ErrorManipArg
CETAB	The Enhanced TAB model
CeTabulatedThermo	Internal energy based thermodynamics package using uniform tabulated data for internal energy and heat capacity vs pressure and temperature
CEuler	Euler ODE solver of order (0)1
CEulerCoordinateRotation	A coordinateRotation defined in the z-x-y Euler convention
CEulerImplicit	An Euler implicit solver for chemistry
CEulerSI	Semi-implicit Euler ODE solver of order (0)1
CexponentialDiffusivity	Mesh motion diffusivity maipulator which returns the exp(-alpha/D) of the given diffusivity D
CexponentialSolidTransport	Exponential properties for solid heat transport Templated into a given thermodynamics package
CextendedCellToCellStencil	Baseclass for cell-to-cell stencils
CextendedCellToFaceStencil	Calculates/contains the extended cell-to-face stencil
CextendedCentredCellToCellStencil
CextendedCentredCellToFaceStencil
CextendedCentredFaceToCellStencil
CextendedEdgeMesh	Description of feature edges and points
CextendedFaceToCellStencil	Note: transformations on coupled patches not supported. Problem is the positions of cells reachable through these patches
CextendedFeatureEdgeMesh	ExtendedEdgeMesh + IO
CextendedUpwindCellToFaceStencil	Creates upwind stencil by shifting a centred stencil to upwind and downwind faces and optionally removing all non-(up/down)wind faces ('pureUpwind')
CexternalCoupledMixedFvPatchField	This boundary condition provides an interface to an external application. Values are transferred as plain text files, where OpenFOAM data is written as:
CexternalCoupledTemperatureMixedFvPatchScalarField	This boundary condition provides a temperature interface to an external application. Values are transferred as plain text files, where OpenFOAM data is written as:
CexternalDisplacementMeshMover	Virtual base class for mesh movers with externally provided displacement field giving the boundary conditions. Move the mesh from the current location to a new location (so modify the mesh; v.s. motionSolver that only returns the new location)
►CexternalPointEdgePoint	Holds information regarding nearest wall point. Used in PointEdgeWave. (so not standard FaceCellWave) To be used in wall distance calculation
CtrackingData	Class used to pass data into container
CexternalWallHeatFluxTemperatureFvPatchScalarField	This boundary condition applies a heat flux condition to temperature on an external wall. Heat flux can be specified in the following ways:
CextrapolatedCalculatedFvPatchField	This boundary condition applies a zero-gradient condition from the patch internal field onto the patch faces when `evaluated` but may also be assigned. `snGrad` returns the patch gradient evaluated from the current internal and patch field values rather than returning zero
Cextrude2DMesh	Given a 2D mesh insert all the topology changes to extrude. Does not work in parallel
CextrudedMesh
CextrudeModel	Top level extrusion model class
CextrudePatchMesh	Mesh at a patch created on the fly. The following entry should be used on the field boundary dictionary:
Cface	A face is a list of labels corresponding to mesh vertices
CfaceAreaIntersect	Face intersection class
CfaceAreaPairGAMGAgglomeration	Agglomerate using the pair algorithm
CfaceAreaWeightAMI	Face area weighted Arbitrary Mesh Interface (AMI) method
CfaceAreaWeightModel	Abstract base class for providing faceAreaWeight values to the cell motion controller based on an argument faceAreaFraction value, typically the ratio of the area of the face in question to the area of a square face with a side length of the local target cell size
CFaceCellWave	Wave propagation of information through grid. Every iteration information goes through one layer of cells. Templated on information that is transferred
CfaceCentredCubic	Generate an FCC lattice of points inside the surfaces to be conformed to of the conformalVoronoiMesh
CfaceCollapser	Collapses faces into edges. Used to remove sliver faces (faces with small area but non-zero span)
CfaceCoupleInfo	Container for information needed to couple to meshes. When constructed from two meshes and a list of coupled faces returns the mapping between points
CfaceEqOp
CfaceMapper	This object provides mapping and fill-in information for face data between the two meshes after the topological change. It is constructed from polyTopoChangeMap
CfacePointPatch	A pointPatch based on a polyPatch
CFacePostProcessing	Records particle face quantities on used-specified face zone
CfaceSelection	Face selection method for createBaffles
CfaceSet	A list of face labels
CfaceSets
CfaceToCell	A topoSetSource to select cells based on usage in faces
CfaceToCellStencil	Baseclass for extended cell centred addressing. Contains per cell a list of neighbouring faces in global addressing
CfaceToFace	A topoSetSource to select faces based on usage in another faceSet
CfaceToPoint	A topoSetSource to select points based on usage in faces
CfaceZone	A subset of mesh faces organised as a primitive patch
CfaceZoneSet	Like faceSet but -reads data from faceZone -updates faceZone when writing
CfaceZoneToCell	A topoSetSource to select cells based on side of faceZone
CfaceZoneToFaceZone	A topoSetSource to select faces based on usage in another faceSet
CFallOffReactionRate	General class for handling unimolecular/recombination fall-off reactions
CfanPressureFvPatchScalarField	This boundary condition can be applied to assign either a pressure inlet or outlet total pressure condition for a fan
CfanPressureJumpFvPatchScalarField	This boundary condition provides a pressure jump condition, using the `cyclic` condition as a base
CFDICPreconditioner	Faster version of the DICPreconditioner diagonal-based incomplete Cholesky preconditioner for symmetric matrices (symmetric equivalent of DILU) in which the reciprocal of the preconditioned diagonal and the upper coefficients divided by the diagonal are calculated and stored
CFDICSmoother	Simplified diagonal-based incomplete Cholesky smoother for symmetric matrices
CfeatureEdgeMesh	EdgeMesh + IO
CfeaturePointConformer	The Delaunay vertices required to conform to a feature point can be determined upon initialisation because the feature points are fixed and do not change throughout the meshing process
CFECCellToFaceStencil	All cells connected via edge to face
Cfft	Fast fourier transform derived from the Numerical Recipes in C routine
CFickian
CField	Pre-declare SubField and related Field type
CFieldActivatedInjection	Injection at specified positions, with the conditions:
CfieldDictionary	Read field as dictionary (without mesh)
CFieldField	Generic field type
CfieldFromFile
CFieldFunction1
CFieldFunction2
CfieldInterpolation
CfieldMapper	Abstract base class for field mapping
CfieldToCell	A topoSetSource to select cells based on field values
CFIFOStack	A FIFO stack based on a singly-linked list
CfileControl
CfileDiffusivity	Motion diffusivity read from given file name
CfileMonitor	Checking for changes to files
CfileMonitorWatcher	Internal tracking via stat(3p) or inotify(7)
CfileName	A class for handling file names
CfileOperation
CfileStat	Wrapper for stat() system call
CfilmHeightInletVelocityFvPatchVectorField	This boundary condition is designed to be used in conjunction with surface film modelling. It provides a velocity inlet boundary condition for patches where the film height is specified. The inflow velocity is obtained from the flux with a direction normal to the patch faces using:
CfilteredLinear2Limiter	Class to generate weighting factors for the filteredLinear2 interpolation scheme
CfilteredLinear2VLimiter	Class to generate weighting factors for the filteredLinear2V interpolation scheme
CfilteredLinear3Limiter	Class to generate weighting factors for the filteredLinear interpolation scheme
CfilteredLinear3VLimiter	Class to generate weighting factors for the filteredLinear3V interpolation scheme
CfilteredLinearLimiter	Class to generate weighting factors for the filteredLinear interpolation scheme
►CfindCellParticle	Particle class that finds cells by tracking
CiNew	Factory class to read-construct particles used for
CtrackingData	Class used to pass tracking data to the trackToFace function
CfindUniqueIntersectOp
CFitData	Data for the upwinded and centred polynomial fit interpolation schemes. The linearCorrection_ determines whether the fit is for a corrected linear scheme (first two coefficients are corrections for owner and neighbour) or a pure upwind scheme (first coefficient is correction for owner; weight on face taken as 1)
CfixedBlended	Two-scheme fixed-blending interpolation scheme
CfixedEnergyFvPatchScalarField	This boundary condition provides a fixed condition for energy. This is selected when the corresponding temperature condition is fixedValue
CfixedFluxExtrapolatedPressureFvPatchScalarField	This boundary condition sets the pressure gradient to the provided value such that the flux on the boundary is that specified by the velocity boundary condition
CfixedFluxPressureFvPatchScalarField	This boundary condition sets the pressure gradient to the provided value such that the flux on the boundary is that specified by the velocity boundary condition
CfixedGradientFvPatchField	This boundary condition supplies a fixed gradient condition, such that the patch values are calculated using:
CfixedInternalValueFvPatchField	This boundary condition provides a mechanism to set boundary (cell) values directly into a matrix, i.e. to set a constraint condition. Default behaviour is to act as a zero gradient condition
CfixedJumpAMIFvPatchField	This boundary condition provides a jump condition, across non-conformal cyclic path-pairs, employing an arbitraryMeshInterface (AMI)
CfixedJumpFvPatchField	This boundary condition provides a jump condition, using the `cyclic` condition as a base
►CFixedList	A 1D vector of objects of type <T> with a fixed size <Size>
CHash	Hashing function class
CfixedMeanFvPatchField	This boundary condition extrapolates field to the patch using the near-cell values and adjusts the distribution to match the specified, optionally time-varying, mean value
CfixedMeanOutletInletFvPatchField	This boundary condition extrapolates field to the patch using the near-cell values and adjusts the distribution to match the specified, optionally time-varying, mean value. This extrapolated field is applied as a fixedValue for outflow faces but zeroGradient is applied to inflow faces
CfixedMultiPhaseHeatFluxFvPatchScalarField	Calculates a wall temperature that produces the specified overall wall heat flux across all the phases in an Eulerian multi-phase simulation
CfixedNormalInletOutletVelocityFvPatchVectorField	This velocity inlet/outlet boundary condition combines a fixed normal component obtained from the "normalVelocity" patchField supplied with a fixed or zero-gradiented tangential component depending on the direction of the flow and the setting of "fixTangentialInflow":
CfixedNormalSlipFvPatchField	This boundary condition sets the patch-normal component to a fixed value
CfixedNormalSlipPointPatchField	Slip with user-specified normal
CfixedPressureCompressibleDensityFvPatchScalarField	This boundary condition calculates a (liquid) compressible density as a function of pressure and fluid properties:
CfixedProfileFvPatchField	This boundary condition provides a fixed value profile condition
CfixedRhoFvPatchScalarField	Foam::fixedRhoFvPatchScalarField
CfixedShearStressFvPatchVectorField	Set a constant shear stress as tau0 = -nuEff dU/dn
CfixedTrim	Fixed trim coefficients
CfixedUnburntEnthalpyFvPatchScalarField	Fixed boundary condition for unburnt
CfixedValueFvPatchField	This boundary condition supplies a fixed value constraint, and is the base class for a number of other boundary conditions
CfixedValueFvsPatchField	Foam::fixedValueFvsPatchField
CfixedValueInletOutletFvPatchField	This boundary condition sets a fixed value. When the flow direction is inwards this acts exactly like a fixed value condition. In the presence of outflow, however, this condition approximates the fixed value constraint in advective terms by fixing the gradient instead
CfixedValuePointPatchField	A FixedValue boundary condition for pointField
CflipLabelOp
CflipOp	Class containing functor to negate primitives. Dummy for all other types
CflowRateInletVelocityFvPatchVectorField	Velocity inlet boundary condition creating a velocity field with optionally specified profile normal to the patch adjusted to match the specified mass flow rate, volumetric flow rate or mean velocity
CflowRateOutletVelocityFvPatchVectorField	Velocity outlet boundary condition which corrects the extrapolated velocity to match the specified flow rate
CfluentFvMesh
►CfluidReactionThermo	Base-class for multi-component fluid thermodynamic properties
Cimplementation
CfluidSolutionControl	Fluid solution control class. Holds flags specific to the solution of fluids
►CfluidThermo	Base-class for fluid thermodynamic properties
Cimplementation
Cflux
Cflux< scalar >
CfluxCorrectedVelocityFvPatchVectorField	This boundary condition provides a velocity outlet boundary condition for patches where the pressure is specified. The outflow velocity is obtained by "zeroGradient" and then corrected from the flux:
CfluxLimitedLangmuirHinshelwoodReactionRate	Langmuir-Hinshelwood reaction rate for gaseous reactions on surfaces including the optional flux limiter of Waletzko and Schmidt
CfoamSurfaceWriter	A surfaceWriter for native OpenFOAM format with support for writing ASCII or binary
CforceSuSp	Helper container for force Su and Sp terms
CFreeStream	Inserting new particles across the faces of a all patched of type "patch" for a free stream. Uniform values number density, temperature and velocity sourced face-by-face from the boundaryT and boundaryU fields of the cloud
CfreestreamFvPatchField	This boundary condition provides a free-stream condition. It is a 'mixed' condition derived from the `inletOutlet` condition, whereby the mode of operation switches between fixed (free stream) value and zero gradient based on the sign of the flux
CfreestreamPressureFvPatchScalarField	This boundary condition provides a free-stream condition for pressure
CfreestreamVelocityFvPatchVectorField	This boundary condition provides a free-stream condition for velocity
CFunction1	Run-time selectable general function of one variable
CFunction1Evaluate	Global functions to evaluate Function1 of GeometricFields
CFunction2	Run-time selectable function of two variables
CFunction2Evaluate	Global functions to evaluate Function2 of GeometricFields
CfunctionEntry	A functionEntry causes entries to be added/manipulated on the specified dictionary given an input stream
CfunctionName	A functionName is a word starting with '#'
CfunctionObject	Abstract base-class for Time/database functionObjects
CfunctionObjectList	List of function objects with start(), execute() and end() functions that is called for each object
CfvBoundaryMesh	Foam::fvBoundaryMesh
CfvBoundaryMeshMapper	Foam::fvBoundaryMeshMapper
CfvCellSet
►CfvConstraint	Finite volume options abstract base class
CiNew	Return pointer to new fvConstraint object created
CfvConstraints	Finite volume constraints
CFvFaceCellWave	Wave propagation of information through grid. Every iteration information goes through one layer of cells. Templated on information that is transferred
►CfvFieldDecomposer	Finite Volume volume and surface field decomposer
CpatchFieldDecomposer	Patch field decomposer class
►CfvFieldReconstructor	Finite volume reconstructor for volume and surface fields
CfvPatchFieldReconstructor	Mapper for sizing only - does not do any actual mapping
►CfvMatrix	A special matrix type and solver, designed for finite volume solutions of scalar equations. Face addressing is used to make all matrix assembly and solution loops vectorise
CfvSolver	Solver class returned by the solver function
CfvMesh	Mesh data needed to do the Finite Volume discretisation
CfvMeshAdder	Adds two fvMeshes without using any polyMesh morphing. Uses polyMeshAdder
CfvMeshDistribute	Sends/receives parts of mesh+fvfields to neighbouring processors. Used in load balancing
►CfvMeshDistributor	Abstract base class for fvMesh movers
CvelocityMotionCorrection	Helper class to update the velocity boundary conditions
CfvMeshLduAddressing	Foam::fvMeshLduAddressing
CfvMeshMapper	Class holds all the necessary information for mapping fields associated with fvMesh
►CfvMeshMover	Abstract base class for fvMesh movers
CvelocityMotionCorrection	Helper class to update the velocity boundary conditions
CfvMeshMovers
CfvMeshMoversLayeredEngine	Foam::fvMeshMoversLayeredEngine
CfvMeshStitcher	Mesh manipulator that uses the intersection provided by the cyclic non-conformal poly patches to create non-conformal finite volume interfaces
CfvMeshSubset	Post-processing mesh subset tool. Given the original mesh and the list of selected cells, it creates the mesh consisting only of the desired cells, with the mapping list for points, faces, and cells
CfvMeshTools	A collection of tools for operating on an fvMesh
►CfvMeshTopoChanger	Abstract base class for fvMesh movers
CvelocityMotionCorrection	Helper class to update the velocity boundary conditions
►CfvModel	Finite volume model abstract base class
CiNew	Return pointer to new fvModel object created
CfvModels	Finite volume models
CfvMotionSolver	Base class for fvMesh based motionSolvers
CfvPatch	A finiteVolume patch using a polyPatch and a fvBoundaryMesh
CfvPatchDistWave	Takes a set of patches to start FvFaceCellWave from and computed the distance at patches and possibly additional transported data
CfvPatchField	Abstract base class with a fat-interface to all derived classes covering all possible ways in which they might be used
CfvPatchFieldMapper	Foam::fvPatchFieldMapper
CfvPatchMapper	Mapping class for a fvPatchField
CfvSchemes	Selector class for finite volume differencing schemes. fvMesh is derived from fvSchemes so that all fields have access to the fvSchemes from the mesh reference they hold
CfvSolution	Selector class for finite volume solution solution. fvMesh is derived from fvSolution so that all fields have access to the fvSolution from the mesh reference they hold
CfvsPatchField	An abstract base class with a fat-interface to all derived classes covering all possible ways in which they might be used
CfvSurfaceMapper	FV surface mapper
CFvWallInfo	Holds information regarding nearest wall point. Used in wall distance calculation
CFvWallInfoBase
CFvWallInfoData	Holds information (coordinate and normal) regarding nearest wall point
CFvWallInfoDataBase
CFvWallInfoYPlus	Holds information (coordinate and yStar) regarding nearest wall point
►CFvWallInfoYPlusBase
CtrackData	Class used to pass additional data in
CGAMGAgglomeration	Geometric agglomerated algebraic multigrid agglomeration class
CGAMGInterface	Abstract base class for GAMG agglomerated interfaces
CGAMGInterfaceField	Abstract base class for GAMG agglomerated interface fields
CGAMGPreconditioner	Geometric agglomerated algebraic multigrid preconditioner
CGAMGProcAgglomeration	Processor agglomeration of GAMGAgglomerations
CGAMGSolver	Geometric agglomerated algebraic multigrid solver
CGammaLimiter	Class with limiter function which returns the limiter for the Gamma interpolation scheme based on phict obtained from the LimiterFunc class
CGaussSeidelSmoother	A lduMatrix::smoother for Gauss-Seidel
CgeneralFieldMapper	General field mapper supporting both direct and weighted mapping
CgeneralFvPatchFieldMapper
CgeneralPointPatchFieldMapper
CgenericFvPatch	FV variant of the genericPolyPatch
CgenericFvPatchField	This boundary condition provides a generic version of the `calculated` condition, useful as a fallback for handling unknown patch types. Not generally applicable as a user-specified condition
CgenericPatchField
CgenericPointPatch	Substitute for unknown patches. Used for postprocessing when only basic polyPatch info is needed
CgenericPointPatchField	A generic version of calculatedPointPatchField, useful as a fallback for handling unknown patch types
CgenericPolyPatch	Substitute for unknown patches. Used for postprocessing when only basic polyPatch info is needed
CgeomCellLooper	Implementation of cellLooper. Does pure geometric cut through cell
CgeomDecomp	Geometrical domain decomposition
CGeoMesh	Generic mesh wrapper used by volMesh, surfaceMesh, pointMesh etc
CGeometricBoundaryField	Generic GeometricBoundaryField class
CGeometricField	Generic GeometricField class
CGeometricMeshObject
CgeometricOneField	A class representing the concept of a GeometricField of 1 used to avoid unnecessary manipulations for objects which are known to be one at compile-time
CgeometricSurfacePatch	The geometricSurfacePatch is like patchIdentifier but for surfaces. Holds type, name and index
CgeometricZeroField	A class representing the concept of a GeometricField of 1 used to avoid unnecessary manipulations for objects which are known to be zero at compile-time
CglobalIndex	Calculates a unique integer (label so might not have enough room - 2G max) for processor + local index. E.g
►CglobalIndexAndTransform	Determination and storage of the possible independent transforms introduced by coupledPolyPatches, as well as all of the possible permutations of these transforms generated by the presence of multiple coupledPolyPatches, i.e. more than one cyclic boundary. Note that any given point can be on maximum 3 transforms only (and these transforms have to be perpendicular)
Cless	Less function class used in sorting encoded transforms and indices
CGlobalIOField	IOField with global data (so optionally read from master)
CGlobalIOList	IOList with global data (so optionally read from master)
►CglobalMeshData	Various mesh related information for a parallel run. Upon construction, constructs all info using parallel communication
CListPlusEqOp
CglobalPoints	Calculates points shared by more than two processor patches or cyclic patches
CgnuplotGraph	Output in gnuplot (http://www.gnuplot.info) format
CgnuplotSetWriter	Write set in gnuplot format
CGradientDispersionRAS	The velocity is perturbed in the direction of -grad(k), with a Gaussian random number distribution with variance sigma. where sigma is defined below
CgradientEnergyCalculatedTemperatureFvPatchScalarField	Base class for temperature boundary conditions in which the parameters of the gradient energy condition can be set directly
CgradientEnergyFvPatchScalarField	This boundary condition provides a gradient condition for energy. This is selected when the corresponding temperature condition is zeroGradient, fixedGradient or gradientEnergyCalculatedTemperature
CgradientUnburntEnthalpyFvPatchScalarField	Gradient boundary condition for unburnt
CgradingDescriptor	Handles the specification for grading within a section of a block
CgradingDescriptors	List of gradingDescriptor for the sections of a block with additional IO functionality
►Cgraph	Class to create, store and output qgraph files
Cwriter	Abstract base class for a graph writer
CGravityForce	Calculates particle gravity force
CgreaterEqOp
CgreaterEqOp2
CgreaterEqOp3
CgreaterOp
CgreaterOp2
CgreaterOp3
CgreyDiffusiveRadiationMixedFvPatchScalarField	This boundary condition provides a grey-diffuse condition for radiation intensity, `I`, for use with the finite-volume discrete-ordinates model (fvDOM), in which the radiation temperature is retrieved from the temperature field boundary condition
CgreyDiffusiveViewFactorFixedValueFvPatchScalarField	This boundary condition provides a grey-diffuse condition for radiative heat flux, `qr`, for use with the view factor model
CH2O	Water
Charmonic	Harmonic-mean interpolation scheme class
CHash	Hash function class for primitives. All non-primitives used to hash entries on hash tables likely need a specialised version of this class
CHash< Foam::fileName >	Hash specialisation for hashing fileNames
CHash< Foam::keyType >	Hash specialisation for hashing keyTypes
CHash< Foam::label >	Hash specialisation for hashing labels
CHash< Foam::string >	Hash specialisation for hashing strings
CHash< Foam::word >	Hash specialisation for hashing words
CHash< Foam::wordRe >	Hash specialisation for hashing wordRes
CHash< void * >	Hash specialisation for hashing pointer addresses
ChashedWordList	A wordList with hashed indices for faster lookup by name
CHashPtrTable	A HashTable specialisation for hashing pointers
CHashSet	A HashTable with keys but without contents
ChashSignedLabel	Hash for signed integers (Hash<label> only works for unsigned ints)
►CHashTable	An STL-conforming hash table
Cconst_iterator	An STL-conforming const_iterator
Citerator	An STL-conforming iterator
CiteratorBase	The iterator base for HashTable
►CHashTableCore	Template-invariant bits for HashTable
CiteratorEnd	A zero-sized end iterator
ChConstThermo	Enthalpy based thermodynamics package using a constant heat capacity at constant pressure:
CheatTransferModel	Model for heat transfer between phases
CHeatTransferModel	Templated heat transfer model class
CHeatTransferPhaseSystem	..
CheatTransferPhaseSystem
CheheuPsiThermo
CheheuReactionThermo	Foam::heheuReactionThermo
ChePsiThermo	Energy for a mixture based on compressibility
CheRhoThermo	Energy for a mixture based on density
CheSolidThermo	Energy for a solid mixture
CheThermo	Enthalpy/Internal energy for a mixture
ChexBlock	Hex block definition used in the cfx converter
ChexCellLooper	Implementation of cellLooper
ChexMatcher	A cellMatcher for hex cells
ChexRef8	Refinement of (split) hexes using polyTopoChange
ChexRef8Data	Various for reading/decomposing/reconstructing/distributing refinement data
ChIcoTabulatedThermo	Enthalpy based thermodynamics package using non-uniform tabulated data for heat capacity vs temperature
ChierarchGeomDecomp	Does hierarchical decomposition of points. Works by first sorting the points in x direction into equal sized bins, then in y direction and finally in z direction
CHistogram	Calculates the counts per bin of a list
ChomogeneousMixture	Foam::homogeneousMixture
ChPolynomialThermo	Enthalpy based thermodynamics package using a polynomial function of temperature for the constant heat capacity at constant pressure:
ChPowerThermo
ChTabulatedThermo	Enthalpy based thermodynamics package using uniform tabulated data for enthalpy and heat capacity vs pressure and temperature
ChydrostaticDisplacementFvPatchVectorField	Fixed traction boundary condition for the standard linear elastic, fixed coefficient displacement equation in which the traction is caused by the hydrostatic pressure of an external liquid reservoir
ChydrostaticInitialisation	Optional hydrostatic initialisation of p_rgh and p by solving for and caching the hydrostatic ph_rgh and updating the density such that
CiC3H8O	Iso-propanol
CIC8H18	Iso-Octane
CicoPolynomial	Incompressible, polynomial form of equation of state, using a polynomial function for density
CicoTabulated	Incompressible of equation of state using non-uniform tabulated density vs temperature
CicoTabulatedTransport	Transport properties package using non-uniformly-spaced tabulated data for viscosity and thermal conductivity vs temperature
CIDEA	The IDEA fuel is constructed by adding 30% alphaMethylNaphthalene with 70% n-decane
►CIdentity	Templated identity and dual space identity tensors derived from SphericalTensor
Cdual	The identity type in the dual space
CifEqEqOp	Reduction class. If x and y are not equal assign value
CIFstream	Input from file stream
CIFstreamAllocator	A std::istream with ability to handle compressed files
Cignition	Foam::ignition
►CignitionSite	Foam::ignitionSite
CiNew	Class used for the read-construction of
CILList	Template class for intrusive linked lists
CImanip
CimmiscibleIncompressibleThreePhaseMixture	An immiscible incompressible two-phase mixture transport model
CimmiscibleIncompressibleTwoPhaseMixture	An immiscible incompressible two-phase mixture transport model
CinclinedFilmNusseltHeightFvPatchScalarField	Film height boundary condition for inclined films that imposes a sinusoidal perturbation on top of a mean flow rate, where the height is calculated using the Nusselt solution
CinclinedFilmNusseltInletVelocityFvPatchVectorField	Film velocity boundary condition for inclined films that imposes a sinusoidal perturbation on top of a mean flow rate, where the velocity is calculated using the Nusselt solution
CincompressibleInterPhaseTransportModel	Transport model selection class for the interFoam family of solvers
CincompressibleMomentumTransportModel	Base class for single-phase incompressible turbulence models
CincompressiblePerfectGas	Incompressible gas equation of state using a constant reference pressure in the perfect gas equation of state rather than the local pressure so that the density only varies with temperature:
CincompressibleThreePhaseMixture
CincompressibleTwoPhaseInteractingMixture	A two-phase incompressible transportModel for interacting phases requiring the direct evaluation of the mixture viscosity, e.g. activated sludge or slurry
CincompressibleTwoPhaseMixture	A two-phase incompressible transportModel
CindexedCellEnum
►CindexedOctree	Non-pointer based hierarchical recursive searching
Cnode	Tree node. Has up pointer and down pointers
CindexedParticle	Adds label index to base particle
CindexedParticleCloud	A Cloud of particles carrying an additional index
CindexedVertexEnum
CIndirectList	A List with indirect addressing
CIndirectListAddressing	A helper class for storing addresses
CInertPhaseModel	Class which represents an inert phase, with no reactions. Returns zero reaction rate and heat
CINew	A helper class when constructing from an Istream or dictionary
CInflationInjection	Inflation injection - creates new particles by splitting existing particles within in a set of generation cells, then inflating them to a target diameter within the generation cells and an additional set of inflation cells
CInflowBoundaryModel	Templated inflow boundary model class
CInfoProxy	A helper class for outputting values to Ostream
CinhomogeneousMixture	Foam::inhomogeneousMixture
CinitialPointsMethod	Abstract base class for generating initial points for a conformalVoronoiMesh
CInjectionModel	Templated injection model class
CInjectionModelList	List of injection models
CinletOutletFvPatchField	This boundary condition provides a generic outflow condition, with specified inflow for the case of return flow
CinletOutletTotalTemperatureFvPatchScalarField	This boundary condition provides an outflow condition for total temperature for use with supersonic cases, where a user-specified value is applied in the case of reverse flow
CinnerProduct
CinnerProduct< one, arg2 >
CinnerProduct< SphericalTensor2D< Cmpt >, SphericalTensor2D< Cmpt > >
CinnerProduct< SphericalTensor2D< Cmpt >, SymmTensor2D< Cmpt > >
CinnerProduct< SphericalTensor2D< Cmpt >, Tensor2D< Cmpt > >
CinnerProduct< SphericalTensor2D< Cmpt >, Vector2D< Cmpt > >
CinnerProduct< SphericalTensor< Cmpt >, SphericalTensor< Cmpt > >
CinnerProduct< SphericalTensor< Cmpt >, SymmTensor< Cmpt > >
CinnerProduct< SphericalTensor< Cmpt >, Tensor< Cmpt > >
CinnerProduct< SphericalTensor< Cmpt >, Vector< Cmpt > >
CinnerProduct< SymmTensor2D< Cmpt >, SphericalTensor2D< Cmpt > >
CinnerProduct< SymmTensor2D< Cmpt >, SymmTensor2D< Cmpt > >
CinnerProduct< SymmTensor2D< Cmpt >, Vector2D< Cmpt > >
CinnerProduct< SymmTensor< Cmpt >, SphericalTensor< Cmpt > >
CinnerProduct< SymmTensor< Cmpt >, SymmTensor< Cmpt > >
CinnerProduct< SymmTensor< Cmpt >, Tensor< Cmpt > >
CinnerProduct< SymmTensor< Cmpt >, Vector< Cmpt > >
CinnerProduct< Tensor2D< Cmpt >, SphericalTensor2D< Cmpt > >
CinnerProduct< Tensor2D< Cmpt >, Tensor2D< Cmpt > >
CinnerProduct< Tensor2D< Cmpt >, Vector2D< Cmpt > >
CinnerProduct< Tensor< Cmpt >, SphericalTensor< Cmpt > >
CinnerProduct< Tensor< Cmpt >, SymmTensor< Cmpt > >
CinnerProduct< Vector2D< Cmpt >, SphericalTensor2D< Cmpt > >
CinnerProduct< Vector2D< Cmpt >, SymmTensor2D< Cmpt > >
CinnerProduct< Vector2D< Cmpt >, Tensor2D< Cmpt > >
CinnerProduct< Vector< Cmpt >, scalar >	Dummy innerProduct for scalar to allow the construction of vtables for
CinnerProduct< Vector< Cmpt >, SphericalTensor< Cmpt > >
CinnerProduct< Vector< Cmpt >, SymmTensor< Cmpt > >
►Cinstant	An instant of time. Contains the time value and name
Cless	Less function class used in sorting instants
CintegrationScheme	Base for a set of schemes which integrate simple ODEs which arise from semi-implcit rate expressions
CInteractionLists	Builds direct interaction list, specifying which local (real) cells are potentially in range of each other
CinterfaceCompositionModel	Generic base class for interface composition models. These models describe the composition in phase 1 of the supplied pair at the interface with phase 2
CInterfaceCompositionPhaseChangePhaseSystem	Class to provide interfacial heat and mass transfer between a number of phases according to a interface composition model
CinterfaceCompression	Interface compression corrected scheme, based on counter-gradient transport, to maintain sharp interfaces during VoF simulations
CinterfaceCompressionFvPatchScalarField	Applies interface-compression to the phase-fraction distribution at the patch by setting the phase-fraction to 0 if it is below 0.5, otherwise to 1
CinterfaceCompressionNew
CinterfaceProperties	Contains the interface properties
CinternalFvPatch	Constraint patch to hold internal faces exposed by sub-setting
CinternalFvPatchField	Constraint fvPatchField to hold values for internal face exposed by sub-setting
CinternalFvsPatchField	Constraint fvsPatchField to hold values for internal face exposed by sub-setting
CinternalPointPatch	Constraint patch to hold internal faces exposed by sub-setting
CinternalPointPatchField	Constraint pointPatchField to hold values for internal face exposed by sub-setting
CinternalPolyPatch	Constraint patch to hold internal faces exposed by sub-setting
CinternalWriter	Write fields (internal)
CinterpolatingSolidBodyMotionSolver	Solid-body motion of the mesh specified by a run-time selectable motion function. Applies SLERP interpolation of movement as function of distance to the object surface to move the mesh points
Cinterpolation	Abstract base class for interpolation
CinterpolationCell	Uses the cell value for any point in the cell
CinterpolationCellPatchConstrained	Uses the cell value for any point in the cell apart from a boundary face where it uses the boundary value directly. Note: will not work on an empty patch
CinterpolationCellPoint	Given cell centre values and point (vertex) values decompose into tetrahedra and linear interpolate within them
CinterpolationCellPointFace	Foam::interpolationCellPointFace
CinterpolationCellPointWallModified	As interpolationCellPoint, but with the point field modified on wall faces
CinterpolationLookUpTable	A list of lists. Interpolates based on the first dimension. The values must be positive and monotonically increasing in each dimension
CinterpolationPointMVC	Given cell centre values interpolates to vertices and uses these to do a Mean Value Coordinates interpolation
CinterpolationWeights	Abstract base class for interpolating in 1D
CintersectedSurface	Given triSurface and intersection creates the intersected (properly triangulated) surface. (note: intersection is the list of points and edges 'shared' by two surfaces)
Cintersection	Foam::intersection
CinterstitialInletVelocityFvPatchVectorField	Inlet velocity in which the actual interstitial velocity is calculated by dividing the specified inletVelocity field with the local phase-fraction
CinverseDistanceDiffusivity	Inverse distance to the given patches motion diffusivity
CinverseFaceDistanceDiffusivity	Inverse distance to the given patches motion diffusivity
CinversePointDistanceDiffusivity	Inverse distance to the given patches motion diffusivity
CinverseVolumeDiffusivity	Inverse cell-volume motion diffusivity
CIOdictionary	IOdictionary is derived from dictionary and IOobject to give the dictionary automatic IO functionality via the objectRegistry. To facilitate IO, IOdictionary is provided with a constructor from IOobject and writeData and write functions
CIOdistributionMap	IOdistributionMap is derived from distributionMap and IOobject to give the distributionMap automatic IO functionality via the objectRegistry
CIOerror	Report an I/O error
CIOField	A primitive field of type <T> with automated input and output
CIOList	A List of objects of type <T> with automated input and output
CIOMap	A Map of objects of type <T> with automated input and output. Is a global object; i.e. can be read from undecomposed case
CIOMRFZoneList	List of MRF zones with IO functionality. MRF zones are specified by a list of dictionary entries, e.g
CIOobject	IOobject defines the attributes of an object for which implicit objectRegistry management is supported, and provides the infrastructure for performing stream I/O
CIOobjectList	List of IOobjects with searching and retrieving facilities
CIOOutputFilter	IOdictionary wrapper around OutputFilter to allow them to read from their associated dictionaries
CIOporosityModelList	List of porosity models with IO functionality
CIOPosition	Helper IO class to read and write particle positions
CIOPtrList	A PtrList of objects of type <T> with automated input and output
►CIOstream	An IOstream is an abstract base class for all input/output systems; be they streams, files, token lists etc
CversionNumber	Version number type
CIPstream	Input inter-processor communications stream
CIrreversibleReaction	Simple extension of Reaction to handle irreversible reactions
CisNotEqOp
CisoSurface	Marching tet iso surface algorithm with filtering to remove unnecessary topology
CIsothermalPhaseModel	Class which represents a phase for which the temperature (strictly energy) remains constant. Returns an empty energy equation and does nothing when correctThermo is called
CIsotropyModel	Base class for collisional return-to-isotropy models
CISstream	Generic input stream
CIstream	An Istream is an abstract base class for all input systems (streams, files, token lists etc). The basic operations are construct, close, read token, read primitive and read binary block
CIStringStream	Input from memory buffer stream
CisVolMesh	Supports static assertion that a template argument is of type volMesh
CisVolMesh< volMesh >
CITstream	Input token stream
CjanafThermo	Enthalpy based thermodynamics package using JANAF tables:
CJanevReactionRate	Janev, Langer, Evans and Post reaction rate
CjobInfo	Helper class for recording information about run/finished jobs
CJohnsonJacksonParticleSlipFvPatchVectorField	Partial slip boundary condition for the particulate velocity
CJohnsonJacksonParticleThetaFvPatchScalarField	Robin condition for the particulate granular temperature
CjplotGraph	Jplot graph output
CjumpCyclicAMIFvPatchField	This boundary condition provides a base class that enforces a cyclic condition with a specified 'jump' (or offset) between a pair of boundaries, whereby communication between the patches is performed using an arbitrary mesh interface (AMI) interpolation
CjumpCyclicFvPatchField	This boundary condition provides a base class for coupled-cyclic conditions with a specified 'jump' (or offset) between the values
CKeyed	A container with an integer key attached to any item
CkeyType	A class for handling keywords in dictionaries
CkLowReWallFunctionFvPatchScalarField	This boundary condition provides a turbulence kinetic energy wall function condition for low- and high-Reynolds number turbulent flow cases
CKmesh	Calculate the wavenumber vector field corresponding to the space vector field of a finite volume mesh;
CkOmegaSST	Implementation of the k-omega-SST turbulence model for incompressible and compressible flows
CkqRWallFunctionFvPatchField	This boundary condition provides a suitable condition for turbulence `k`, `q`, and `R` fields for the case of high Reynolds number flow using wall functions
ClabelBits	A 29bits label and 3bits direction packed into single label
ClabelledTri	Triangle with additional region number
►ClabelRange	A label range specifier
Cconst_iterator	An STL const_iterator
Cless	Less function class for sorting labelRange
►ClabelRanges	A list of labelRange
Cconst_iterator	An STL const_iterator
ClabelToCell	A topoSetSource to select cells based on explicitly given labels
ClabelToFace	A topoSetSource to select faces given explicitly provided face labels
ClabelToPoint	A topoSetSource to select points given explicitly provided labels
ClagrangianDistributionMap	Class containing mesh-to-mesh mapping information for particles
ClagrangianFieldDecomposer	Lagrangian field decomposer
ClagrangianWriter	Writes Lagrangian points and fields
ClaminarFlameSpeed	Abstract class for laminar flame speed
ClaminarModel	Templated abstract base class for laminar transport models
ClaminarThermophysicalTransportModel	Templated abstract base class for laminar thermophysical transport models
CLandauTellerReactionRate	Landau-Teller reaction rate
CLangmuirHinshelwoodReactionRate	Langmuir-Hinshelwood reaction rate for gaseous reactions on surfaces
ClaplaceFilter	Laplace filter for LES
CLarsenBorgnakkeVariableHardSphere	Variable Hard Sphere BinaryCollision Model with Larsen Borgnakke internal energy redistribution. Based on the INELRS subroutine in Bird's DSMC0R.FOR
ClayerAdditionRemoval	Cell layer addition mesh modifier
ClayerAndWeight
ClayerAverage	Generates plots of fields averaged over the layers in the mesh
ClayerInfo	Class to be used with FaceCellWave which enumerates layers of cells
ClayerParameters	Simple container to keep together layer specific information
ClduAddressing	The class contains the addressing required by the lduMatrix: upper, lower and losort
ClduInterface	An abstract base class for implicitly-coupled interfaces e.g. processor and cyclic patches
CLduInterfaceField	An abstract base class for implicitly-coupled interface fields e.g. processor and cyclic patch fields
ClduInterfaceField	An abstract base class for implicitly-coupled interface fields e.g. processor and cyclic patch fields
CLduInterfaceFieldPtrsList
►CLduMatrix	LduMatrix is a general matrix class in which the coefficients are stored as three arrays, one for the upper triangle, one for the lower triangle and a third for the diagonal
Cpreconditioner	Abstract base-class for LduMatrix preconditioners
Csmoother	Abstract base-class for LduMatrix smoothers
Csolver	Abstract base-class for LduMatrix solvers
►ClduMatrix	LduMatrix is a general matrix class in which the coefficients are stored as three arrays, one for the upper triangle, one for the lower triangle and a third for the diagonal
Cpreconditioner	Abstract base-class for lduMatrix preconditioners
Csmoother	Abstract base-class for lduMatrix smoothers
Csolver	Abstract base-class for lduMatrix solvers
ClduMesh	Abstract base class for meshes which provide LDU addressing for the construction of lduMatrix and LDU-solvers
ClduPrimitiveMesh	Simplest contrete lduMesh which stores the addressing needed by lduMatrix
ClduScheduleEntry	Struct to hold the patch index and the initialisation flag for the patch schedule
CleastSquaresVectors	Least-squares gradient scheme vectors
CLESdelta	Abstract base class for LES deltas
CLESfilter	Abstract class for LES filters
CLESModel	Templated abstract base class for LES SGS models
ClessEqOp
ClessEqOp2
ClessEqOp3
ClessOp
ClessOp2
ClessOp3
ClessProcPatches	Less function class that can be used for sorting processor patches
CLESThermophysicalTransportModel	Templated abstract base class for LES thermophysical transport models
CLIFOStack	A LIFO stack based on a singly-linked list
CLiftForce	Base class for particle lift force models
CliftModel	Model for the lift force between two phases
CLimited01Limiter	A LimitedLimiter with the range 0-1
ClimitedCubicLimiter	Class with limiter function which returns the limiter for the TVD limited centred-cubic interpolation scheme based on r obtained from the LimiterFunc class
ClimitedCubicVLimiter	Class with limiter function which returns the limiter for the limitedCubicV interpolation scheme based on r obtained from the LimiterFunc class
CLimitedLimiter	Foam::LimitedLimiter
ClimitedLinearLimiter	Class with limiter function which returns the limiter for the TVD limited linear interpolation scheme based on r obtained from the LimiterFunc class
CLimitedScheme	Class to create NVD/TVD limited weighting-factors
ClimitedSurfaceInterpolationScheme	Abstract base class for limited surface interpolation schemes
ClimiterBlended	Blends two specified schemes using the limiter function provided by a limitedSurfaceInterpolationScheme
ClimitWith	LimitWith interpolation scheme limits the specified scheme with the specified limiter
CLindemannFallOffFunction	Lindemann fall-off function
Cline	A line primitive
Clinear	Centred interpolation interpolation scheme class
ClinearDistance
►ClinearEqn	Linear equation of the form a*x + b = 0
Ccoefficient	Coefficient indexing enumeration
ClinearFitPolynomial	Linear polynomial for interpolation fitting
ClinearInterpolationWeights
ClinearSpatial
ClinearTsub	Vapour bubble diameter model for modelling of condensation of vapour bubbles. Calculates bubble diameter as a function of liquid phase subcooling
ClinearUpwind	LinearUpwind interpolation scheme class derived from upwind and returns upwind weighting factors and also applies a gradient-based explicit correction
ClinearUpwindV	LinearUpwindV interpolation scheme class derived from upwind and returns upwind weighting factors but also applies an explicit correction
ClinearViscousStress	Linear viscous stress turbulence model base class
ClineDivide	Divides a line into segments
Cliquid	Generic thermophysical properties class for a liquid in which the functions and coefficients for each property are run-time selected
CLiquidEvaporation	Liquid evaporation model
CLiquidEvaporationBoil	Liquid evaporation model
CliquidMixtureProperties	A mixture of liquids
CliquidProperties	The thermophysical properties of a liquid
CLISAAtomisation	Primary Breakup Model for pressure swirl atomisers
CList	A 1D array of objects of type <T>, where the size of the vector is known and used for subscript bounds checking, etc
CListAppendEqOp	List operator to append one list onto another
CListCompactIO	A List of objects of type <T> with input and output using a compact storage. Behaves like List except when binary output in case it writes a CompactListList
CListEqOp	Operator to apply a binary-equals operation to a pair of lists
CListEqOp< BinaryEqOp< Type > >	Operator to apply a binary-equals operation to a pair of lists
►CListHashTable	STL conforming hash table using contiguous lists rather than linked lists
CIterator	An STL iterator
►CListHashTableCore	Template-invariant bits for ListHashTable
CiteratorEnd	A zero-sized end iterator
CListOp	Operator to apply a binary operation to a pair of lists
CListOp< BinaryOp< Type > >	Operator to apply a binary operation to a pair of lists
ClistPlusEqOp
CListPlusEqOp	Plus op for FixedList<scalar>
ClistUpdateOp	List update operation
►CLList	Template class for non-intrusive linked lists
Cconst_iterator	An STL-conforming const_iterator
Citerator	An STL-conforming iterator
Clink	Link structure
CLLTMatrix	Templated class to perform the Cholesky decomposition on a symmetric positive-definite matrix
ClocalBlended	Two-scheme localBlended interpolation scheme
CLocalInteraction	Patch interaction specified on a patch-by-patch basis
ClocalIOdictionary	LocalIOdictionary derived from IOdictionary with global set false to disable parallel master reading
ClocalMax	Local maximum interpolation scheme in which the face value is set to the maximum of the two neighbouring cell values
ClocalMin	Local minimum interpolation scheme in which the face value is set to the minimum of the two neighbouring cell values
ClocalPointRegion	Takes mesh with 'baffles' (= boundary faces sharing points). Determines for selected points on boundary faces the 'point region' it is connected to. Each region can be visited by a cell-face-cell walk. Used in duplicating points after splitting baffles
ClogPolynomialTransport	Transport package using polynomial functions of the natural logarithm of temperature for the natural logarithm of dynamic viscosity and thermal conductivity:
ClookupProfile	Look-up based profile data - drag and lift coefficients are linearly interpolated based on the supplied angle of attack
►CLPtrList	Template class for non-intrusive linked PtrLists
Cconst_iterator	An STL-conforming const_iterator
Citerator	An STL-conforming iterator
CLUscalarMatrix	Class to perform the LU decomposition on a symmetric matrix
CLUST	LUST: Linear-upwind stabilised transport
Cmagnet	Class to hold the defining data for a permanent magnet, in particular the name, relative permeability and remanence
CmanualDecomp	Decomposition given a cell-to-processor association in a file
CmanualGAMGProcAgglomeration	Manual processor agglomeration of GAMGAgglomerations
CManualInjection	Manual injection
CmanualRenumber	Renumber given a ordered-to-original cell association in a file
CMap	A HashTable to objects of type <T> with a label key
CmapAddedPolyMesh	Class containing mesh-to-mesh mapping information after a mesh addition where we add a mesh ('added mesh') to an old mesh, creating a new mesh
CMapInternalField	Generic internal field mapper. For "real" mapping, add template specialisations for mapping of internal fields depending on mesh type
CMapInternalField< Type, MeshMapper, pointMesh >
CMapInternalField< Type, MeshMapper, surfaceMesh >
CMapInternalField< Type, MeshMapper, volMesh >
CmapNearestAMI	Nearest-mapping Arbitrary Mesh Interface (AMI) method
CmapNearestMethod	Map nearest mesh-to-mesh interpolation class
CmapPatchChange	Class containing mesh-to-mesh mapping information after a patch change operation
CmappedFieldFvPatchField	This boundary condition provides a self-contained version of the `mapped` condition. It does not use information on the patch; instead it holds thr data locally
CmappedFixedInternalValueFvPatchField	This boundary condition maps the boundary and internal values of a neighbour patch field to the boundary and internal values of *this
CmappedFixedValueFvPatchField	This boundary condition maps the value at a set of cells or patch faces back to *this
CmappedFlowRateFvPatchVectorField	Describes a volumetric/mass flow normal vector boundary condition by its magnitude as an integral over its area
CmappedFvPatch	Foam::mappedFvPatch
►CmappedPatchBase	Determines a mapping between patch face centres and mesh cell or face centres and processors they're on
CmaxProcEqOp
CnearestEqOp
CmappedPatchFieldBase	Functionality for sampling fields using mappedPatchBase. Every call to mappedField() returns a sampled field, optionally scaled to maintain an area-weighted average
CmappedPointPatch	MappedPointPatch patch
CmappedPolyPatch	Determines a mapping between patch face centres and mesh cell or face centres and processors they're on
CmappedVariableThicknessWallFvPatch	Take thickness field and number of layers and returns deltaCoeffs as 2.0/thickness/nLayers. To be used with 1D thermo baffle
CmappedVariableThicknessWallPolyPatch	Foam::mappedVariableThicknessWallPolyPatch
CmappedVelocityFluxFixedValueFvPatchField	This boundary condition maps the velocity and flux from a neighbour patch to this patch
CmappedWallFvPatch	Foam::mappedWallFvPatch
CmappedWallPointPatch	MappedWallPointPatch patch
CmappedWallPolyPatch	Determines a mapping between patch face centres and mesh cell or face centres and processors they're on
CMapPointField	Map point field on topology change. This is a partial template specialisation for GeoMesh=pointMesh
CmapSubsetMesh	Class containing mesh-to-mesh mapping information after a subset operation
CMarshakRadiationFixedTemperatureFvPatchScalarField	A 'mixed' boundary condition that implements a Marshak condition for the incident radiation field (usually written as G)
CMarshakRadiationFvPatchScalarField	A 'mixed' boundary condition that implements a Marshak condition for the incident radiation field (usually written as G)
CmasterCoarsestGAMGProcAgglomeration	Processor agglomeration of GAMGAgglomerations
CmasterOFstream	Master-only drop-in replacement for OFstream
CmatchedFlowRateOutletVelocityFvPatchVectorField	Velocity outlet boundary condition which corrects the extrapolated velocity to match the flow rate of the specified corresponding inlet patch
CMatrix	A templated (m x n) matrix of objects of <T>
CMatrixBlock	A templated block of an (m x n) matrix of type <MatrixType>
►CMatrixSpace	Templated matrix space
CBlock	Sub-block type
CConstBlock	Const sub-block type
CmaxEqOp
CmaxEqOp2
CmaxMagSqrEqOp
CmaxMagSqrEqOp2
CmaxMagSqrOp
CmaxMagSqrOp2
CmaxMagSqrOp3
CmaxOp
CmaxOp2
CmaxOp3
CMaxwellianThermal	Wall interaction setting microscopic velocity to a random one drawn from a Maxwellian distribution corresponding to a specified temperature
CmaxwellSlipUFvPatchVectorField	Maxwell slip boundary condition including thermal creep and surface curvature terms that can be optionally switched off
CMaxwellStefan
CMB	Liquid nC3H7COOCH3 or (MB) methyl butyrate (used for biodiesel surrogate)
CmedialAxisMeshMover	Mesh motion solver that uses a medial axis algorithm to work out a fraction between the (nearest point on a) moving surface and the (nearest point on a) fixed surface. This fraction is then used to scale the motion. Use
CmemberFunctionSelectionTables	Macros to enable the easy declaration of member function selection tables
CmemInfo	Memory usage information for the process running this object
CmergedCyclicPolyPatch	Placeholder for two patches describing a cyclic interface. Used in mesh conversion processes involving formats in which both halves of a cyclic interface are stored on the same patch
CmergePolyMesh	Add a given mesh to the original mesh to create a single new mesh
CmeshCutAndRemove	Like meshCutter but also removes non-anchor side of cell
CmeshCutter	Cuts (splits) cells
CmeshDualiser	Creates dual of polyMesh. Every point becomes a cell (or multiple cells for feature points), a walk around every edge creates faces between them
CMeshedSurface	A surface geometry mesh with zone information, not to be confused with the similarly named surfaceMesh, which actually refers to the cell faces of a volume mesh
CMeshedSurfaceIOAllocator	A helper class for storing points, faces and zones with IO capabilities
CMeshedSurfaceProxy	A proxy for writing MeshedSurface, UnsortedMeshedSurface and surfMesh to various file formats
CmeshObject
CMeshObject	Templated abstract base-class for optional mesh objects used to automate their allocation to the mesh database and the mesh-modifier event-loop
►CmeshPhiCorrectInfo
CtrackData	Tracking data. Mostly just a collection of references to the
CmeshPhiPreCorrectInfo
►CmeshReader	This class supports creating polyMeshes with baffles
CcellFaceIdentifier	Identify cell faces in terms of cell Id and face Id
CmeshRefinement	Helper class which maintains intersections of (changing) mesh with (static) surfaces
CmeshSearch	Various (local, not parallel) searches on polyMesh; uses (demand driven) octree to search
CmeshSearchFACE_CENTRE_TRISMeshObject	MeshObject wrapper around meshSearch(mesh, polyMesh::FACE_CENTRE_TRIS)
CmeshSearchMeshObject	MeshObject wrapper around meshSearch(mesh)
CmeshStructure	Detect extruded mesh structure given a set of patch faces
CmeshToMesh	Class to calculate the cell-addressing between two overlapping meshes
►CmeshToMesh0	Serial mesh to mesh interpolation class
CpatchFieldInterpolator	Patch-field interpolation class
CMeshToMeshMapGeometricFields	Generic internal field mapper. For "real" mapping, add template specialisations for mapping of internal fields depending on mesh type
CmeshToMeshMethod	Base class for mesh-to-mesh calculation methods
CmeshTriangulation	Triangulation of mesh faces. Generates (multiply connected) trisurface
CmeshWriter	Write OpenFOAM meshes and/or results to another CFD format
CMeshZones	A list of mesh zones
CmessageStream	Class to handle messaging in a simple, consistent stream-based manner
CmetisDecomp	Metis domain decomposition
CMGridGenGAMGAgglomeration	Agglomerate using the MGridGen algorithm
CMichaelisMentenReactionRate	Michaelis-Menten reaction rate for enzymatic reactions
CmidPoint	Mid-point interpolation (weighting factors = 0.5) scheme class
CminData	For use with FaceCellWave. Transports minimum passive data
CminEqOp
CminEqOp2
CminEqOp< labelPair >
CminEqOpFace
CminMagSqrEqOp
CminMagSqrEqOp2
CminMagSqrOp
CminMagSqrOp2
CminMagSqrOp3
CMinmodLimiter	Class with limiter function which returns the limiter for the Minmod interpolation scheme
CminModOp
CminModOp2
CminModOp3
CminOp
CminOp2
CminOp3
CminusEqOp
CminusEqOp2
CminusOp
CminusOp2
CminusOp3
CmirrorFvMesh
CMixedDiffuseSpecular	Wall interaction setting microscopic velocity to a random one drawn from a Maxwellian distribution corresponding to a specified temperature for a specified fraction of collisions, and reversing the wall-normal component of the particle velocity for the remainder
CmixedEnergyCalculatedTemperatureFvPatchScalarField	Base class for temperature boundary conditions in which the parameters of the mixed energy condition can be set directly
CmixedEnergyFvPatchScalarField	This boundary condition provides a mixed condition for energy. This is selected when the corresponding temperature condition is mixed, or mixedEnergyCalculatedTemperature
CmixedFixedValueSlipFvPatchField	A mixed boundary type that blends between fixedValue and slip, as opposed to the standard mixed condition that blends between fixedValue and fixedGradient; required to implement maxwellSlipU condition
CmixedFvPatchField	This boundary condition provides a base class for 'mixed' type boundary conditions, i.e. conditions that mix fixed value and patch-normal gradient conditions
CmixedUnburntEnthalpyFvPatchScalarField	Mixed boundary condition for unburnt
Cmixture
CmixtureViscosityModel	An abstract base class for incompressible mixtureViscosityModels
►Cmolecule	Foam::molecule
CconstantProperties	Class to hold molecule constant properties
CiNew	Factory class to read-construct particles used for
CtrackingData	Class used to pass tracking data to the trackToFace function
CmoleculeCloud
CmoleFractions	This function object calculates mole-fraction fields from the mass-fraction fields of the psi/rhoReactionThermo and caches them for output and further post-processing
CmomentOfInertia	Calculates the inertia tensor and principal axes and moments of a polyhedra/cells/triSurfaces. Inertia can either be of the solid body or of a thin shell
CmomentumCloud	Cloud class to introduce momentum parcels
CMomentumCloud	Templated base class for momentum cloud
CMomentumLookupTableInjection	Particle injection sources read from look-up table. Each row corresponds to an injection site
►CMomentumParcel	Momentum parcel class with rotational motion (as spherical particles only) and one/two-way coupling with the continuous phase
CconstantProperties	Class to hold momentum parcel constant properties
CiNew	Factory class to read-construct particles used for
CtrackingData
CmomentumParcel	Definition of momentum parcel
CmomentumParcelInjectionData	Container class to provide injection data for momentum parcels
CmomentumParcelInjectionDataIOList
CMomentumTransferPhaseSystem	Class which models interfacial momentum transfer between a number of phases. Drag, virtual mass, lift, wall lubrication and turbulent dispersion are all modelled. The explicit contribution from the drag is omitted from the transfer matrices, as this forms part of the solution of the pressure equation
CmomentumTransportModel	Abstract base class for turbulence models (RAS, LES and laminar)
CmorphFieldMapper	Abstract base class to hold the Field mapping for mesh morphs
CmotionDiffusivity	Abstract base class for cell-centre mesh motion diffusivity
CmotionDirectionalDiffusivity	MotionDirectional finite volume mesh motion diffusivity
CmotionSmoother	Given a displacement moves the mesh by scaling the displacement back until there are no more mesh errors
CmotionSmootherAlgo	Given a displacement moves the mesh by scaling the displacement back until there are no more mesh errors
CmotionSmootherData
CmotionSolver	Virtual base class for mesh motion solver
CmotionSolverList	Motion of the mesh specified as a list of motion solvers
CMoveableMeshObject
CMovingPhaseModel	Class which represents a moving fluid phase. Holds the velocity, fluxes and turbulence model and can generate the momentum equation. The interface is quite restrictive as it also has to support an equivalent stationary model, which does not store motion fields or a turbulence model
CMovingPhaseModelTransportThermoModel
CMovingPhaseModelTransportThermoModel< rhoReactionThermo >
CMovingPhaseModelTransportThermoModel< rhoThermo >
CmovingWallSlipVelocityFvPatchVectorField	This boundary condition provides a slip velocity condition for cases with moving walls
CmovingWallVelocityFvPatchVectorField	This boundary condition provides a velocity condition for cases with moving walls
CMPLIC	Multicut Piecewise-Linear Interface Calculation (MPLIC) corrected scheme is a surface interpolation scheme for flux calculation in advection of a bounded variable, e.g. phase fraction and for interface capturing in the volume of fluid (VoF) method
CMPLICcell	Class performs geometric matching of volume fraction and calculates surface interpolation of volume fraction field
CMPLICcellStorage	Provides local cell addressing for geometry and data for MPLIC class
CMPLICface	Class that deals with cutting faces based on face point values and target value
CMPLICU	Velocity-weighted Multicut Piecewise-Linear Interface Calculation (MPLICU) corrected scheme is a surface interpolation scheme for flux calculation in advection of a bounded variable, e.g. phase fraction and for interface capturing in the volume of fluid (VoF) method
CMPPICCloud	Adds MPPIC modelling to clouds
CmppicCloud	Cloud class to introduce MPPIC parcels
CmppicParcel	Definition of MPPIC parcel
►CMPPICParcel	Wrapper around parcel types to add MPPIC modelling
CiNew	Factory class to read-construct particles used for
CtrackingData
CMRFZone	MRF zone definition based on cell zone and parameters obtained from a control dictionary constructed from the given stream
CMRFZoneList	List container for MRF zomes
CmultiComponentMixture	Foam::multiComponentMixture
CMultiComponentPhaseModel	Class which represents a phase with multiple species. Returns the species' mass fractions, and their governing equations
CmultiDirRefinement	Does multiple pass refinement to refine cells in multiple directions
CmultiLevelDecomp	Decomposition given using consecutive application of decomposers
►CmultiphaseMixture	Incompressible multi-phase mixture with built in solution for the phase fractions with interface compression for interface-capturing
►CinterfacePair
Chash
CmultiplyEqOp
CmultiplyEqOp2
CmultiplyOp
CmultiplyOp2
CmultiplyOp3
CmultiplyWeightedOp
CmultiRegionSolutionControl	Multi-region-specific derivation of the solution control class
CmultiSolidBodyMotionSolver	Solid-body motion of the mesh specified by a run-time selectable motion function
CmultivariateIndependentScheme	Generic multi-variate discretisation scheme class for which any of the NVD, CNVD or NVDV schemes may be selected for each variable and applied independently
►CmultivariateScheme	Generic multi-variate discretisation scheme class which may be instantiated for any of the NVD, CNVD or NVDV schemes
CfieldScheme	SurfaceInterpolationScheme sub-class returned by operator(field)
►CmultivariateSelectionScheme	Generic multi-variate discretisation scheme class for which any of the NVD, CNVD or NVDV schemes may be selected for each variable
CfieldScheme	SurfaceInterpolationScheme sub-class returned by operator(field)
►CmultivariateSurfaceInterpolationScheme	Abstract base class for multi-variate surface interpolation schemes
CfieldScheme	SurfaceInterpolationScheme sub-class returned by operator(field)
CfieldTable	FieldTable
►CmultivariateUpwind	Upwind-difference form of the multivariate surfaceInterpolationScheme
CfieldScheme	SurfaceInterpolationScheme sub-class returned by operator(field)
CMUSCLLimiter	Class with limiter function which returns the limiter for the van Leer's MUSCL interpolation scheme
CN2	Liquid N2
CNamedEnum	Initialise the NamedEnum HashTable from the static list of names
CnbrToCell	A topoSetSource to select cells based on number of neighbouring cells (i.e. number of internal or coupled faces)
CnC3H8O	Propanol
CnearestToCell	A topoSetSource to select cells nearest to points
CnearestToPoint	A topoSetSource to select points nearest to points
CnearWallDist	Distance calculation for cells with face on a wall. Searches pointNeighbours to find closest
CNH3	Liquid ammonia
Cnil	A zero-sized class without any storage. Used, for example, in HashSet
CNoAtomisation	Dummy phase change model for 'none'
CNoBinaryCollision	No collision BinaryCollision Model
CNoBreakup	Dummy breakup model for 'none'
CnoChemistrySolver	Dummy chemistry solver for 'none' option
CNoCollision	Place holder for 'none' option
CNoComposition	Dummy class for 'none' option - will raise an error if any functions are called that require return values
CnoDecomp	Dummy decomposition method
CNoDevolatilisation	Dummy devolatilisation model for 'none'
CNoDispersion	Place holder for 'none' option
CNoHeatTransfer	Dummy heat transfer model for 'none'
CNoInflow	Not inserting any particles
CNoInjection	Place holder for 'none' option
CNoInteraction	Dummy class for 'none' option - will raise an error if any functions are called that require return values
CnoInterfaceCompression	Wrapper scheme to allow VoF solvers to run efficiently without interface compression, e.g. for cavitation simulations
CnoInterfaceCompressionNew
CnoiseFFT	FFT of the pressure field
CnonBlockingGaussSeidelSmoother	Variant of gaussSeidelSmoother that expects processor boundary cells to be sorted last and so can block later. Only when the cells are actually visited does it need the results to be present. It is expected that there is little benefit to be gained from doing this on a patch by patch basis since the number of processor interfaces is quite small and the overhead of checking whether a processor interface is finished might be quite high (call into mpi). Also this would require a dynamic memory allocation to store the state of the outstanding requests
CnonConformalBoundary	Mesh object that stores an all boundary patch and mapping to and from it and the mesh and the individual patches
CnonConformalCalculatedFvsPatchField	Foam::nonConformalCalculatedFvsPatchField
CnonConformalCoupledFvPatch	Non-conformal coupled FV patch. As nonConformalFvPatch, but is also coupled to another non-conformal patch
CnonConformalCoupledPolyPatch	Non-conformal coupled poly patch. As nonConformalPolyPatch, but this patch is coupled to another non-conformal patch. Information about the owner/neighbour relationship and transformation are made available by this class. Also, this patch allows access to the error patch
CnonConformalCyclicFvPatch	Non-conformal cyclic FV patch. As nonConformalCoupledFvPatch, but the neighbouring patch is local and known and is made available by this class
CnonConformalCyclicFvPatchField	This boundary condition enforces a non-conformal cyclic condition between a pair of boundaries
CnonConformalCyclicFvsPatchField	Constraint fvsPatchField for nonConformalCyclic couplings
CnonConformalCyclicPointPatch	Constraint patch for nonConformalCyclic couplings
CnonConformalCyclicPointPatchField	Constraint pointPatchField for nonConformalCyclic couplings
CnonConformalCyclicPolyPatch	Non-conformal cyclic poly patch. As nonConformalCoupledPolyPatch, but the neighbouring patch is local and known and is made available by this class
CnonConformalErrorFvPatch	Non-conformal error FV patch. As nonConformalFvPatch. This patch is a non-coupled non-conformal patch which is used to manage the errors created during the construction of a non-conformal coupled interface. Every patch used as the original patch of the owner side of a non-conformal coupled interface must also have an associated error patch
CnonConformalErrorFvPatchField	This boundary condition enforces a non-conformal error condition
CnonConformalErrorFvsPatchField	Constraint fvsPatchField for nonConformalError couplings
CnonConformalErrorPointPatch	Constraint patch for errors associated with nonConformalCyclic couplings
CnonConformalErrorPointPatchField	Constraint pointPatchField for nonConformalError patches
CnonConformalErrorPolyPatch	Non-conformal error poly patch. As nonConformalPolyPatch. This patch is a non-coupled non-conformal patch which is used to manage the errors created during the construction of a non-conformal coupled interface. Every patch used as the original patch of the owner side of a non-conformal coupled interface must also have an associated error patch
CnonConformalFvPatch	Non-conformal FV patch. Provides the necessary interface for a FV patch which does not conform to the underlying poly mesh. The non-conformal geometry and topology are held in the fvMesh, and are generated by the fvMeshStitcher. This class just provides access to this data
CnonConformalPolyPatch	Non-conformal poly patch. This patch is a placeholder and must have no faces. This patch is linked to an "original" patch. Other parts of the code (i.e., finite volume) will use this patch to create non-empty patches that do not conform to the poly mesh
CnonConformalProcessorCyclicFvPatch	Non-conformal processor cyclic FV patch. As nonConformalCyclicFvPatch, but the neighbouring patch is on a different processor
CnonConformalProcessorCyclicFvPatchField	This boundary condition enables processor communication across cyclic patches
CnonConformalProcessorCyclicFvsPatchField	Foam::nonConformalProcessorCyclicFvsPatchField
CnonConformalProcessorCyclicPointPatch	Constraint patch for nonConformalProcessorCyclic couplings
CnonConformalProcessorCyclicPointPatchField	Constraint pointPatchField for nonConformalProcessorCyclic couplings
CnonConformalProcessorCyclicPolyPatch	Non-conformal processor cyclic poly patch. As nonConformalCyclicPolyPatch, but the neighbouring patch is on a different processor
CnoneGAMGProcAgglomeration	Processor agglomeration of GAMGAgglomerations
CNonEquilibriumReversibleReaction	Simple extension of Reaction to handle reversible reactions using equilibrium thermodynamics
CNonInertialFrameForce	Calculates particle non-inertial reference frame force. Variable names as from Landau and Lifshitz, Mechanics, 3rd Ed, p126-129
CnonlinearEddyViscosity	Eddy viscosity turbulence model with non-linear correction base class
CnonOrthogonalSolutionControl	Non-orthogonal solution control class. Provides non-orthogonal-loop control methods
CNonSphereDragForce	Drag model for non-spherical particles
CnonUniformField
CnoOp
CnopEqOp
CnopEqOp2
CNoPhaseChange	Dummy phase change model for 'none'
CNoPreconditioner	Null preconditioner for both symmetric and asymmetric matrices
CnoPreconditioner	Null preconditioner for both symmetric and asymmetric matrices
CnormalLess	To compare normals
CnormalToFace	A topoSetSource to select faces based on normal
CnoSetWriter
CnoSlipFvPatchVectorField	This boundary condition fixes the velocity to zero at walls
CNoStochasticCollision	Dummy collision model for 'none'
CNoSurfaceFilm	Place holder for 'none' option
CNoSurfaceReaction	Dummy surface reaction model for 'none'
CnoSurfaceWriter	A dummy surfaceWriter selected to disable surface writing
CnotEqOp
CnotEqOp2
CnotOp
CnotOp2
CnotOp3
CNullMRF
CNullObject	Singleton null-object class and instance
CnutkAtmRoughWallFunctionFvPatchScalarField	This boundary condition provides a turbulent kinematic viscosity for atmospheric velocity profiles. It is designed to be used in conjunction with the atmBoundaryLayerInletVelocity boundary condition. The values are calculated using:
CnutkRoughWallFunctionFvPatchScalarField	This boundary condition provides a turbulent kinematic viscosity condition when using wall functions for rough walls, based on turbulence kinetic energy. The condition manipulates the E parameter to account for roughness effects
CnutkWallFunctionFvPatchScalarField	Turbulent viscosity wall-function boundary condition for high Reynolds number flows based on near-wall turbulence kinetic energy
CnutLowReWallFunctionFvPatchScalarField	This boundary condition provides a turbulent kinematic viscosity condition for use with low Reynolds number models. It sets `nut` to zero, and provides an access function to calculate y+
CnutURoughWallFunctionFvPatchScalarField	This boundary condition provides a turbulent kinematic viscosity condition when using wall functions for rough walls, based on velocity. The condition manipulates the E parameter to account for roughness effects
CnutUSpaldingWallFunctionFvPatchScalarField	This boundary condition provides a turbulent kinematic viscosity condition when using wall functions for rough walls, based on velocity, using Spalding's law to give a continuous nut profile to the wall (y+ = 0)
CnutUWallFunctionFvPatchScalarField	This boundary condition provides a turbulent kinematic viscosity condition when using wall functions, based on velocity
CnutWallFunctionFvPatchScalarField	This boundary condition provides a turbulent kinematic viscosity condition when using wall functions, based on turbulence kinetic energy
CNVDTVD	Foam::NVDTVD
CNVDVTVDV	Foam::NVDVTVDV
CobjectHit	This class describes a combination of target object index and success flag
CobjectMap	An objectMap is a pair of labels defining the mapping of an object from another object, e.g. a cell mapped from a point
CobjectRegistry	Registry of regIOobjects
COBJstream	OFstream which keeps track of vertices
Code	An ODE solver for chemistry
CodeChemistryModel	Extends base chemistry model adding an ODESystem and the reduction maps needed for tabulation
►CODESolver	Abstract base-class for ODE system solvers
CstepState
CODESystem	Abstract base class for the systems of ordinary differential equations
CoffsetOp
CoffsetOp< face >	Hash specialisation to offset faces in ListListOps::combineOffset
CoffsetOp< labelledTri >	Hash specialisation to offset faces in ListListOps::combineOffset
CoffsetOp< triFace >	Hash specialisation to offset faces in ListListOps::combineOffset
COFstream	Output to file stream
COFstreamAllocator	A std::ostream with ability to handle compressed files
COFstreamCollator	Threaded file writer
COmanip
ComegaWallFunctionFvPatchScalarField	This boundary condition provides a wall constraint on turbulnce specific dissipation, omega for both low and high Reynolds number turbulence models
Cone	A class representing the concept of 1 (scalar(1)) used to avoid unnecessary manipulations for objects which are known to be one at compile-time
ConeField	A class representing the concept of a field of 1 used to avoid unnecessary manipulations for objects which are known to be one at compile-time
ConeFieldField	A class representing the concept of a field of oneFields used to avoid unnecessary manipulations for objects which are known to be one at compile-time
COneResistanceHeatTransferPhaseSystem	Class which models interfacial heat transfer between a number of phases. A single heat transfer model is used for each interface
CoppositeFace	Class containing opposite face for a prismatic cell with addressing and a possibility of failure
COppositeFaceCellWave	Version of FaceCellWave that walks through prismatic cells only
COPstream	Output inter-processor communications stream
CoptionalCpuLoad
CorEqOp
CorEqOp2
CorientedSurface	Given point flip all faces such that normals point in same direction
CorOp
CorOp2
CorOp3
CORourkeCollision	Collision model by P.J. O'Rourke
CoscillatingDisplacementPointPatchVectorField	Foam::oscillatingDisplacementPointPatchVectorField
CoscillatingVelocityPointPatchVectorField	Foam::oscillatingVelocityPointPatchVectorField
Cosha1stream
COSHA1stream	A Foam::OSstream for calculating SHA-1 digests
COSPRELimiter	Class with limiter function which returns the limiter for the OSPRE interpolation scheme based on r obtained from the LimiterFunc class
COSstream	Generic output stream
COstream	An Ostream is an abstract base class for all output systems (streams, files, token lists, etc)
COStringStream	Output to memory buffer stream
CouterProduct
CouterProduct< Cmpt, SphericalTensor2D< Cmpt > >
CouterProduct< Cmpt, SphericalTensor< Cmpt > >
CouterProduct< Cmpt, SymmTensor2D< Cmpt > >
CouterProduct< Cmpt, SymmTensor< Cmpt > >
CouterProduct< SphericalTensor2D< Cmpt >, Cmpt >
CouterProduct< SphericalTensor< Cmpt >, Cmpt >
CouterProduct< SymmTensor2D< Cmpt >, Cmpt >
CouterProduct< SymmTensor< Cmpt >, Cmpt >
CouterProduct< Vector2D< Cmpt >, Vector2D< Cmpt > >
CoutletInletFvPatchField	This boundary condition provides a generic inflow condition, with specified outflow for the case of reverse flow
CoutletMappedUniformInletFvPatchField	This boundary condition averages the field over the "outlet" patch specified by name "outletPatch" and applies this as the uniform value of the field over this patch
CoutletPhaseMeanVelocityFvPatchVectorField	This boundary condition adjusts the velocity for the given phase to achieve the specified mean thus causing the phase-fraction to adjust according to the mass flow rate
CoutletStabilised	Outlet-stabilised interpolation scheme which applies upwind interpolation to the faces of the cells adjacent to outlets
CPackedBoolList	A bit-packed bool list
►CPackedList	A dynamically allocatable list of packed unsigned integers
Cconst_iterator	The const_iterator for PackedList
Citerator	Used for PackedList
CiteratorBase	The iterator base for PackedList
CPackedListCore	Template-invariant bits for PackedList
CPackingModel	Base class for packing models
CPair	An ordered pair of two objects of type <T> with first() and second() elements
CPairCollision
CPairCollisionRecord	Record of a collision between the particle holding the record and the particle with the stored id
CpairGAMGAgglomeration	Agglomerate using the pair algorithm
CPairModel	Templated pair interaction class
CpairPatchAgglomeration	Primitive patch pair agglomerate method
CpairPotential
CpairPotentialList
CPairSpringSliderDashpot	Pair forces between particles colliding with a spring, slider, damper model
CParamagneticForce	Calculates particle paramagnetic (magnetic field) force
CparcelCloud	Virtual abstract base class for parcel clouds. As parcelCloudBase but with additional virtualisation of the evolve method, plus some additional methods that are defined below the parcel-cloud layer (i.e., in Cloud). These methods are implemented by forwarding in the ParcelCloud class
CParcelCloud	Outermost template for parcel clouds. Adds the parcelCloud virtualisation layer and forwards the methods required by that layer
CparcelCloudBase	Virtual abstract base class for parcel clouds. Inserted by ParcelCloudBase into the base of the cloud template hierarchy and adds virtualisation of most methods defined by the clouds
CParcelCloudBase	Base template for parcel clouds. Inserts the parcelCloudBase virtualisation layer into the class. Also defines default zero-return source methods to enable the less functional clouds to be used in more complex situations
CparcelCloudList	List of parcel clouds, with the same interface as an individual parcel cloud. This is the object that should be constructed by a solver in order to support the coupled simulation of multiple clouds
CparcelThermo	Thermo package for (S)olids (L)iquids and (G)ases Takes reference to thermo package, and provides:
CParRunControl	Helper class for initialising parallel jobs from the command arguments
CParSortableList	Implementation of PSRS parallel sorting routine
CpartialFaceAreaWeightAMI	Partial face area weighted Arbitrary Mesh Interface (AMI) method
CpartialSlipFvPatchField	This boundary condition provides a partial slip condition. The amount of slip is controlled by a user-supplied field
►Cparticle	Base particle class
CiNew	Factory class to read-construct particles used for
CtrackingData
CParticleCollector	Function object to collect the parcel mass- and mass flow rate over a set of polygons. The polygons can either be specified by sets of user- supplied points, or in a concentric circles arrangement. If a parcel is 'collected', it can be flagged to be removed from the domain using the removeCollected entry
CParticleErosion	Function object to create a field of eroded volume, Q, on a specified list of patches. The volume is calculated by the model of Finnie et al. The implementation follows the description given by the review of Yadav et al
CParticleForce	Abstract base class for particle forces
CParticleForceList	List of particle forces
CParticleStressModel	Base class for inter-particle stress models
CParticleTracks	Records particle state (all variables) on each call to postFace
CParticleTrap	Traps particles within a given phase fraction for multi-phase cases
CpassiveParticle	Copy of base particle
CpassiveParticleCloud	A Cloud of passive particles
CPatchCollisionDensity	Function object which generates fields of the number and mass and rates thereof of collisions per unit area on all patches. Can optionally take a minimum speed below which a collision is not counted
CpatchDistanceToCell	A topoSetSource to select cells based on distance to a set of patches
CpatchDistMethod	Specialisation of patchDist for wall distance calculation
CpatchDistWave	Takes a set of patches to start FaceCellWave from and computed the distance at patches and possibly additional transported data
CpatchEdgeFaceInfo
CpatchEdgeFaceRegion	Transport of region for use in PatchEdgeFaceWave
CpatchEdgeFaceRegions	Transport of regions for use in PatchEdgeFaceWave
CPatchEdgeFaceWave	Wave propagation of information along patch. Every iteration information goes through one layer of faces. Templated on information that is transferred
CpatchFaceOrientation	Transport of orientation for use in PatchEdgeFaceWave
CPatchFlowRateInjection	Patch injection, by using patch flow rate to determine concentration and velocity
CpatchFluxToFace	A topoSetSource to select patch faces according to the flux direction
CpatchIdentifier	Identifies patch by name, patch index and physical type
CPatchInjection	Patch injection
CpatchInjectionBase	Base class for patch-based injection models
CpatchInteractionData	Helper class for the LocalInteraction patch interaction model
CpatchInteractionDataList	List container for patchInteractionData class
CPatchInteractionModel	Templated patch interaction model class
CPatchMeshObject
CpatchPatchDist	Like wallDist but calculates on a patch the distance to nearest neighbouring patches. Uses PatchEdgeFaceWave to do actual calculation
CPatchPostProcessing	Standard post-processing
CpatchProbes	Set of locations to sample.at patches
CpatchToFace	A topoSetSource to select faces based on usage in patches
CPatchTools	A collection of tools for searching, sorting PrimitivePatch information
►CpatchToPatch	Class to generate coupling geometry between two primitive patches
CprocFace	Structure to conveniently store processor and face indices
CPatchToPatchInterpolation	Interpolation class dealing with transfer of data between two primitivePatches
CpatchToPoly2DMesh	Convert a primitivePatch into a 2D polyMesh
CpatchWriter	Write patch fields
CpatchZones	Calculates zone number for every face of patch
CPBiCCCG	Preconditioned bi-conjugate gradient solver for asymmetric lduMatrices using a run-time selectable preconditioner
CPBiCG	Preconditioned bi-conjugate gradient solver for asymmetric lduMatrices using a run-time selectable preconditioner
CPBiCGStab	Preconditioned bi-conjugate gradient stabilised solver for asymmetric lduMatrices using a run-time selectable preconditioner
CPBiCICG	Preconditioned bi-conjugate gradient solver for asymmetric lduMatrices using a run-time selectable preconditioner
CPCG	Preconditioned conjugate gradient solver for symmetric lduMatrices using a run-time selectable preconditioner
CPCICG	Preconditioned conjugate gradient solver for symmetric lduMatrices using a run-time selectable preconditioner
CPDRDragModel	Base-class for sub-grid obstacle drag models. The available drag model is at basic.H
CPengRobinsonGas	PengRobinsonGas cubic equation of state for gases
CperfectFluid	Simple extension of the perfect gas equation of state to liquids by the addition of a constant density off-set:
CperfectGas	Perfect gas equation of state:
CperfectInterface	Hack of attachDetach to couple patches when they perfectly align. Does not decouple. Used by stitchMesh app. Does geometric matching
►Cphase	Single incompressible phase derived from the phase-fraction. Used as part of the multiPhaseMixture for interface-capturing multi-phase simulations
CiNew	Return a pointer to a new phase created on freestore
CPhaseChangeModel	Templated phase change model class
CphaseCompressibleMomentumTransportModel	Templated abstract base class for multiphase compressible turbulence models
CphaseHydrostaticPressureFvPatchScalarField	This boundary condition provides a phase-based hydrostatic pressure condition, calculated as:
CphaseIncompressibleMomentumTransportModel	Templated abstract base class for multiphase incompressible turbulence models
►CphaseInterface	Class to represent an interface between phases. Derivations can further specify the configuration of that interface; e.g., representing dispersal, displacement or sidedness
Cconst_iterator	STL const_iterator
CiNew	Class used for construction of PtrLists of phaseInterfaces
►CphaseInterfaceKey	Word-pair based class used for keying interface models in hash tables
Chash	Hashing class
►CphaseModel	Single incompressible phase derived from the phase-fraction. Used as part of the multiPhaseMixture for interface-capturing multi-phase simulations
CiNew	Return a pointer to a new phaseModel created on freestore
CphaseProperties	Helper class to manage multi-specie phase properties
CphasePropertiesList	Simple container for a list of phase properties
CphaseStabilised	Phase-stabilised interpolation scheme
CphaseSurfaceArrheniusReactionRate	A modified Arrhenius reaction rate given by:
CphaseSystem	Class to represent a system of phases and model interfacial transfers between them
CPhaseThermophysicalTransportModel	Templated base class for multiphase thermophysical transport models
CphaseTransferModel
CPhaseTransferPhaseSystem	Class which models non-thermally-coupled or weakly thermally coupled mass transfers
CPhiLimiter	Class with limiter function which returns the limiter for the Phi interpolation scheme
CPhiScheme	Class to create the weighting-factors based on the face-flux
CphysicalProperties	An abstract base class for physical properties
CpiecewiseLinearRamp	A linear ramp between 0 and 1 with definable start and end points
CPilchErdman	Particle secondary breakup model, based on the reference:
CpimpleControl	Pimple control class. Provides time-loop control methods which exit the simulation once convergence criteria have been reached. Also provides Pimple-loop control methods which exit the iteration once corrector convergence criteria have been met. Example usage:
CpimpleLoop	Pimple loop class. Implements the logic which controls the pimple loop generically for a given corrector convergence control. Can therefore be used be either single- or multi-region control classes
CpimpleMultiRegionControl	Pimple multi-region control class. As Foam::pimpleControl, but for a multi- region simulation comprising pimple and solid regions. More region types could be added
CpimpleNoLoopControl	Pimple no-loop control class. Implements various option flags, but leaves loop controls to the derivation or owner. Can be derived into a "full" pimple control or can be owned by a multi-region pimple class
CpisoControl	Piso control class. Provides time-loop and piso-loop control methods. No convergence checking is done
►Cplane	Geometric class that creates a 2D plane and can return the intersection point between a line and the plane
Cray	A direction and a reference point
CplaneToFaceZone	A topoSetSource to select faces based on the adjacent cell centres spanning a given plane. The plane is defined by a point and normal vector
CplenumPressureFvPatchScalarField	This boundary condition provides a plenum pressure inlet condition. This condition creates a zero-dimensional model of an enclosed volume of gas upstream of the inlet. The pressure that the boundary condition exerts on the inlet boundary is dependent on the thermodynamic state of the upstream volume. The upstream plenum density and temperature are time-stepped along with the rest of the simulation, and momentum is neglected. The plenum is supplied with a user specified mass flow and temperature
CPlessisMasliyahDragForce	Plessis-Masliyah drag model for spheres
CPLIC	Piecewise-Linear Interface Calculation (PLIC) corrected scheme is a surface interpolation scheme for flux calculation in advection of a bounded variable, e.g. phase fraction and for interface capturing in the volume of fluid (VoF) method
CPLICU	Velocity-weighted Piecewise-Linear Interface Calculation (PLICU) corrected scheme is a surface interpolation scheme for flux calculation in advection of a bounded variable, e.g. phase fraction and for interface capturing in the volume of fluid (VoF) method
CplusEqMagSqrOp
CplusEqMagSqrOp2
CplusEqOp
CplusEqOp2
CplusOp
CplusOp2
CplusOp3
CpointBoundaryMesh	Foam::pointBoundaryMesh
CpointBoundaryMeshMapper	Foam::pointBoundaryMeshMapper
CpointConstraint	Accumulates point constraints through successive applications of the applyConstraint function
CpointConstraints	Application of (multi-)patch point constraints
CpointConversion	Conversion functions between point (Foam::) and Point (CGAL::)
CpointData	Variant of pointEdgePoint with some transported additional data. WIP - should be templated on data like wallPointData
CpointEdgeCollapse	Determines length of string of edges walked to point
CpointEdgePoint	Holds information regarding nearest wall point. Used in PointEdgeWave. (so not standard FaceCellWave) To be used in wall distance calculation
CpointEdgeStructuredWalk	Determines length of string of edges walked to point
CPointEdgeWave	Wave propagation of information through grid. Every iteration information goes through one layer of edges
CpointFeatureEdgesTypes	Hold the types of feature edges attached to the point
►CpointFieldDecomposer	Point field decomposer
CpatchFieldDecomposer	Point patch field decomposer class
►CpointFieldReconstructor	Point field reconstructor
CpointPatchFieldReconstructor	Mapper for sizing only - does not do any actual mapping
CpointFile	Inserts points at locations specified in a pointFile into the surfaces to be conformed to of the conformalVoronoiMesh
CPointHit	This class describes the interaction of a face and a point. It carries the info of a successful hit and (if successful), returns the interaction point
CpointHitSort	Container for sorting intersections
CPointIndexHit	This class describes the interaction of (usually) a face and a point. It carries the info of a successful hit and (if successful), returns the interaction point
CpointLinear	Face-point interpolation scheme class derived from linear and returns linear weighting factors but also applies an explicit correction
CpointMapper	This object provides mapping and fill-in information for point data between the two meshes after the topological change. It is constructed from polyTopoChangeMap
CpointMesh	Mesh representing a set of points created from polyMesh
CpointMeshMapper	Class holds all the necessary information for mapping fields associated with pointMesh
CpointMVCWeight	Container to calculate weights for interpolating directly from vertices of cell using Mean Value Coordinates
CpointPairs	HashSet of unique edges. The edges are stored as a pair of pairs:
CpointPatch	Basic pointPatch represents a set of points from the mesh
CpointPatchDist	Calculation of distance to nearest patch for all points
CpointPatchField	Abstract base class for point-mesh patch fields
CpointPatchFieldMapper	Foam::pointPatchFieldMapper
CpointPatchFieldMapperPatchRef	Foam::pointPatchFieldMapperPatchRef
CpointPatchMapper	Mapping class for a pointPatchField
Cpoints0MotionSolver	Virtual base class for displacement motion solvers
CpointSet	A set of point labels
CpointToCell	A topoSetSource to select cells based on usage of points
CpointToFace	A topoSetSource to select faces based on use of points
CpointTopoDistanceData	For use with PointEdgeWave. Determines topological distance to starting points
CpointToPoint	A topoSetSource to select points based on usage in pointSet
CpointToPointPlanarInterpolation	Interpolates between two sets of unstructured points using 2D Delaunay triangulation. Used in e.g. timeVaryingMapped bcs
CpointZone	A subset of mesh points. The labels of points in the zone can be obtained from the addressing() list
CpointZoneSet	Like pointSet but -reads data from pointZone -updates pointZone when writing
CpolyAddCell	Class containing data for cell addition
CpolyAddFace	A face addition data class. A face can be inflated either from a point or from another face and can either be in internal or a boundary face
CpolyAddPoint	Class containing data for point addition
CpolyBoundaryMesh	Foam::polyBoundaryMesh
CpolyBoundaryMeshEntries	Foam::polyBoundaryMeshEntries
CpolyDistributionMap	Class containing mesh-to-mesh mapping information after a mesh distribution where we send parts of meshes (using subsetting) to other processors and receive and reconstruct mesh
CpolyDualMesh	Creates dual of polyMesh
CpolygonTriangulate	Triangulation of three-dimensional polygons
CpolyLine	A series of straight line segments, which can also be interpreted as a series of control points for splines, etc
CpolyMesh	Mesh consisting of general polyhedral cells
CpolyMeshAdder	Adds two meshes without using any polyMesh morphing
CpolyMeshFilter	Remove the edges and faces of a polyMesh whilst satisfying the given mesh quality criteria
CpolyMeshFilterSettings	Class to store the settings for the polyMeshFilter class
CpolyMeshMap	Class containing mesh-to-mesh mapping information
CpolyMeshModifier	Virtual base class for mesh modifiers
CpolyMeshTetDecomposition	Tools for performing the minimum decomposition of faces of the mesh into triangles so that the cells may be tet decomposed. Includes functions for finding variable face starting (base) points on each face to avoid the decomposition of cells into tets that have negative or zero volume
CpolyMeshTools
CpolyModifyCell	Class describing modification of a cell
CpolyModifyFace	Class describing modification of a face
CpolyModifyPoint	Class describing modification of a point
CPolynomial	Polynomial templated on size (order):
CpolynomialSolidTransport	Transport package using polynomial functions for solid `kappa`
CpolynomialTransport	Transport package using polynomial functions of temperature for the dynamic viscosity and thermal conductivity:
CpolyPatch	A patch is a list of labels that address the faces in the global face list
CpolyRemoveCell	Class containing data for cell removal
CpolyRemoveFace	Class containing data for face removal
CpolyRemovePoint	Class containing data for point removal
CpolyTopoChange	Direct mesh changes based on v1.3 polyTopoChange syntax
CpolyTopoChangeMap	Class containing mesh-to-mesh mapping information after a change in polyMesh topology
CpolyTopoChanger	List of mesh modifiers defining the mesh dynamics
CPopulationBalancePhaseSystem	Class which provides population balance functionality. Stores the mass transfer rates resulting from coalescence, breakup or drift across representative phases that collectively define a dispersed phase
►CporosityModel	Top level model for porosity models
CiNew	Return pointer to new porosityModel object created on the freestore
CporosityModelList	List container for porosity models
CporousBafflePressureFvPatchField	This boundary condition provides a jump condition, using the `cyclic` condition as a base
Cpotential
CpowerSeriesReactionRate	Power series reaction rate
CpowProduct
CprefixOSstream	Version of OSstream which prints a prefix on each line
CpressureDirectedInletOutletVelocityFvPatchVectorField	This velocity inlet/outlet boundary condition is applied to pressure boundaries where the pressure is specified. A zero-gradient condition is applied for outflow (as defined by the flux); for inflow, the velocity is obtained from the flux with the specified inlet direction
CpressureDirectedInletVelocityFvPatchVectorField	This velocity inlet boundary condition is applied to patches where the pressure is specified. The inflow velocity is obtained from the flux with the specified inlet direction" direction
CpressureFvPatchScalarField	Static pressure boundary condition
CPressureGradientForce	Calculates particle pressure gradient force
CpressureInletOutletParSlipVelocityFvPatchVectorField	This velocity inlet/outlet boundary condition for pressure boundary where the pressure is specified. A zero-gradient is applied for outflow (as defined by the flux); for inflow, the velocity is obtained from the flux with the specified inlet direction
CpressureInletOutletVelocityFvPatchVectorField	Velocity inlet/outlet boundary condition for patches where the pressure is specified in some manner, e.g. fixedValue, totalPressure, entrainmentPressure etc
CpressureInletUniformVelocityFvPatchVectorField	This velocity inlet boundary condition is applied to patches where the pressure is specified. The uniform inflow velocity is obtained by averaging the flux over the patch, and then applying it in the direction normal to the patch faces
CpressureInletVelocityFvPatchVectorField	This velocity inlet boundary condition is applied to patches where the pressure is specified. The inflow velocity is obtained from the flux with a direction normal to the patch faces
CpressureNormalInletOutletVelocityFvPatchVectorField	This velocity inlet/outlet boundary condition is applied to patches where the pressure is specified. A zero-gradient condition is applied for outflow (as defined by the flux); for inflow, the velocity is obtained from the flux with a direction normal to the patch faces
CpressureReference	Provides controls for the pressure reference in closed-volume simulations
CPrghPressureFvPatchScalarField	This boundary condition provides the p_rgh equivalent of a pressure boundary condition calculated as:
CprghTotalHydrostaticPressureFvPatchScalarField	This boundary condition provides static pressure condition for p_rgh, calculated as:
CprimitiveEntry	A keyword and a list of tokens is a 'primitiveEntry'. An primitiveEntry can be read, written and printed, and the types and values of its tokens analysed
CprimitiveMesh	Cell-face mesh analysis engine
CprimitiveMeshTools
CPrimitiveOldTimePatch
CPrimitivePatch	A list of faces which address into the list of points
CPrimitivePatchInterpolation	Interpolation class within a primitive patch. Allows interpolation from points to faces and vice versa
CPrintTable	Print a table in parallel, e.g.;
CprismMatcher	A cellMatcher for prism cells
►Cprobes	Set of locations to sample
CfieldGroup	Class used for grouping field types
CprocessorCyclicFvPatch	Processor patch
CprocessorCyclicFvPatchField	This boundary condition enables processor communication across cyclic patches
CprocessorCyclicFvsPatchField	Foam::processorCyclicFvsPatchField
CprocessorCyclicGAMGInterface	GAMG agglomerated processor interface
CprocessorCyclicGAMGInterfaceField	GAMG agglomerated processor interface field
CprocessorCyclicPointPatch	Processor patch boundary needs to be such that the ordering of points in the patch is the same on both sides
CprocessorCyclicPointPatchField	Foam::processorCyclicPointPatchField
CprocessorCyclicPolyPatch	Neighbour processor patch
CprocessorFvPatch	Processor patch
CprocessorFvPatchField	This boundary condition enables processor communication across patches
CprocessorFvsPatchField	Foam::processorFvsPatchField
CprocessorGAMGInterface	GAMG agglomerated processor interface
CprocessorGAMGInterfaceField	GAMG agglomerated processor interface field
CprocessorLduInterface	An abstract base class for processor coupled interfaces
CprocessorLduInterfaceField	Abstract base class for processor coupled interfaces
CprocessorPointPatch	Processor patch boundary needs to be such that the ordering of points in the patch is the same on both sides
CprocessorPointPatchField	Foam::processorPointPatchField
CprocessorPolyPatch	Neighbour processor patch
CprocessorRunTimes
CprocessorTopology
CProcessorTopology	Determines processor-processor connection. After instantiation contains on all processors the processor-processor connection table
CprocFacesGAMGProcAgglomeration	Processor agglomeration of GAMGAgglomerations. Needs nAgglomeratingCells which is when to start agglomerating processors. Processors get agglomerated by constructing a single cell mesh for each processor with each processor interface a face. This then gets agglomerated using the pairGAMGAgglomeration algorithm with the number of faces on the original processor interface as face weight
CprocLduInterface	IO interface for processorLduInterface
CprocLduMatrix	I/O for lduMatrix and interface values
CprocLess	Less operator for pairs of <processor><index>
CprofileModel	Base class for profile models
CprofileModelList	List of profile models
CprojectCurveEdge	Defines the edge from the projection onto a surface (single surface) or intersection of two surfaces
CprojectEdge	Defines the edge from the projection onto a surface (single surface) or intersection of two surfaces
CproxySurfaceWriter	A surfaceWriter that writes the geometry via the MeshedSurfaceProxy, but which does not support any fields
►CpsiReactionThermo	Base-class for multi-component fluid thermodynamic properties based on compressibility
Ccomposite
Cimplementation
►CpsiThermo	Base-class for fluid thermodynamic properties based on compressibility
Ccomposite
Cimplementation
►CpsiuReactionThermo	Base-class for combustion fluid thermodynamic properties based on compressibility
Ccomposite
Cimplementation
CPstream	Inter-processor communications stream
CPstreamBuffers	Buffers for inter-processor communications streams (UOPstream, UIPstream)
CpTraits	Traits class for primitives
CpTraits< bool >
CpTraits< edge >	Template specialisation for pTraits<edge> so we can use syncTools
CpTraits< face >
CpTraits< Field< T > >
CpTraits< int32_t >	Template specialisation for pTraits<int32_t>
CpTraits< int64_t >	Template specialisation for pTraits<int64_t>
CpTraits< labelList >	Template specialisation for pTraits<labelList> so we can have fields
CpTraits< List< T > >
CpTraits< Scalar >
CpTraits< uint32_t >	Template specialisation for pTraits<uint32_t>
CpTraits< uint64_t >	Template specialisation for pTraits<uint64_t>
CpTraits< UList< T > >
CpTraits< vectorList >	Template specialisation for pTraits<labelList> so we can have fields
CPtrDictionary	Template dictionary class which manages the storage associated with it
CPtrList	A templated 1D list of pointers to objects of type <T>, where the size of the array is known and used for subscript bounds checking, etc
CPtrListDictionary	Template dictionary class which manages the storage associated with it
CPtrMap	A HashTable of pointers to objects of type <T> with a label key
CptscotchDecomp	PTScotch domain decomposition. For the main details about how to define the strategies, see scotchDecomp
CpureMixture	Foam::pureMixture
CPurePhaseModel	Class which represents pure phases, i.e. without any species. Returns an empty list of mass fractions
CpureUpwindCFCCellToFaceStencilObject
CPureUpwindFitScheme	Upwind biased fit surface interpolation scheme that applies an explicit correction to upwind
Cpyramid	A geometric pyramid primitive with a base of 'n' sides: i.e. a parametric pyramid. A pyramid is constructed from a base polygon and an apex point
CpyrMatcher	A cellMatcher for pyr cells
CQRMatrix	Class templated on matrix type to perform the QR decomposition using Householder reflections on a square or rectangular matrix
CquadraticDiffusivity	Mesh motion diffusivity maipulator which returns the sqr of the given diffusivity
►CquadraticEqn	Quadratic equation of the form ax^2 + bx + c = 0
Ccoefficient	Coefficient indexing enumeration
CquadraticFitPolynomial	Quadratic polynomial for centred interpolation fitting
CquadraticLinearFitPolynomial	Quadratic/linear polynomial for interpolation fitting: quadratic normal to the face, linear in the plane of the face for consistency with 2nd-order Gauss
CquadraticLinearUpwindFitPolynomial	Quadratic polynomial for upwind biased interpolation fitting
CquadraticUpwindFitPolynomial	Quadratic polynomial for upwind biased interpolation fitting
Cquaternion	Quaternion class used to perform rotations in 3D space
CQUICKLimiter	Class with limiter function which returns the limiter for the quadratic-upwind interpolation scheme
CQUICKVLimiter	Class with limiter function which returns the limiter for the quadratic-upwind interpolation scheme
CradiationCoupledBase	Common functions to emissivity. It gets supplied from lookup into a dictionary or calculated by the solidThermo:
CradiationModel	Top level model for radiation modelling
CrampHoldFall	Piecewise linear function with a ramp from a start value to a plateaux value, holding at this, then a linear fall to an end value
CRandom	Random number generator
CrandomRenumber	Random renumber. Just to see effect of renumbering
CRanzMarshall	The Ranz-Marshall correlation for heat transfer
CRASModel	Templated abstract base class for RAS turbulence models
CRASThermophysicalTransportModel	Templated abstract base class for RAS thermophysical transport models
CrawGraph	A raw xy graph output
CrawSetWriter	Write set in raw tabulated format
CrawSurfaceWriter	A surfaceWriter for raw output
CrayShooting
CreactingCloud	Cloud class to introduce reacting parcels
CReactingCloud	Templated base class for reacting cloud
CReactingLookupTableInjection	Particle injection sources read from look-up table. Each row corresponds to an injection site
CReactingMultiphaseCloud	Templated base class for multiphase reacting cloud
CreactingMultiphaseCloud	Cloud class to introduce multi-phase reacting parcels
CReactingMultiphaseLookupTableInjection	Particle injection sources read from look-up table. Each row corresponds to an injection site
CreactingMultiphaseParcel	Definition of reacting parcel
►CReactingMultiphaseParcel	Multiphase variant of the reacting parcel class with one/two-way coupling with the continuous phase
CconstantProperties	Class to hold reacting multiphase particle constant properties
CiNew	Factory class to read-construct particles used for
CreactingMultiphaseParcelInjectionData	Container class to provide injection data for reacting multiphase parcels
CreactingMultiphaseParcelInjectionDataIOList
CreactingParcel	Definition of reacting parcel
►CReactingParcel	Reacting parcel class with one/two-way coupling with the continuous phase
CconstantProperties	Class to hold reacting parcel constant properties
CiNew	Factory class to read-construct particles used for
CreactingParcelInjectionData	Container class to provide injection data for reacting parcels
CreactingParcelInjectionDataIOList
CReactingPhaseModel	Class which represents phases with volumetric reactions. Returns the reaction rate and heat
Creaction	Reaction base-class holding the specie names and coefficients
CReaction	Simple extension of ReactionThermo to handle reaction kinetics in addition to the equilibrium thermodynamics already handled
CReactionList	List of templated reactions
CReactionProxy	Proxy version of Reaction which provides dummy implementations of the abstract virtual functions
CreactionRateFlameArea	Abstract class for reaction rate per flame area unit
CRebound	Simple rebound patch interaction model
CRectangularMatrix	A templated 2D rectangular m x n matrix of objects of <Type>
CreducedUnits
CreduceFileStates	Reduction operator for PackedList of fileState
CrefCount	Reference counter for various OpenFOAM components
CreferredWallFace	Storage for referred wall faces. Stores patch index, face and associated points
CrefineCell	Container with cells to refine. Refinement given as single direction
CrefinementData	Transfers refinement levels such that slow transition between levels is maintained. Used in FaceCellWave
CrefinementDistanceData	Transfers refinement levels such that slow transition between levels is maintained. Used in FaceCellWave
CrefinementFeatures	Encapsulates queries for features
►CrefinementHistory	All refinement history. Used in unrefinement
CsplitCell8
CrefinementHistoryConstraint	Constraint to keep all cells originating from refining the same cell onto the same processor. Reads polyMesh/refinementHistory
CrefinementIterator	Utility class to do iterating meshCutter until all requests satisfied
►CrefinementParameters	Simple container to keep together refinement specific information
CcellSelectionPoints	Class to hold the points to select cells inside and outside
CrefinementRegions	Encapsulates queries for volume refinement ('refine all cells within shell')
CrefinementSurfaces	Container for data on surfaces used for surface-driven refinement. Contains all the data about the level of refinement needed per surface
CregExp	Wrapper around POSIX extended regular expressions
CregionProperties	Simple class to hold region information for coupled region simulations
CregionSide	Determines the 'side' for every face and connected to a singly-connected (through edges) region of faces. Gets set of faces and a list of mesh edges ('fenceEdges') which should not be crossed. Used in splitting a mesh region
CregionSplit	This class separates the mesh into distinct unconnected regions, each of which is then given a label according to globalNumbering()
CregionToCell	TopoSetSource. Select cells belonging to topological connected region (that contains given points)
CregionToFace	A topoSetSource to select faces belonging to topological connected region (that contains given point)
CregIOobject	RegIOobject is an abstract class derived from IOobject to handle automatic object registration with the objectRegistry
CReitzDiwakar	Secondary breakup model
CReitzKHRT	Secondary breakup model which uses the Kelvin-Helmholtz instability theory to predict the 'stripped' droplets... and the Raleigh-Taylor instability as well
CRelativeVelocity	Function object which generates a lagrangian field containing the velocity of each particle relative to the velocity of the surrounding fluid
CrelativeVelocityModel
CrelaxationModel	Abstract base class for providing relaxation values to the cell motion controller
CremoveCells	Given list of cells to remove insert all the topology changes
CremoveFaces	Given list of faces to remove insert all the topology changes. Contains helper function to get consistent set of faces to remove
CremovePoints	Removes selected points from mesh and updates faces using these points
CrenumberMethod	Abstract base class for renumbering
CrepatchMesh	Addressing for all faces on surface of mesh. Can either be read from polyMesh or from triSurface. Used for repatching existing meshes
CrepatchPatch	Like polyPatch but without reference to mesh. patchIdentifier::index is not used. Used in repatchMesh to hold data on patches
CrepatchPolyTopoChanger	A mesh which allows changes in the patch distribution of the boundary faces. The change in patching is set using changePatchID. For a boundary face, a new patch ID is given
CResiduals	MeshObject to store the solver performance residuals of all the fields of the type it is instantiated on
CreuseTmp
CreuseTmp< TypeR, TypeR >
CreuseTmpDimensionedField
CreuseTmpDimensionedField< TypeR, TypeR, GeoMesh >
CreuseTmpFieldField
CreuseTmpFieldField< Field, TypeR, TypeR >
CreuseTmpGeometricField
CreuseTmpGeometricField< TypeR, TypeR, PatchField, GeoMesh >
CreuseTmpTmp
CreuseTmpTmp< TypeR, Type1, Type12, TypeR >
CreuseTmpTmp< TypeR, TypeR, TypeR, Type2 >
CreuseTmpTmp< TypeR, TypeR, TypeR, TypeR >
CreuseTmpTmpDimensionedField
CreuseTmpTmpDimensionedField< TypeR, Type1, TypeR, GeoMesh >
CreuseTmpTmpDimensionedField< TypeR, TypeR, Type2, GeoMesh >
CreuseTmpTmpDimensionedField< TypeR, TypeR, TypeR, GeoMesh >
CreuseTmpTmpFieldField
CreuseTmpTmpFieldField< Field, TypeR, Type1, TypeR >
CreuseTmpTmpFieldField< Field, TypeR, TypeR, Type2 >
CreuseTmpTmpFieldField< Field, TypeR, TypeR, TypeR >
CreuseTmpTmpGeometricField
CreuseTmpTmpGeometricField< TypeR, Type1, TypeR, PatchField, GeoMesh >
CreuseTmpTmpGeometricField< TypeR, TypeR, Type2, PatchField, GeoMesh >
CreuseTmpTmpGeometricField< TypeR, TypeR, TypeR, PatchField, GeoMesh >
CreverseLinear	Inversed weight centred interpolation interpolation scheme class
CReversibleReaction	Simple extension of Reaction to handle reversible reactions using equilibrium thermodynamics
CReynoldsStress	Reynolds-stress turbulence model base class
CrhoConst	Constant density equations of state
►CrhoReactionThermo	Base-class for multi-component fluid thermodynamic properties based on density
Ccomposite
Cimplementation
CrhoTabulated	Incompressible of equation of state using uniform tabulated density vs pressure and temperature
►CrhoThermo	Base-class for fluid thermodynamic properties based on density
Ccomposite
Cimplementation
CrigidBodyMeshMotion	Rigid-body mesh motion solver for fvMesh
CrigidBodyMeshMotionSolver	Rigid-body mesh motion solver for fvMesh
CRKCK45	4/5th Order Cash-Karp Runge-Kutta ODE solver
CRKDP45	4/5th Order Dormand–Prince Runge-Kutta ODE solver
CRKF45	4/5th Order Runge-Kutta-Fehlberg ODE solver
Crodas23	L-stable, stiffly-accurate embedded Rosenbrock ODE solver of order (2)3
Crodas34	L-stable, stiffly-accurate embedded Rosenbrock ODE solver of order (3)4
CRoots	Templated storage for the roots of polynomial equations, plus flags to indicate the nature of the roots
CRosenbrock12	L-stable embedded Rosenbrock ODE solver of order (1)2
CRosenbrock23	L-stable embedded Rosenbrock ODE solver of order (2)3
CRosenbrock34	L-stable embedded Rosenbrock ODE solver of order (3)4
CrotatedBoxToCell	A topoSetSource to select cells based on cell centres inside a rotated and/or skewed box
CrotatedBoxToFace	A topoSetSource to select faces based on cell centres inside a rotated and/or skewed box
CrotatingPressureInletOutletVelocityFvPatchVectorField	This velocity inlet/outlet boundary condition is applied to patches in a rotating frame where the pressure is specified. A zero-gradient is applied for outflow (as defined by the flux); for inflow, the velocity is obtained from the flux with a direction normal to the patch faces
CrotatingTotalPressureFvPatchScalarField	This boundary condition provides a total pressure condition for patches in a rotating frame
CrotatingWallVelocityFvPatchVectorField	Condition on velocity for a boundary consisting of a rotating solid of revolution, e.g. cylinder. Calculates a tangential component of velocity from the angular velocity and rotational axis and ensures a zero normal component
CRowVector	Templated 3D row-vector derived from MatrixSpace adding construction from 3 components and element access using x(), y() and z()
CrPolynomial	Reciprocal polynomial equation of state for liquids and solids
CSaffmanMeiLiftForce	Saffman-Mei particle lift force model applicable to spherical particles
CsammMesh	A messy mesh class which supports the possibility of creating a shapeMesh for regular Samm meshes (no arbitrary interfaces or collapsed SAMM cells). If any of these special features exist, the mesh is created as polyMesh
►CsampledSet	Holds list of sampling points which is filled at construction time. Various implementations of this base class to e.g. get sampling points at uniform distance along a line (lineUniformSet) or directly specified (pointsSet)
CiNew	Class used for the read-construction of
CsampledSetCloud	A Cloud of sampledSet particles
►CsampledSetParticle	Particle for generating line-type sampled sets
CiNew	Factory class to read-construct particles used for parallel transfer
CtrackingData	Tracking data class
CsampledSets	Set of sets to sample. Call sampledSets.write() to sample&write files
►CsampledSurface	An abstract class for surfaces with sampling
CiNew	Class used for the PtrLists read-construction
CsaturationModel	Model to describe the dependence of saturation pressure on temperature, and vice versa
CscalarMatrices	Scalar matrices
CscalarProduct
CscalarRange	A scalar range specifier
CscalarRanges	A List of scalarRange
CScaledForce	Particle force model scaled by a constant value
CSchillerNaumannDragForce	Schiller-Naumann drag model for spheres
CscotchDecomp	Scotch domain decomposition. When run in parallel will collect the whole graph on to the master, decompose and send back. Use ptscotchDecomp for proper distributed decomposition
CsearchableBox	Surface geometry with a rectangular box shape, aligned with the coordinate axes, which can be used with snappyHexMesh
CsearchableBoxFeatures
CsearchableCylinder	Surface geometry with a cylinder shape, which can be used with snappyHexMesh
CsearchableDisk	Surface geometry with a circular disk shape, which can be used with snappyHexMesh
CsearchableExtrudedCircle	Surface geometry with a tube shape, which can be used with snappyHexMesh. The geometry is formed from a line geometry, described by the edgeMesh (.eMesh) file format, to which a radius is applied to form a tube
CsearchablePlane	Surface geometry of an infinite plane, which can be used with snappyHexMesh
CsearchablePlate	Surface geometry of a finite plane, aligned with the coordinate axes, which can be used with snappyHexMesh
CsearchablePlateFeatures
CsearchableSphere	Surface geometry with a sphere shape, which can be used with snappyHexMesh
►CsearchableSurface	Base class of (analytical or triangulated) surface. Encapsulates all the search routines. WIP
CiNew	Class used for the read-construction of
CsearchableSurfaceCollection	Makes a collection of surface geometries by copying from an existing defined surface geometry. There are no boolean operations, e.g. overlapping surfaces are not intersected
CsearchableSurfaceControl
CsearchableSurfaceFeatures	Decorator that returns the features of a searchable surface
CsearchableSurfaces	Container for searchableSurfaces
CsearchableSurfacesQueries	A collection of tools for searchableSurfaces
CsearchableSurfaceToFaceZone	A topoSetSource to select faces based on intersection (of cell-cell vector) with a surface
CsearchableSurfaceWithGaps	SearchableSurface using multiple slightly shifted underlying surfaces to make sure pierces don't go through gaps:
CsegregatedDisplacedPhaseInterface	Class to represent a interface between phases where the two phases are considered to be segregated, and the pair has been displaced to some extent by a third phase
CsegregatedDisplacedSidedPhaseInterface	Class to represent a certain side of an interface between phases, where one phase is considered segregated within the other, and the pair has been displaced to some extent by a third phase
CsegregatedPhaseInterface	Class to represent a interface between phases where the two phases are considered to be segregated; that is, separated by a geometrically complex interface for which dispersed representations are inappropriate
CsegregatedSidedPhaseInterface	Class to represent a certain side of an interface between phases, where one phase is considered segregated within the other
CsemiPermeableBaffleMassFractionFvPatchScalarField	This is a mass-fraction boundary condition for a semi-permeable baffle
CsensibleEnthalpy	Thermodynamics mapping class to expose the sensible enthalpy functions
CsensibleInternalEnergy	Thermodynamics mapping class to expose the sensible internal energy functions
Csepternion	Septernion class used to perform translations and rotations in 3D space
CseriesProfile	Series-up based profile data - drag and lift coefficients computed as sum of cosine series
CsetAndNormalToFaceZone	A topoSetSource to select faces based on usage in a faceSet, where the normal vector is used to orient the faces
CsetSizeFieldMapper	Field sizing mapper which sets the field size and does not map values
CsetsToFaceZone	A topoSetSource to select faces based on usage in a faceSet and cellSet
CsetToCellZone	A topoSetSource to select cells based on usage in a cellSet
CsetToFaceZone	A topoSetSource to select faces based on usage in a faceSet. Sets flipMap to true
CsetToPointZone	A topoSetSource to select points based on usage in a pointSet
CsetUpdater	Keeps cell/face/vertex sets uptodate. Both the ones loaded and the ones on disk
CsetWriter	Base class for writing coordinate sets with data
Cseulex	An extrapolation-algorithm, based on the linearly implicit Euler method with step size control and order selection
CSFCDLimiter	Class with limiter function which returns the limiter for the SFCD interpolation scheme based on phict obtained from the LimiterFunc class
CSHA1	Functions to compute SHA1 message digest according to the NIST specification FIPS-180-1
CSHA1Digest	The SHA1 message digest
Csha1streambuf
CshapeToCell	A topoSetSource to select cells based on cell shape
CSHF	Secondary Breakup Model to take account of the different breakup regimes, bag, solutionmode, shear...
CshortEdgeFilter2D	This class filters short edges generated by the CV2D mesher
CSIBS	A semi-implicit mid-point solver for stiff systems of ordinary differential equations
CsidedBlendedDiffusiveMassTransferModel
CsidedBlendedHeatTransferModel
CsidedInterfaceCompositionModel
CSidedInterfacialModel
CsidedPhaseInterface	Class to represent a certain side of an interface between phases
CsigFpe	Set up trapping for floating point exceptions (signal FPE)
CsigInt	Signal handler for INT interrupt
CsigQuit	Signal handler for QUIT interrupt
CsigSegv	Signal handler for SEGV interrupt
CsigStopAtWriteNow	Signal handler for interrupt defined by OptimisationSwitches::stopAtWriteNowSignal
CsigWriteNow	Signal handler for interrupt defined by OptimisationSwitches::writeNowSignal
CsimpleControl	Simple control class. Provides time-loop control methods which exit the simulation once convergence criteria have been reached. Example usage:
CsimpleFilter	Simple top-hat filter used in dynamic LES models
CsimpleGeomDecomp
CsimpleMatrix	A simple square matrix solver with scalar coefficients
►CsingleCellFvMesh	FvMesh as subset of other mesh. Consists of one cell and all original boundary faces. Useful when manipulating boundary data. Single internal cell only needed to be able to manipulate in a standard way
CagglomPatchFieldMapper	Patch field mapper class for agglomerated meshes
CsingleComponentMixture	Single component mixture
CSingleKineticRateDevolatilisation	Single kinetic rate devolatisation model
CSingleMixtureFraction	Templated parcel multi-phase, multi-component class
CSinglePhaseMixture	Templated parcel single phase, multi-component class
CsingleRegionConvergenceControl	Single-region-specific derivation of the convergence control class
CsingleRegionCorrectorConvergenceControl	Single-region-specific derivation of the corrector convergence control class
CsingleRegionSolutionControl	Single-region-specific derivation of the solution control class
CsixDoFRigidBodyMotion	Six degree of freedom motion for a rigid body
CsixDoFRigidBodyMotionConstraint	Base class for defining constraints for sixDoF motions
CsixDoFRigidBodyMotionRestraint	Base class for defining restraints for sixDoF motions
CsixDoFRigidBodyMotionSolver	6-DoF solid-body mesh motion solver for an fvMesh
CsixDoFRigidBodyMotionState	Holds the motion state of sixDoF object. Wrapped up together to allow rapid scatter to other processors. The processors must all maintain exactly the same state data to avoid any drift or inconsistency
CsixDoFSolver
CskewCorrected	Skewness-corrected interpolation scheme that applies an explicit correction to given scheme
CskewCorrectionVectors	Skew-correction vectors for the skewness-corrected interpolation scheme
CSlicedDimensionedField	Specialisation of DimensionedField which holds a slice of a given complete field in such a form that it acts as a DimensionedField
CslicedFvPatchField	Specialisation of fvPatchField which creates the underlying fvPatchField as a slice of the given complete field
CslicedFvsPatchField	Specialisation of fvsPatchField which creates the underlying fvsPatchField as a slice of the given complete field
CSlicedGeometricField	Specialisation of GeometricField which holds slices of given complete fields in a form that they act as a GeometricField
CslidingInterface	Sliding interface mesh modifier. Given two face zones, couple the master and slave side using a cutting procedure
CslipFvPatchField	This boundary condition provides a slip constraint
CslipPointPatchField	Foam::slipPointPatchField
►CSLListBase	Base singly-linked list
Cconst_iterator	An STL-conforming const_iterator
Citerator	An STL-conforming iterator
Clink	Link structure
CSloanRenumber	Sloan renumbering algorithm
CSmanip
CsmoluchowskiJumpTFvPatchScalarField	Smoluchowski temperature jump boundary condition
CsmoothAlignmentSolver
►CsmoothData	Helper class used by the fvc::smooth and fvc::spread functions
CtrackData	Class used to pass additional data in
CSmoothSolver	Iterative solver for symmetric and asymmetric matrices which uses a run-time selected smoother e.g. GaussSeidel to converge the solution to the required tolerance. To improve efficiency, the residual is evaluated after every nSweeps smoothing iterations
CsmoothSolver	Iterative solver for symmetric and asymmetric matrices which uses a run-time selected smoother e.g. GaussSeidel to converge the solution to the required tolerance
CsnapParameters	Simple container to keep together snap specific information
CsnappyLayerDriver	All to do with adding layers
CsnappyRefineDriver
CsnappySnapDriver	All to do with snapping to surface
CsolidBodyMotionDisplacementPointPatchVectorField	Enables the specification of a fixed value boundary condition using the solid body motion functions
CsolidBodyMotionFunction	Base class for defining solid-body motions
CsolidBodyMotionSolver	Solid-body motion of the mesh specified by a run-time selectable motion function
CsolidDisplacementThermo	Fundamental solid thermodynamic properties
CsolidMixtureProperties	A mixture of solids
CsolidNoLoopControl	Solid no-loop control class. Implements non-orthogonal and convergence controls, but leaves loop controls to the derivation or owner. Can be derived into a "full" solid control or can be owned by a multi-region class
►CsolidParticle	Simple solid spherical particle class with one-way coupling with the continuous phase
CiNew	Factory class to read-construct particles used for
CtrackingData	Class used to pass tracking data to the trackToFace function
CsolidParticleCloud	A Cloud of solid particles
CsolidProperties	The thermophysical properties of a solid
►CsolidThermo	Base-class for solid thermodynamic properties
Ccomposite
Cimplementation
Csolution	Selector class for relaxation factors, solver type and solution
CsolutionControl	Solution control class
CSolverPerformance	SolverPerformance is the class returned by the LduMatrix solver containing performance statistics
CSortableList	A list that is sorted upon construction or when explicitly requested with the sort() method
►CSortableListDRGEP	A list that is sorted upon construction or when explicitly requested with the sort() method
Cless	Less function class used by the sort function
►CSortableListEFA	A list that is sorted upon construction or when explicitly requested with the sort() method
Cmore	Less function class used by the sort function
CsortLabelledTri	Helper class which when constructed with a triSurface sorts the faces according to region number (or rather constructs a mapping)
CSpatialTensor	Templated 3D spatial tensor derived from MatrixSpace used to represent transformations of spatial vectors and the angular and linear inertia of rigid bodies
►CspatialTransform	Compact representation of the Plücker spatial transformation tensor in terms of the rotation tensor `E` and translation vector `r`
Cdual	Wrapper-class to provide dual functions and operators
Ctranspose	Wrapper-class to provide transpose functions and operators
►CSpatialVector	Templated 3D spatial vector derived from VectorSpace used to represent the anglular and linear components of position, velocity and acceleration of rigid bodies
Cdual	Class to represent the dual spatial vector
Cspecie	Base class of the thermophysical property types
CspecieCoeffs	Class to hold the specie index and its coefficients in the reaction rate expression
CspecieElement
CspecieExponent
CSpecieMixture	Foam::SpecieMixture
CspecieTransferMassFractionFvPatchScalarField	Abstract base class for specie-transferring mass fraction boundary conditions
CspecieTransferTemperatureFvPatchScalarField	This is a temperature boundary condition for a specie-transferring wall
CspecieTransferVelocityFvPatchVectorField	This is a velocity boundary condition for a specie-transferring wall
CSpecularReflection	Reversing the wall-normal component of the particle velocity
CSphereDragForce	Drag model for spheres
CsphereToCell	A topoSetSource to select cells based on cell centres inside sphere
CSphericalTensor	Templated 3D SphericalTensor derived from VectorSpace adding construction from 1 component, element access using th ii() member function and the inner-product (dot-product) and outer-product operators
CSphericalTensor2D	Templated 2D sphericalTensor derived from VectorSpace adding construction from 1 component, element access using ii() member function and the inner-product (dot-product) and outer-product operators
CsplineInterpolationWeights	Catmull-Rom spline interpolation
CsplitCell	Description of cell after splitting. Contains cellLabel and pointers to cells it it split in. See directedRefinement
CsprayCloud	Cloud class to introduce reacting spray parcels
CSprayCloud	Templated base class for spray cloud
►CSprayParcel	Reaching spray parcel, with added functionality for atomisation and breakup
CconstantProperties	Class to hold reacting particle constant properties
CiNew	Factory class to read-construct particles used for
CsprayParcel	Definition of spray parcel
CspringRenumber	Use spring analogy - attract neighbouring cells according to the distance of their cell indices
CSquareMatrix	A templated 2D square matrix of objects of <T>, where the n x n matrix dimension is known and used for subscript bounds checking, etc
CSRFForce	Calculates particle SRF reference frame force
CSRFFreestreamVelocityFvPatchVectorField	Freestream velocity condition to be used in conjunction with the single rotating frame (SRF) model (see: SRFModel class)
CSRFVelocityFvPatchVectorField	Velocity condition to be used in conjunction with the single rotating frame (SRF) model (see: SRFModel class)
CSRFWallVelocityFvPatchVectorField	Wall-velocity condition to be used in conjunction with the single rotating frame (SRF) model (see: FOAM::SRFModel)
CSRIFallOffFunction	The SRI fall-off function
CstabiliseOp
CstabiliseOp2
CstabiliseOp3
CStandardWallInteraction	Wall interaction model
CSTARCDCoordinateRotation	A coordinateRotation defined by the STAR-CD convention
CstarMesh	A messy mesh class which supports the possibility of creating a shapeMesh for regular Star meshes (no arbitrary interfaces or collapsed SAMM cells). If any of these special features exist, the mesh is created as polyMesh
CStationaryPhaseModel	Class which represents a stationary (and therefore probably solid) phase. Generates, but does not store, zero velocity and flux field and turbulent quantities. Throws an error when non-const access is requested to the motion fields or when the momentum equation is requested. Usage must must protect against such calls
CSTLpoint	A vertex point representation for STL files
CSTLtriangle	A triangle representation for STL files
CStochasticCollisionModel	Templated stochastic collision model class
CStochasticDispersionRAS	The velocity is perturbed in random direction, with a Gaussian random number distribution with variance sigma. where sigma is defined below
CstreamlinesCloud	A Cloud of streamlines particles
►CstreamlinesParticle	Particle class that samples fields as it passes through. Used in streamlines calculation
CiNew	Factory class to read-construct particles used for parallel transfer
CtrackingData
►Cstring	A class for handling character strings derived from std::string
Chash	Hashing function class, shared by all the derived classes
CstructuredDecomp	Decomposition by walking out decomposition of patch cells mesh
►CstructuredRenumber	Renumbering according to mesh layers. depthFirst = true: first column gets ids 0..nLayer-1, second nLayers..2*nLayers-1 etc. depthFirst = false: first layer gets ids 0,1,2 etc
ClayerLess	Less function class that can be used for sorting according to
CsubCycle	Perform a subCycleTime on a field or list of fields
CsubCycleField
CsubCycleFields
CsubCycleTime	A class for managing sub-cycling times
CSubField	Pre-declare related SubField type
CSubList	A List obtained as a section of another List
CsubModelBase	Base class for generic sub-models requiring to be read from dictionary. Provides a mechanism to read and write properties from a dictionary to enable clean re-starts. Used by, e.g. clou dsub-models
Csubstance
CsumOp
CsumOp2
CsumOp3
CSuperBeeLimiter	Class with limiter function which returns the limiter for the SuperBee interpolation scheme based on r obtained from the LimiterFunc class
CsupersonicFreestreamFvPatchVectorField	This boundary condition provides a supersonic free-stream condition
CSuppressionCollision	Inter-cloud collision model, whereby the `canReact` flag can be used to inhibit devolatilisation and surface reactions
CsurfaceArrheniusReactionRate	A modified Arrhenius reaction rate given by:
CsurfaceCellSizeFunction	Abstract base class for specifying target cell sizes
CsurfaceDisplacementPointPatchVectorField	Displacement fixed by projection onto triSurface. Use in a displacementMotionSolver as a bc on the pointDisplacement field
CsurfaceFeatures	Holds feature edges/points of surface
CSurfaceFilmModel
CsurfaceInterpolation	Cell to surface interpolation scheme. Included in fvMesh
CsurfaceInterpolationScheme	Abstract base class for surface interpolation schemes
CsurfaceIntersection	Basic surface-surface intersection description. Constructed from two surfaces it creates a description of the intersection
CsurfaceLocation	Contains information about location on a triSurface
CsurfaceMesh	Mesh data needed to do the Finite Volume discretisation
CsurfaceMeshWriter	Write faces with fields
CsurfaceNormalFixedValueFvPatchVectorField	Surface-normal fixed value vector boundary condition
CsurfaceNormalUniformFixedValueFvPatchVectorField	Surface-normal fixed value vector boundary condition
CsurfaceOffsetLinearDistance
CsurfacePatch	'Patch' on surface as subset of triSurface
CsurfacePatchIOList	IOobject for a surfacePatchList
CSurfaceReactionModel	Templated surface reaction model class
CsurfaceRegistry	Wraps the normal objectRegistry with a local instance for surfaces
CsurfaceSets	Various utilities to handle sets relating mesh to surface. Note: work in progress. Used in meshing tools
CsurfaceSlipDisplacementFvPatchField	FvPatchField corresponding to surfaceSlipDisplacementPointPatchField. Is just a slip type since all hard work (projection) is done in the pointPatch field
CsurfaceSlipDisplacementPointPatchVectorField	Displacement follows a triSurface. Use in a displacementMotionSolver as a bc on the pointDisplacement field. Following is done by calculating the projection onto the surface according to the projectMode
CsurfaceTensionModel	Abstract base-class for surface tension models which return the surface tension coefficient field
CsurfaceToCell	A topoSetSource to select cells based on relation to surface
CsurfaceToPoint	A topoSetSource to selects points based on relation to surface
CsurfaceWriter	Base class for surface writers
CsurfaceZonesInfo
CsurfAndLabel	Hold surface and label
CsurfFields	Fields for surfMesh
CsurfGeoMesh	The surfMesh GeoMesh (for holding fields)
CsurfMesh	A surface mesh consisting of general polygon faces
CsurfPointFields	Point fields for surfMesh
CsurfPointGeoMesh	The surfMesh GeoMesh (for holding fields)
CsurfZone	A surface zone on a MeshedSurface
CsurfZoneIdentifier	An identifier for a surface zone on a meshed surface
CsurfZoneIOList	IOobject for a surfZoneList
CsutherlandTransport	Transport package using Sutherland's formula for viscosity:
CSVD	Singular value decomposition of a rectangular matrix
CswarmCorrection	Drag model modifier to take into account large fractions (swarms) of the dispersed phase. Often not appropriate as these effects are a fundamental part of the drag model formulation (e.g. Ergun). Use with care
CsweepData	Helper class used by fvc::sweep function
CsweptFaceAreaWeightAMI	Swept face area weighted Arbitrary Mesh Interface (AMI) method
CswirlFlowRateInletVelocityFvPatchVectorField	This boundary condition provides a volumetric- OR mass-flow normal vector boundary condition by its magnitude as an integral over its area with a swirl component determined by the angular speed, given in revolutions per minute (RPM)
CswirlInletVelocityFvPatchVectorField	This boundary condition describes an inlet vector boundary condition in swirl co-ordinates given a central axis, central point, axial, radial and tangential velocity profiles
CSwitch	A simple wrapper around bool so that it can be read as a word: true/false, on/off, yes/no, y/n, t/f, or none/any
CsymGaussSeidelSmoother	A lduMatrix::smoother for symmetric Gauss-Seidel
CSymmetricSquareMatrix	A templated 2D square symmetric matrix of objects of <T>, where the n x n matrix dimension is known and used for subscript bounds checking, etc
CsymmetryFvPatch	Symmetry patch for non-planar or multi-plane patches
CsymmetryFvPatchField	This boundary condition enforces a symmetry constraint
CsymmetryFvsPatchField	Foam::symmetryFvsPatchField
CsymmetryPlaneFvPatch	Symmetry-plane patch
CsymmetryPlaneFvPatchField	This boundary condition enforces a symmetryPlane constraint
CsymmetryPlaneFvsPatchField	Foam::symmetryPlaneFvsPatchField
CsymmetryPlanePointPatch	Symmetry-plane patch
CsymmetryPlanePointPatchField	A symmetry-plane boundary condition for pointField
CsymmetryPlanePolyPatch	Symmetry-plane patch
CsymmetryPointPatch	Symmetry patch for non-planar or multi-plane patches
CsymmetryPointPatchField	A Symmetry boundary condition for pointField
CsymmetryPolyPatch	Symmetry patch for non-planar or multi-plane patches
CSymmTensor	Templated 3D symmetric tensor derived from VectorSpace adding construction from 6 components, element access using xx(), xy() etc. member functions and the inner-product (dot-product) and outer-product of two Vectors (tensor-product) operators
CSymmTensor2D	Templated 2D symmetric tensor derived from VectorSpace adding construction from 4 components, element access using xx(), xy() etc. member functions and the inner-product (dot-product) and outer-product of two Vectors (tensor-product) operators
CsymmTypeOfRank
CsymmTypeOfRank< Cmpt, 0 >
CsymmTypeOfRank< Cmpt, 1 >
CsymmTypeOfRank< Cmpt, 2 >
CsyncTools	Various tools to aid synchronising lists across coupled patches. WIP
CsyringePressureFvPatchScalarField	This boundary condition provides a pressure condition, obtained from a zero-D model of the cylinder of a syringe
CsystemDict	Read and return the specified dictionary from system or from path provided with the -dict option
CTAB	The TAB Method for Numerical Calculation of Spray Droplet Breakup
CtableBase
CTableFileReader	Base class to read table data for tables
CTableReader	Base class to read table data for tables
CtabulatedSolidTransport	Transport properties package using non-uniformly-spaced tabulated data for thermal conductivity vs temperature
CtabulatedTransport	Transport properties package using uniformly-spaced tabulated data for viscosity and thermal conductivity vs pressure and temperature
CtargetCoeffTrim	Target trim forces/coefficients
CtargetVolumeToCell	A topoSetSource to select cells based on the wanted volume of selected cells. Adapts a plane until it has enough
CTDILUPreconditioner	Simplified diagonal-based incomplete LU preconditioner for asymmetric matrices
CtecplotWriter	Write binary tecplot files using tecio
CtemperatureCoupledBase	Common functions used in temperature coupled boundaries
CtemperatureDependentAlphaContactAngleFvPatchScalarField	Temperature-dependent alphaContactAngle scalar boundary condition
CTensor	Templated 3D tensor derived from MatrixSpace adding construction from 9 components, element access using xx(), xy() etc. member functions and the inner-product (dot-product) and outer-product of two Vectors (tensor-product) operators
CTensor2D	Templated 2D tensor derived from VectorSpace adding construction from 4 components, element access using xx(), xy(), yx() and yy() member functions and the iner-product (dot-product) and outer-product of two Vector2Ds (tensor-product) operators
CtetCell	A tetrahedral cell primitive
CtetDecomposer	Decomposes polyMesh into tets
CtetherPotential
CtetherPotentialList
CtetIndices	Storage and named access for the indices of a tet which is part of the decomposition of a cell
CtetMatcher	A cellMatcher for tet cells
CtetOverlapVolume	Calculates the overlap volume of two cells using tetrahedral decomposition
Ctetrahedron	A tetrahedron primitive
CtetWedgeMatcher	A cellMatcher for tetWedge cells
CTGaussSeidelSmoother	Foam::TGaussSeidelSmoother
CThermalPhaseChangePhaseSystem	Class to provide interfacial heat and mass transfer between a number of phases according the interfacial temperature approximated by the saturation temperature
CThermoCloud	Templated base class for thermodynamic cloud
CthermoCloud	Cloud class to introduce thermodynamic parcels
CThermoLookupTableInjection	Particle injection sources read from look-up table. Each row corresponds to an injection site
►CThermoParcel	Thermodynamic parcel class with one/two-way coupling with the continuous phase
CconstantProperties	Class to hold thermo particle constant properties
CiNew	Factory class to read-construct particles used for
CtrackingData
CthermoParcel	Definition of thermo parcel
CthermoParcelInjectionData	Container class to provide injection data for thermodynamic parcels
CthermoParcelInjectionDataIOList
CThermoPhaseModel	Class which represents a phase with a thermodynamic model. Provides access to the thermodynamic variables. Note that the thermo model itself is not returned as this class could be substituted in the hierarchy for one which mirrors the functionality, but does not include a thermo model; an incompressible phase model, for example
CthermophysicalProperties	Base-class for thermophysical properties of solids, liquids and gases providing an interface compatible with the templated thermodynamics packages
CthermophysicalPropertiesSelector	Wrapper class providing run-time selection of thermophysicalProperties for the templated thermodynamics packages
CThermophysicalTransportModel	Templated abstract base class for thermophysical transport models
CthermophysicalTransportModel	Abstract base class for thermophysical transport models (RAS, LES and laminar)
CThermoSurfaceFilm	Thermo parcel surface film model
CthirdBodyArrheniusReactionRate	Arrhenius reaction rate enhanced by third-body interaction
CthirdBodyEfficiencies	Third body efficiencies
CthreadedCollatedOFstream	Master-only drop-in replacement for OFstream
CthreePhaseInterfaceProperties	Properties to aid interFoam : 1. Correct the alpha boundary condition for dynamic contact angle. 2. Calculate interface curvature
CthresholdCellFaces	Selects the mesh cell faces specified by a threshold value. Non-triangulated by default
CTime	Class to control time during OpenFOAM simulations that is also the top-level objectRegistry
CtimeControl	General time dependent execution controller. The default to execute every time-step
CTimeFunction1	Light wrapper around Function1 to provide a mechanism to update time-based entries
CtimeIOdictionary	TimeIOdictionary derived from IOdictionary with globalFile set false to enable writing to processor time directories
CTimePaths	A class for addressing time paths without using the Time class
Ctimer	Implements a timeout mechanism via sigalarm
CTimeScaleModel	Base class for time scale models
CtimeSelector	A List of scalarRange for selecting times
CTimeState	The time value with time-stepping information, user-defined remapping, etc
CtimeVaryingAlphaContactAngleFvPatchScalarField	A time-varying alphaContactAngle scalar boundary condition (alphaContactAngleFvPatchScalarField)
CtimeVaryingMapped
CtimeVaryingMappedFixedValueFvPatchField	This boundary conditions interpolates the values from a set of supplied points in space and time
CtimeVaryingMappedFixedValuePointPatchField	A time-varying form of a mapped fixed value boundary condition
CtimeVaryingMappedFvPatchField	Patch field mapper which interpolates the values from a set of supplied points in space and time
Ctmp	A class for managing temporary objects
►CtmpNrc	A class for managing temporary objects without reference counting
CrefCount
►Ctoken	A token holds items read from Istream
Ccompound	Abstract base class for complex tokens
CCompound	A templated class for holding compound tokens
Ctolerances	Selector class for solution tolerances
CTomiyamaLiftForce	Tomiyama particle lift force model applicable to deformable bubbles
CtopoAction	A virtual base class for topological actions
CtopoCellLooper	Implementation of cellLooper. This one recognises splitHexes and tries to make a cut such that if the neighbour was split (in a previous iteration) this one also gets split in the same direction so that the result will be a mesh without splitHexes
CtopoDistanceData	For use with FaceCellWave. Determines topological distance to starting faces
CTopologicalMeshObject
CtopoSet	General set of labels of mesh quantity (points, cells, faces)
►CtopoSetSource	Base class of a source for a topoSet
CiNew	Class used for the read-construction of
CtotalFlowRateAdvectiveDiffusiveFvPatchScalarField	This BC is used for species inlets. The diffusion and advection fluxes are considered to calculate the inlet value for the species The massFluxFraction sets the fraction of the flux of each particular species
CtotalPressureFvPatchScalarField	Inflow, outflow and entrainment pressure boundary condition based on a constant total pressure assumption
CtotalTemperatureFvPatchScalarField	This boundary condition provides a total temperature condition
►CtrackedParticle	Particle class that marks cells it passes through. Used to mark cells visited by feature edges
CiNew	Factory class to read-construct particles used for
CtrackingData	Class used to pass tracking data to the trackToFace function
CtractionDisplacementCorrectionFvPatchVectorField
CtractionDisplacementFvPatchVectorField	Fixed traction boundary condition for the standard linear elastic, fixed coefficient displacement equation
CTrajectoryCollision	Trajectory collision model by N. Nordin, based on O'Rourke's collision model
Ctransformer	Vector-tensor class used to perform translations, rotations and scaling operations in 3D space
CtransformFvPatchField	Foam::transformFvPatchField
CtransformOp	Transform operation
CtranslatingWallVelocityFvPatchVectorField	This boundary condition provides a velocity condition for translational motion on walls
CtransonicEntrainmentPressureFvPatchScalarField	This boundary condition provides an entrainment condition for pressure including support for supersonic jets exiting the domain
CTrapezoid	Trapezoidal ODE solver of order (1)2
►CtreeBoundBox	Standard boundBox + extra functionality for use in octree
CedgeId	Edges codes
CfaceBit	Bits used for face coding
CfaceId	Face codes
CoctantBit	Bits used for octant/point coding
►CtreeDataCell	Encapsulation of data needed to search in/for cells. Used to find the cell containing a point (e.g. cell-cell mapping)
CfindIntersectOp
CfindNearestOp
►CtreeDataEdge	Holds data for octree to work on an edges subset
CfindIntersectOp
CfindNearestOp
►CtreeDataFace	Encapsulation of data needed to search for faces
CfindIntersectOp
CfindNearestOp
►CtreeDataPoint	Holds (reference to) pointField. Encapsulation of data needed for octree searches. Used for searching for nearest point. No bounding boxes around points. Only overlaps and calcNearest are implemented, rest makes little sense
CfindIntersectOp
CfindNearestOp
►CtreeDataPrimitivePatch	Encapsulation of data needed to search on PrimitivePatches
CfindAllIntersectOp
CfindIntersectOp
CfindNearestOp
CfindSelfIntersectOp
CtreeDataTriSurface	Encapsulates data for (indexedOc)tree searches on a triSurface
Ctriad	Representation of a 3D Cartesian coordinate system as a Vector of vectors
Ctriangle	A triangle primitive used to calculate face areas and swept volumes
CtriangleFuncs	Various triangle functions
CtriFace	A triangular face using a FixedList of labels corresponding to mesh vertices
CtrimModel	Trim model base class
CtriSurface	Triangulated surface description with patch information
CtriSurfaceGeoMesh	The triSurface GeoMesh (for holding fields)
CtriSurfaceMesh	A surface geometry formed of discrete facets, e.g. triangles and/or quadrilaterals, defined in a file using formats such as Wavefront OBJ, or stereolithography STL
CtriSurfaceMeshFeatures
CtriSurfacePointGeoMesh	The triSurface point GeoMesh (for holding vertex fields)
CtriSurfaceRegionSearch	Helper class to search on triSurface. Creates an octree for each region of the surface and only searches on the specified regions
CtriSurfaceSearch	Helper class to search on triSurface
CtriSurfaceTools	A collection of tools for triSurface
CTroeFallOffFunction	The Troe fall-off function
►CTuple2	A 2-tuple for storing two objects of different types
CHash	Hashing function class
CturbGen	Generate a turbulent velocity field conforming to a given energy spectrum and being divergence free
CturbulentDispersionModel	Model for turbulent dispersion between two phases
CturbulentInletFvPatchField	This boundary condition generates a fluctuating inlet condition by adding a random component to a reference (mean) field
CturbulentIntensityKineticEnergyInletFvPatchScalarField	This boundary condition provides a turbulent kinetic energy condition, based on user-supplied turbulence intensity, defined as a fraction of the mean velocity:
CturbulentMixingLengthDissipationRateInletFvPatchScalarField	This boundary condition provides a turbulence dissipation, $\epsilon$ (epsilon) inlet condition based on a specified mixing length. The patch values are calculated using:
CturbulentMixingLengthFrequencyInletFvPatchScalarField	This boundary condition provides a turbulence specific dissipation, $\omega$ (omega) inlet condition based on a specified mixing length. The patch values are calculated using:
CtwoDPointCorrector	Class applies a two-dimensional correction to mesh motion point field
CtwoPhaseChangeModel
CtwoPhaseMixture	A two-phase mixture model
CTwoResistanceHeatTransferPhaseSystem	Class which models interfacial heat transfer between a number of phases. Two heat transfer models are stored at each interface, one for each phase. This permits definition of an interface temperature with which heat transfer occurs. It also allows derived systems to define other thermodynamic properties at the interface and therefore represent phase changes
CtwoResistanceHeatTransferPhaseSystem
CtypeIOobject	Templated form of IOobject providing type information for file reading and header type checking
CtypeOfInnerProduct	Abstract template class to provide the form resulting from
CtypeOfInnerProduct< Cmpt, CompactSpatialTensor< Cmpt >, CompactSpatialTensorT< Cmpt >>
CtypeOfInnerProduct< Cmpt, CompactSpatialTensor< Cmpt >, Tensor< Cmpt > >
CtypeOfInnerProduct< Cmpt, CompactSpatialTensor< Cmpt >, Vector< Cmpt > >
CtypeOfInnerProduct< Cmpt, CompactSpatialTensorT< Cmpt >, CompactSpatialTensor< Cmpt >>
CtypeOfInnerProduct< Cmpt, CompactSpatialTensorT< Cmpt >, SpatialVector< Cmpt >>
CtypeOfInnerProduct< Cmpt, SpatialTensor< Cmpt >, CompactSpatialTensor< Cmpt > >
CtypeOfInnerProduct< Cmpt, SpatialTensor< Cmpt >, SpatialTensor< Cmpt > >
CtypeOfInnerProduct< Cmpt, SpatialTensor< Cmpt >, SpatialVector< Cmpt > >
CtypeOfInnerProduct< Type, RectangularMatrix< Type >, RectangularMatrix< Type > >
CtypeOfInnerProduct< Type, RectangularMatrix< Type >, SquareMatrix< Type > >
CtypeOfInnerProduct< Type, SquareMatrix< Type >, RectangularMatrix< Type > >
CtypeOfInnerProduct< Type, SquareMatrix< Type >, SquareMatrix< Type > >
CtypeOfOuterProduct	Abstract template class to provide the form resulting from
CtypeOfOuterProduct< Cmpt, SpatialVector< Cmpt >, SpatialVector< Cmpt > >
CtypeOfRank
CtypeOfRank< Cmpt, 0 >
CtypeOfRank< Cmpt, 1 >
CtypeOfRank< Cmpt, 2 >
CtypeOfSum
CtypeOfSum< SphericalTensor2D< Cmpt >, SymmTensor2D< Cmpt > >
CtypeOfSum< SphericalTensor2D< Cmpt >, Tensor2D< Cmpt > >
CtypeOfSum< SphericalTensor< Cmpt >, SymmTensor< Cmpt > >
CtypeOfSum< SphericalTensor< Cmpt >, Tensor< Cmpt > >
CtypeOfSum< SymmTensor2D< Cmpt >, SphericalTensor2D< Cmpt > >
CtypeOfSum< SymmTensor< Cmpt >, SphericalTensor< Cmpt > >
CtypeOfSum< SymmTensor< Cmpt >, Tensor< Cmpt > >
CtypeOfSum< Tensor2D< Cmpt >, SphericalTensor2D< Cmpt > >
CtypeOfSum< Tensor< Cmpt >, SphericalTensor< Cmpt > >
CtypeOfSum< Tensor< Cmpt >, SymmTensor< Cmpt > >
CtypeOfTranspose	Abstract template class to provide the transpose form of a form
CtypeOfTranspose< Cmpt, BarycentricTensor2D< Cmpt > >
CtypeOfTranspose< Cmpt, BarycentricTensor< Cmpt > >
CtypeOfTranspose< Cmpt, CompactSpatialTensor< Cmpt > >
CtypeOfTranspose< Cmpt, CompactSpatialTensorT< Cmpt > >
CtypeOfTranspose< Cmpt, RowVector< Cmpt > >
CtypeOfTranspose< Cmpt, SpatialTensor< Cmpt > >
CtypeOfTranspose< Cmpt, Tensor< Cmpt > >
CtypeOfTranspose< Cmpt, Vector< Cmpt > >
CUautoPtr	An auto-pointer similar to the STL auto_ptr but with automatic casting to a reference to the type and with pointer allocation checking on access
CUCompactListList	Unallocated base class of CompactListList
CUDictionary	Template dictionary class which does not manages the storage associated with it
CUFaceList
CUFaceList< IndirectList< Face > >
CUFaceList< List< Face > >
CUFaceList< SubList< Face > >
CUFaceList< UIndirectList< Face > >
CUFaceList< UList< Face > >
►CUILList	Template class for intrusive linked lists
Cconst_iterator	An STL-conforming const_iterator
Cconst_reverse_iterator	An STL-conforming const_reverse_iterator
Citerator	An STL-conforming iterator
CUIndirectList	A List with indirect addressing
CUIPstream	Input inter-processor communications stream operating on external buffer
►CUList	A 1D vector of objects of type <T>, where the size of the vector is known and can be used for subscript bounds checking, etc
Cgreater	Greater function class that can be used for sorting
Cless	Less function class that can be used for sorting
CUMISTLimiter	Class with limiter function which returns the limiter for the UMIST interpolation scheme
CundoableMeshCutter	The main refinement handler. Gets cellCuts which is structure that describes which cells are to be cut and in what way. Maintains an undo list (if told so during construction). Apart from undo list is just wrapper around meshCutter
Cuniform
CuniformDensityHydrostaticPressureFvPatchScalarField	This boundary condition provides a hydrostatic pressure condition, calculated as:
CuniformDiffusivity	Uniform uniform finite volume mesh motion diffusivity
CUniformDimensionedField	Dimensioned<Type> registered with the database as a registered IOobject which has the functionality of a uniform field and allows values from the top-level code to be passed to boundary conditions etc
CuniformDistance
CUniformField	A class representing the concept of a uniform field which stores only the single value and providing the operator[] to return it
CUniformFieldField	A class representing the concept of a field of uniform fields which stores only the single value and providing the operator[] to return it
CuniformFixedGradientFvPatchField	This boundary condition provides a uniform fixed gradient condition
CuniformFixedValueFvPatchField	This boundary condition provides a uniform fixed value condition
CuniformFixedValuePointPatchField	Enables the specification of a uniform fixed value boundary condition
CUniformGeometricField	Dimensioned<Type> registered with the database as a registered IOobject which has the functionality of a uniform field and allows values from the top-level code to be passed to boundary conditions etc
CuniformGrid	Generate a uniform grid of points inside the surfaces to be conformed to of the conformalVoronoiMesh
CuniformInletOutletFvPatchField	Variant of inletOutlet boundary condition with uniform inletValue
CuniformInterpolatedDisplacementPointPatchVectorField	Interpolates pre-specified motion
CuniformJumpAMIFvPatchField	This boundary condition provides a jump condition, using the `cyclicAMI` condition as a base. The jump is specified as a time-varying uniform value across the patch
CuniformJumpFvPatchField	This boundary condition provides a jump condition, using the `cyclic` condition as a base. The jump is specified as a time-varying uniform value across the patch
CuniformTotalPressureFvPatchScalarField	This boundary condition provides a time-varying form of the uniform total pressure boundary condition Foam::totalPressureFvPatchField
CuniformValue
CunknownTypeFunction1	Wrapper around Function1 that constructs a function for an as yet unknown primitive type. It stores the location of the user input and actually constructs the function on demand at the point at which a value is requested for a specific type
CUnsortedMeshedSurface	A surface geometry mesh, in which the surface zone information is conveyed by the 'zoneId' associated with each face
CUOprocess	Random UO process
CUOPstream	Output inter-processor communications stream operating on external buffer
CUpdateableMeshObject
CupdateOp	Update operation
►CUPstream	Inter-processor communications stream
CcommsStruct	Structure for communicating between processors
Ccommunicator	Helper class for allocating/freeing communicators
ClistEq	CombineReduce operator for lists. Used for counting
CUPtrDictionary	Template dictionary class which does not manages the storage associated with it
►CUPtrList	A templated 1D list of pointers to objects of type <T>, where the size of the array is known and used for subscript bounds checking, etc
Cconst_iterator	An STL-conforming const_iterator
Citerator	An STL iterator
Cupwind	Upwind interpolation scheme class
CupwindCECCellToFaceStencilObject
CupwindCFCCellToFaceStencilObject
CupwindCPCCellToFaceStencilObject
CupwindFECCellToFaceStencilObject
CUpwindFitData	Data for the quadratic fit correction interpolation scheme to be used with upwind biased stencil
CUpwindFitScheme	Upwind biased fit surface interpolation scheme that applies an explicit correction to linear
CuserTime	An abstract class for the user time description
►CvalueMultiComponentMixture	Thermophysical properties mixing class which applies mass-fraction weighted mixing to thermodynamic properties and mole-fraction weighted mixing to transport properties
CthermoMixture
CtransportMixture
CvaluePointPatchField	Foam::valuePointPatchField
CvanAlbadaLimiter	Class with limiter function which returns the limiter for the vanAlbada interpolation scheme based on r obtained from the LimiterFunc class
CvanLeerLimiter	Class with limiter function which returns the limiter for the vanLeer interpolation scheme based on r obtained from the LimiterFunc class
Cvariable	A variable is a word with support for additional characters, in particular '$' and '/'
CVariableHardSphere	Variable Hard Sphere BinaryCollision Model
CvariableHeightFlowRateFvPatchScalarField	This boundary condition provides a phase fraction condition based on the local flow conditions, whereby the values are constrained to lay between user-specified upper and lower bounds. The behaviour is described by:
CvariableHeightFlowRateInletVelocityFvPatchVectorField	This boundary condition provides a velocity boundary condition for multiphase flow based on a user-specified volumetric flow rate
CVector	Templated 3D Vector derived from VectorSpace adding construction from 3 components, element access using x(), y() and z() member functions and the inner-product (dot-product) and cross product operators
CVector2D	Templated 2D Vector derived from VectorSpace adding construction from 2 components, element access using x() and y() member functions and the inner-product (dot-product)
►CVectorSpace	Templated vector space
CConstBlock	Const sub-block type
CVectorSpaceOps	Operator functions for VectorSpace
CVectorSpaceOps< N, N >
CvectorTools	Functions for analysing the relationships between vectors
CvelocityComponentLaplacianFvMotionSolver	Mesh motion solver for an fvMesh. Based on solving the cell-centre Laplacian for the given component of the motion velocity
CvelocityLaplacianFvMotionSolver	Mesh motion solver for an fvMesh. Based on solving the cell-centre Laplacian for the motion velocity
CvelocityMotionSolver	Virtual base class for velocity motion solver
CverbatimString	A class for handling verbatimStrings, derived from string
CveryInhomogeneousMixture	Foam::veryInhomogeneousMixture
CVirtualMassForce	Calculates particle virtual mass force
CvirtualMassModel	Model for virtual mass between phases
Cviscosity	Abstract base class for all fluid physical properties
CviscosityModel	An abstract base class for Newtonian viscosity models
CVoidFraction	Creates particle void fraction field on carrier phase
CvolMesh	Mesh data needed to do the Finite Volume discretisation
CvolPointInterpolation	Interpolate from cell centres to points (vertices) using inverse distance weighting
CvolumeType
CvtkMesh	Encapsulation of VTK mesh data. Holds mesh or meshsubset and polyhedral-cell decomposition on it
CvtkPVblockMesh	Provides a reader interface for OpenFOAM blockMesh to VTK interaction
CvtkPVFoam	Provides a reader interface for OpenFOAM to VTK interaction
CvtkSetWriter
CvtkSurfaceWriter	A surfaceWriter for VTK legacy format with support for writing ASCII or binary
CvtkTopo	Polyhedral cell decomposition for VTK
CvtkUnstructuredReader	Reader for vtk unstructured_grid legacy files. Supports single CELLS, POINTS etc. entry only
CvtkWriteFieldOps	VTK ASCII and binary write functions
CvtkWriteOps	VTK ASCII and binary write functions
CvtkWritePolyData	General write functions for vtk polygonal data files
CwalkPatch	Collection of static functions to do various simple patch related things
CWallCollisionRecord	Record of a collision between the particle holding the record and a wall face at the position relative to the centre of the particle
CwallDampingModel	Wall damping models can be used to filter interfacial models near the walls. This is particularly useful for the lift force because of its dependence on the velocity gradient
CwallDependentModel	A class which provides on-demand creation and caching of wall distance and wall normal fields for use by multiple models
CwallDist	Interface to run-time selectable methods to calculate the distance-to-wall and normal-to-wall fields
CwallFace	Holds information regarding nearest wall point. Used in wall distance calculation
CWallFaceBase
CwallFvPatch	Foam::wallFvPatch
CwallHeatTransferCoeffModel	Abstract base class for run time selection of heat transfer coefficient models
CWallInteractionModel	Templated wall interaction model class
CwallLayerCells	After construction is a list of <refineCell> of cells within a certain distance to the wall and with the wall normal direction
CWallLocalSpringSliderDashpot	Forces between particles and walls, interacting with a spring, slider, damper model
CwallLubricationModel	Model for the wall lubrication force between two phases
CWallModel	Templated wall interaction class
CwallNormalInfo	Holds information regarding nearest wall point. Used in wall refinement
CwallPoint	Holds information regarding nearest wall point. Used in wall distance calculation
CWallPointBase
CwallPointPatch	Foam::wallPointPatch
CwallPolyPatch	Foam::wallPolyPatch
CWallSiteData	Stores the patch ID and templated data to represent a collision with a wall to be passed to the wall model
CWallSpringSliderDashpot	Forces between particles and walls, interacting with a spring, slider, damper model
CwaveAlphaFvPatchScalarField	This boundary condition provides a waveAlpha condition. This sets the phase fraction to that specified by a superposition of wave models. All the wave modelling parameters are obtained from a centrally registered waveSuperposition class
CwaveAtmBoundaryLayerSuperposition	An extension of waveSuperposition which adds an atmospheric boundary layer model to the gas velocity. The user supplies a gas velocity and a height above the wave coordinate system origin at which that velocity is reached. Also needed are a maximum and minimum wave height which are used to set the surface roughness in the boundary layer model. It is not trivial to determine these from an arbitrary superposition of differently oriented wave models, so they are required as user inputs instead. For a pure sinusoidal wave, the maximum and minimum wave heights can be set to positive and negative amplitude, respectively
CwaveDisplacementPointPatchVectorField	Specified surface wave moving boundary
CwaveInletOutletFvPatchField	This boundary condition provides an inlet-outlet condition with differing inlet values on either side of a wave interface. All the wave modelling parameters are obtained from a centrally registered waveSuperposition class
CwaveModel	Generic base class for waves. Derived classes must implement field functions which return the elevation above the wave surface and the velocity field, both as a function of position
CwaveSuperposition	A wrapper around a list of wave models. Superimposes the modelled values of elevation and velocity. The New method looks up or or constructs an instance of this class on demand and returns a reference. Properties are read from a dictionary in constant
CwaveSurfacePressureFvPatchScalarField	This is a pressure boundary condition, whose value is calculated as the hydrostatic pressure based on a given displacement:
CwaveTransmissiveFvPatchField	This boundary condition provides a wave transmissive outflow condition, based on solving DDt(W, field) = 0 at the boundary `W` is the wave velocity and `field` is the field to which this boundary condition is applied
CwaveVelocityFvPatchVectorField	This boundary condition provides a waveVelocity condition. This sets the velocity to that specified by a superposition of wave models. All the wave modelling parameters are obtained from a centrally registered waveSuperposition class
CwedgeFvPatch	Wedge front and back plane patch
CwedgeFvPatchField	This boundary condition is similar to the cyclic condition, except that it is applied to 2-D geometries
CwedgeFvsPatchField	Foam::wedgeFvsPatchField
CwedgeMatcher	A cellMatcher for wedge cells
CwedgePointPatch	Wedge front and back plane patch
CwedgePointPatchField	Wedge front and back plane patch field
CwedgePolyPatch	Wedge front and back plane patch
Cweighted	Interpolation scheme class using weights looked-up from the objectRegistry
CWenYuDragForce	Wen-Yu drag model for spheres
CwideBandDiffusiveRadiationMixedFvPatchScalarField	This boundary condition provides a wide-band, diffusive radiation condition, where the patch temperature is specified
CWLFTransport	Transport package using the Williams-Landel-Ferry model for viscosity of polymer melts:
Cword	A class for handling words, derived from string
CwordAndDictionary	Tuple of a word and dictionary, used to read in per-field options for function objects in the following syntax:
CwordRe	A wordRe is a word, but can also have a regular expression for matching words
CwordReListMatcher	A wrapper for matching a List of wordRe
CXiEqModel	Base-class for all XiEq models used by the b-XiEq combustion model. The available models are : basicXiSubXiEq.H Gulder.H instabilityXiEq.H SCOPEBlendXiEq.H SCOPEXiEq.H
CXiGModel	Base-class for all Xi generation models used by the b-Xi combustion model. See Technical Report SH/RE/01R for details on the PDR modelling. For details on the use of XiGModel see XiModel.H. The model available is instabilityG.H
CXiModel	Base-class for all Xi models used by the b-Xi combustion model. See Technical Report SH/RE/01R for details on the PDR modelling
CxmgrGraph	Output and agr file for xmgrace (http://plasma-gate.weizmann.ac.il/Grace/)
Czero	A class representing the concept of 0 used to avoid unnecessary manipulations for objects that are known to be zero at compile-time
CzeroDimensionalFvMesh
CzeroField	A class representing the concept of a field of 0 used to avoid unnecessary manipulations for objects which are known to be zero at compile-time
CzeroFieldField	A class representing the concept of a field of zeroFields used to avoid unnecessary manipulations for objects which are known to be zero at compile-time
CzeroFixedValuePointPatchField	Enables the specification of a zero fixed value boundary condition
CzeroGradientFvPatchField	This boundary condition applies a zero-gradient condition from the patch internal field onto the patch faces
CzeroGradientPointPatchField	Foam::zeroGradientPointPatchField
CzoltanDecomp	Zoltan redistribution in parallel
CzoltanRenumber	Use Zoltan for renumbering a case in parallel
Czone	Base class for zones
CzoneToCell	A topoSetSource to select faces based on cellZone
CzoneToFace	A topoSetSource to select faces based on faceZone
CzoneToPoint	A topoSetSource to select points based on pointZone
CdivideOpAuto
CEnthalpy
CminusOpAuto
CmultiplyOpAuto
CplusOpAuto