This CutMeshByLevelSetGenerator object is designed to trim the input mesh by removing all the elements on outside the give level set with special processing on the elements crossed by the cutting surface to ensure a smooth cross-section. More...

#include <CutMeshByLevelSetGenerator.h>

Inheritance diagram for CutMeshByLevelSetGenerator:

[legend]

Public Types
enum	PointLevelSetRelationIndex : short int { PointLevelSetRelationIndex::level_set_out_side = 1, PointLevelSetRelationIndex::level_set_in_side = -1, PointLevelSetRelationIndex::on_level_set = 0 }
	An enum class for style of input polygon size. More...

using	DataFileParameterType = DataFileName
	The parameter type this interface expects for a data file name. More...

typedef GenericSymFunction< is_ad >	SymFunction
	Shorthand for an autodiff function parser object. More...

typedef std::shared_ptr< SymFunction >	SymFunctionPtr
	Shorthand for an smart pointer to an autodiff function parser object. More...

Public Member Functions
	CutMeshByLevelSetGenerator (const InputParameters &parameters)

std::unique_ptr< MeshBase >	generate () override
	Generate / modify the mesh. More...

bool	hasGenerateData () const

std::unique_ptr< MeshBase >	generateInternal ()
	Internal generation method - this is what is actually called within MooseApp to execute the MeshGenerator. More...

const std::set< MeshGeneratorName > &	getRequestedMeshGenerators () const

const std::set< MeshGeneratorName > &	getRequestedMeshGeneratorsForSub () const

void	addParentMeshGenerator (const MeshGenerator &mg, const AddParentChildKey)
	Adds the MeshGenerator `mg` as a parent. More...

void	addChildMeshGenerator (const MeshGenerator &mg, const AddParentChildKey)
	Adds the MeshGenerator `mg` as a child. More...

const std::set< const MeshGenerator *, Comparator > &	getParentMeshGenerators () const
	Gets the MeshGenerators that are parents to this MeshGenerator. More...

const std::set< const MeshGenerator *, Comparator > &	getChildMeshGenerators () const
	Gets the MeshGenerators that are children to this MeshGenerator. More...

const std::set< const MeshGenerator *, Comparator > &	getSubMeshGenerators () const
	Gets the MeshGenerators that are children to this MeshGenerator. More...

bool	isParentMeshGenerator (const MeshGeneratorName &name, const bool direct=true) const

bool	isChildMeshGenerator (const MeshGeneratorName &name, const bool direct=true) const

bool	isNullMeshName (const MeshGeneratorName &name) const

bool	hasSaveMesh () const
	Return whether or not to save the current mesh. More...

bool	hasOutput () const

const std::string &	getSavedMeshName () const
	Return the name of the saved mesh. More...

bool	isDataOnly () const

virtual bool	enabled () const
	Return the enabled status of the object. More...

std::shared_ptr< MooseObject >	getSharedPtr ()
	Get another shared pointer to this object that has the same ownership group. More...

std::shared_ptr< const MooseObject >	getSharedPtr () const

MooseApp &	getMooseApp () const
	Get the MooseApp this class is associated with. More...

const std::string &	type () const
	Get the type of this class. More...

virtual const std::string &	name () const
	Get the name of the class. More...

std::string	typeAndName () const
	Get the class's combined type and name; useful in error handling. More...

std::string	errorPrefix (const std::string &error_type) const

void	callMooseError (std::string msg, const bool with_prefix) const
	Calls moose error with the message `msg`. More...

MooseObjectParameterName	uniqueParameterName (const std::string &parameter_name) const
	The unique parameter name of a valid parameter of this object for accessing parameter controls. More...

const InputParameters &	parameters () const
	Get the parameters of the object. More...

MooseObjectName	uniqueName () const
	The unique name for accessing input parameters of this object in the InputParameterWarehouse. More...

template<typename T >
const T &	getParam (const std::string &name) const
	Retrieve a parameter for the object. More...

template<typename T1 , typename T2 >
std::vector< std::pair< T1, T2 > >	getParam (const std::string &param1, const std::string &param2) const
	Retrieve two parameters and provide pair of parameters for the object. More...

template<typename T >
const T *	queryParam (const std::string &name) const
	Query a parameter for the object. More...

template<typename T >
const T &	getRenamedParam (const std::string &old_name, const std::string &new_name) const
	Retrieve a renamed parameter for the object. More...

template<typename T >
T	getCheckedPointerParam (const std::string &name, const std::string &error_string="") const
	Verifies that the requested parameter exists and is not NULL and returns it to the caller. More...

bool	isParamValid (const std::string &name) const
	Test if the supplied parameter is valid. More...

bool	isParamSetByUser (const std::string &nm) const
	Test if the supplied parameter is set by a user, as opposed to not set or set to default. More...

template<typename... Args>
void	paramError (const std::string &param, Args... args) const
	Emits an error prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message. More...

template<typename... Args>
void	paramWarning (const std::string &param, Args... args) const
	Emits a warning prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message. More...

template<typename... Args>
void	paramInfo (const std::string &param, Args... args) const
	Emits an informational message prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message. More...

void	connectControllableParams (const std::string &parameter, const std::string &object_type, const std::string &object_name, const std::string &object_parameter) const
	Connect controllable parameter of this action with the controllable parameters of the objects added by this action. More...

template<typename... Args>
void	mooseError (Args &&... args) const
	Emits an error prefixed with object name and type. More...

template<typename... Args>
void	mooseErrorNonPrefixed (Args &&... args) const
	Emits an error without the prefixing included in mooseError(). More...

template<typename... Args>
void	mooseDocumentedError (const std::string &repo_name, const unsigned int issue_num, Args &&... args) const
	Emits a documented error with object name and type. More...

template<typename... Args>
void	mooseWarning (Args &&... args) const
	Emits a warning prefixed with object name and type. More...

template<typename... Args>
void	mooseWarningNonPrefixed (Args &&... args) const
	Emits a warning without the prefixing included in mooseWarning(). More...

template<typename... Args>
void	mooseDeprecated (Args &&... args) const

template<typename... Args>
void	mooseInfo (Args &&... args) const

const Parallel::Communicator &	comm () const

processor_id_type	n_processors () const

processor_id_type	processor_id () const

std::string	getDataFileName (const std::string &param) const
	Deprecated method. More...

std::string	getDataFileNameByName (const std::string &relative_path) const
	Deprecated method. More...

std::string	getDataFilePath (const std::string &relative_path) const
	Returns the path of a data file for a given relative file path. More...

void	setParserFeatureFlags (SymFunctionPtr &) const
	apply input parameters to internal feature flags of the parser object More...

Static Public Member Functions
static InputParameters	validParams ()

static void	setHasGenerateData (InputParameters &params)
	Sets that a mesh generator has a generateData() implementation. More...

static bool	hasGenerateData (const InputParameters &params)

Public Attributes
const ConsoleStream	_console
	An instance of helper class to write streams to the Console objects. More...

Static Public Attributes
static const std::string	data_only_param = "_data_only"
	The name of the private parameter for setting data only. More...

static constexpr auto	SYSTEM = "MeshMetaData"
	The system name used when initializing the Restartable interface. More...

static constexpr auto	NAME = "<empty>"
	The data name used when initializing the Restartable interface for non-MeshGenerator objects. More...

Protected Types
enum	FailureMethod
	Enum for failure method. More...

Protected Member Functions
PointLevelSetRelationIndex	pointLevelSetRelation (const Point &point)
	Evaluate whether a point is on the level set, inside or outside the level set. More...

Point	pointPairLevelSetInterception (const Point &point1, const Point &point2)
	Calculate the intersection point of a level set and a line segment defined by two points separated by the level set. More...

void	tet4ElemCutter (ReplicatedMesh &mesh, const std::vector< libMesh::BoundaryInfo::BCTuple > &bdry_side_list, const dof_id_type elem_id, const subdomain_id_type &block_id_to_remove, std::vector< const Node *> &new_on_plane_nodes)
	For a TET4 elements crossed by the level set, keep the part of the element on the retaining side of the level set using a number of TET4 elements. More...

const Node *	nonDuplicateNodeCreator (ReplicatedMesh &mesh, std::vector< const Node *> &new_on_plane_nodes, const Point &new_point) const
	Check if a position on a plane has already been used as a node in the mesh. More...

Real	levelSetEvaluator (const Point &point)
	Evaluate the level set function at a given point. More...

virtual void	generateData ()
	Generate the mesh data. More...

template<typename T >
T &	copyMeshProperty (const std::string &target_data_name, const std::string &source_data_name, const std::string &source_mesh)
	Method for copying attribute from input mesh meta-data store to current mesh meta-data store. More...

template<typename T >
T &	copyMeshProperty (const std::string &source_data_name, const std::string &source_mesh)
	Method for copying attribute from input mesh meta-data store to current mesh meta-data store, keeping source and target data names the same. More...

std::unique_ptr< MeshBase > &	getMesh (const std::string &param_name, const bool allow_invalid=false)
	Takes the name of a MeshGeneratorName parameter and then gets a pointer to the Mesh that MeshGenerator is going to create. More...

std::vector< std::unique_ptr< MeshBase > * >	getMeshes (const std::string &param_name)
	Like getMesh(), but for multiple generators. More...

std::unique_ptr< MeshBase > &	getMeshByName (const MeshGeneratorName &mesh_generator_name)
	Like `getMesh()`, but takes the name of another MeshGenerator directly. More...

std::vector< std::unique_ptr< MeshBase > * >	getMeshesByName (const std::vector< MeshGeneratorName > &mesh_generator_names)
	Like getMeshByName(), but for multiple generators. More...

void	declareMeshForSub (const std::string &param_name)
	Declares that a MeshGenerator referenced in the InputParameters is to be used as a dependency of a sub MeshGenerator created by this MeshGenerator (see addSubMeshGenerator) More...

void	declareMeshesForSub (const std::string &param_name)
	Like declareMeshForSub(), but for multiple generators. More...

void	declareMeshForSubByName (const MeshGeneratorName &mesh_generator_name)
	Like declareMeshForSub(), but takes the name of another MeshGenerator directly. More...

void	declareMeshesForSubByName (const std::vector< MeshGeneratorName > &mesh_generator_names)
	Like declareMeshForSubByName(), but for multiple generators. More...

std::unique_ptr< MeshBase >	buildMeshBaseObject (unsigned int dim=libMesh::invalid_uint)
	Build a `MeshBase` object whose underlying type will be determined by the Mesh input file block. More...

std::unique_ptr< ReplicatedMesh >	buildReplicatedMesh (unsigned int dim=libMesh::invalid_uint)
	Build a replicated mesh. More...

std::unique_ptr< DistributedMesh >	buildDistributedMesh (unsigned int dim=libMesh::invalid_uint)
	Build a distributed mesh that has correct remote element removal behavior and geometric ghosting functors based on the simulation objects. More...

template<typename... Ts>
void	addMeshSubgenerator (const std::string &type, const std::string &name, Ts... extra_input_parameters)
	Construct a "subgenerator", a different MeshGenerator subclass that will be added to the same MooseApp on the fly. More...

void	addMeshSubgenerator (const std::string &type, const std::string &name, InputParameters params)
	Construct a "subgenerator", as above. More...

void	declareNullMeshName (const MeshGeneratorName &name)
	Registers the name `name` as a "null" mesh, which is a MeshGenerator used in InputParameters that will not represent an input mesh when requested via getMesh. More...

template<typename T >
const T &	getMeshProperty (const std::string &data_name, const std::string &prefix)
	Method for retrieving a property with the given type and name exists in the mesh meta-data store. More...

template<typename T >
const T &	getMeshProperty (const std::string &data_name)

bool	hasMeshProperty (const std::string &data_name, const std::string &prefix) const

template<typename T >
bool	hasMeshProperty (const std::string &data_name, const std::string &prefix) const

bool	hasMeshProperty (const std::string &data_name) const

template<typename T >
bool	hasMeshProperty (const std::string &data_name) const

std::string	meshPropertyName (const std::string &data_name) const

GenericReal< is_ad >	evaluate (SymFunctionPtr &, const std::string &object_name="")
	Evaluate FParser object and check EvalError. More...

GenericReal< is_ad >	evaluate (SymFunctionPtr &, const std::vector< GenericReal< is_ad >> &, const std::string &object_name="")
	Evaluate FParser object and check EvalError. More...

void	addFParserConstants (SymFunctionPtr &parser, const std::vector< std::string > &constant_names, const std::vector< std::string > &constant_expressions) const
	add constants (which can be complex expressions) to the parser object More...

virtual void	functionsOptimize (SymFunctionPtr &parsed_function)
	run FPOptimizer on the parsed function More...

void	functionsOptimize (SymFunctionPtr &parsed_function)

void	functionsOptimize (SymFunctionPtr &parsed_function)

void	parsedFunctionSetup (SymFunctionPtr &function, const std::string &expression, const std::string &variables, const std::vector< std::string > &constant_names, const std::vector< std::string > &constant_expressions, const libMesh::Parallel::Communicator &comm) const
	Performs setup steps on a SymFunction. More...


template<typename T , typename... Args>
T &	declareMeshProperty (const std::string &data_name, Args &&... args)
	Methods for writing out attributes to the mesh meta-data store, which can be retrieved from most other MOOSE systems and is recoverable. More...

template<typename T >
T &	declareMeshProperty (const std::string &data_name, const T &data_value)


template<typename T , typename... Args>
T &	setMeshProperty (const std::string &data_name, Args &&... args)
	Method for updating attributes to the mesh meta-data store, which can only be invoked in the MeshGenerator generate routine only if the mesh generator property has already been declared. More...

template<typename T >
T &	setMeshProperty (const std::string &data_name, const T &data_value)

Static Protected Member Functions
static std::string	meshPropertyName (const std::string &data_name, const std::string &prefix)

Protected Attributes
const std::string	_level_set
	The analytic level set function in the form of a string that can be parsed by FParser. More...

const MeshGeneratorName	_input_name
	Name of the input mesh. More...

boundary_id_type	_cut_face_id
	The boundary id of the surface generated by the cut. More...

const BoundaryName	_cut_face_name
	The boundary name of the surface generated by the cut. More...

std::unique_ptr< MeshBase > &	_input
	Reference to input mesh pointer. More...

SymFunctionPtr	_func_level_set
	function parser object describing the level set More...

MooseMesh *const	_mesh
	Pointer to the owning mesh. More...

const bool &	_enabled
	Reference to the "enable" InputParameters, used by Controls for toggling on/off MooseObjects. More...

MooseApp &	_app
	The MOOSE application this is associated with. More...

const std::string	_type
	The type of this class. More...

const std::string	_name
	The name of this class. More...

const InputParameters &	_pars
	Parameters of this object, references the InputParameters stored in the InputParametersWarehouse. More...

Factory &	_factory
	The Factory associated with the MooseApp. More...

ActionFactory &	_action_factory
	Builds Actions. More...

const Parallel::Communicator &	_communicator

enum FunctionParserUtils::FailureMethod	_evalerror_behavior

const Real	_quiet_nan
	appropriate not a number value to return More...

std::vector< GenericReal< is_ad > >	_func_params
	Array to stage the parameters passed to the functions when calling Eval. More...

const Real	_epsilon
	fuzzy comparison tolerance More...


bool	_enable_jit
	feature flags More...

bool	_enable_ad_cache

bool	_disable_fpoptimizer

bool	_enable_auto_optimize

Static Protected Attributes
static const char *	_eval_error_msg []
	table of FParser eval error codes More...

Detailed Description

This CutMeshByLevelSetGenerator object is designed to trim the input mesh by removing all the elements on outside the give level set with special processing on the elements crossed by the cutting surface to ensure a smooth cross-section.

The output mesh only consists of TET4 elements.

Definition at line 19 of file CutMeshByLevelSetGenerator.h.

Member Typedef Documentation

◆ DataFileParameterType

using DataFileInterface::DataFileParameterType = DataFileName

inherited

The parameter type this interface expects for a data file name.

Definition at line 27 of file DataFileInterface.h.

◆ SymFunction

typedef GenericSymFunction<is_ad> FunctionParserUtils< is_ad >::SymFunction

inherited

Shorthand for an autodiff function parser object.

Definition at line 62 of file FunctionParserUtils.h.

◆ SymFunctionPtr

typedef std::shared_ptr<SymFunction> FunctionParserUtils< is_ad >::SymFunctionPtr

inherited

Shorthand for an smart pointer to an autodiff function parser object.

Definition at line 65 of file FunctionParserUtils.h.

Member Enumeration Documentation

◆ FailureMethod

enum FunctionParserUtils::FailureMethod

strongprotectedinherited

Enum for failure method.

Definition at line 116 of file FunctionParserUtils.h.

116 { nan, nan_warning, error, exception } _evalerror_behavior;

FunctionParserUtils< false >::_evalerror_behavior

enum FunctionParserUtils::FailureMethod _evalerror_behavior

◆ PointLevelSetRelationIndex

enum CutMeshByLevelSetGeneratorBase::PointLevelSetRelationIndex : short int

stronginherited

An enum class for style of input polygon size.

Enumerator
level_set_out_side
level_set_in_side
on_level_set

Definition at line 30 of file CutMeshByLevelSetGeneratorBase.h.

                                         : short int
   {
     level_set_out_side = 1,
     level_set_in_side = -1,
     on_level_set = 0
   };

Constructor & Destructor Documentation

◆ CutMeshByLevelSetGenerator()

CutMeshByLevelSetGenerator::CutMeshByLevelSetGenerator ( const InputParameters & parameters )

Definition at line 40 of file CutMeshByLevelSetGenerator.C.

   : CutMeshByLevelSetGeneratorBase(parameters), _level_set(getParam<std::string>("level_set"))
 {
   // Create parsed function
   _func_level_set = std::make_shared<SymFunction>();
   parsedFunctionSetup(_func_level_set,
                       _level_set,
                       "x,y,z",
                       getParam<std::vector<std::string>>("constant_names"),
                       getParam<std::vector<std::string>>("constant_expressions"),
                       comm());
 
   _func_params.resize(3);
 }

Member Function Documentation

◆ addChildMeshGenerator()

void MeshGenerator::addChildMeshGenerator	(	const MeshGenerator &	mg,
		const AddParentChildKey
	)

inherited

Adds the MeshGenerator mg as a child.

Protected by the AddParentChildKey so that parents can only be added by the MooseApp.

Definition at line 365 of file MeshGenerator.C.

 {
   mooseAssert(_app.constructingMeshGenerators(), "Should only be called at construction");
   _child_mesh_generators.insert(&mg);
 }

◆ addFParserConstants()

void FunctionParserUtils< is_ad >::addFParserConstants	(	SymFunctionPtr &	parser,
		const std::vector< std::string > &	constant_names,
		const std::vector< std::string > &	constant_expressions
	)		const

protectedinherited

add constants (which can be complex expressions) to the parser object

Definition at line 151 of file FunctionParserUtils.C.

Referenced by ParsedCurveGenerator::ParsedCurveGenerator(), and ParsedODEKernel::ParsedODEKernel().

 {
   // check constant vectors
   unsigned int nconst = constant_expressions.size();
   if (nconst != constant_names.size())
     mooseError("The parameter vectors constant_names (size " +
                std::to_string(constant_names.size()) + ") and constant_expressions (size " +
                std::to_string(nconst) + ") must have equal length.");
 
   // previously evaluated constant_expressions may be used in following constant_expressions
   std::vector<Real> constant_values(nconst);
 
   for (unsigned int i = 0; i < nconst; ++i)
   {
     // no need to use dual numbers for the constant expressions
     auto expression = std::make_shared<FunctionParserADBase<Real>>();
 
     // add previously evaluated constants
     for (unsigned int j = 0; j < i; ++j)
       if (!expression->AddConstant(constant_names[j], constant_values[j]))
         mooseError("Invalid constant name: ", constant_names[j], " and value ", constant_values[j]);
 
     // build the temporary constant expression function
     if (expression->Parse(constant_expressions[i], "") >= 0)
       mooseError("Invalid constant expression\n",
                  constant_expressions[i],
                  "\n in parsed function object.\n",
                  expression->ErrorMsg());
 
     constant_values[i] = expression->Eval(NULL);
 
     if (!parser->AddConstant(constant_names[i], constant_values[i]))
       mooseError("Invalid constant name in parsed function object");
   }
 }

◆ addMeshSubgenerator() [1/2]

template<typename... Ts>

void MeshGenerator::addMeshSubgenerator	(	const std::string &	type,
		const std::string &	name,
		Ts...	extra_input_parameters
	)

protectedinherited

Construct a "subgenerator", a different MeshGenerator subclass that will be added to the same MooseApp on the fly.

Parameters

type	The type of MeshGenerator
name	The name of the MeshGenerator
extra_input_parameters	... Additional InputParameters to pass

Sub generators must be added in the order that they are executed.

Any input dependencies for a sub generator that come from inputs for this generator must first be declared with the declareMesh(es)ForSub() method.

You can use the output of a sub generator as a mesh in this generator by calling getMesh() with the sub generator's name after adding said sub generator.

Definition at line 513 of file MeshGenerator.h.

Referenced by OverlayMeshGenerator::OverlayMeshGenerator(), and SideSetExtruderGenerator::SideSetExtruderGenerator().

 {
   InputParameters subgenerator_params = _app.getFactory().getValidParams(type);
 
   subgenerator_params.setParameters(extra_input_parameters...);
 
   addMeshSubgenerator(type, name, subgenerator_params);
 }

◆ addMeshSubgenerator() [2/2]

void MeshGenerator::addMeshSubgenerator	(	const std::string &	type,
		const std::string &	name,
		InputParameters	params
	)

protectedinherited

Construct a "subgenerator", as above.

User code is responsible for constructing valid InputParameters.

Parameters

type	The type of MeshGenerator
name	The name of the MeshGenerator
params	The parameters to use to construct the MeshGenerator

Definition at line 334 of file MeshGenerator.C.

 {
   if (!_app.constructingMeshGenerators())
     mooseError("Can only call addMeshSubgenerator() during MeshGenerator construction");
 
   // In case the user forgot it
   params.set<MooseApp *>("_moose_app") = &_app;
 
   // Set this to be data-only if this generator is data only
   params.set<bool>(data_only_param) = isDataOnly();
 
   _app.addMeshGenerator(type, name, params);
   _sub_mesh_generators.insert(&std::as_const(_app).getMeshGenerator(name));
 }

◆ addParentMeshGenerator()

void MeshGenerator::addParentMeshGenerator	(	const MeshGenerator &	mg,
		const AddParentChildKey
	)

inherited

Adds the MeshGenerator mg as a parent.

Protected by the AddParentChildKey so that parents can only be added by the MooseApp.

Definition at line 358 of file MeshGenerator.C.

 {
   mooseAssert(_app.constructingMeshGenerators(), "Should only be called at construction");
   _parent_mesh_generators.insert(&mg);
 }

◆ buildDistributedMesh()

std::unique_ptr< DistributedMesh > MeshGenerator::buildDistributedMesh ( unsigned int dim = libMesh::invalid_uint )

protectedinherited

Build a distributed mesh that has correct remote element removal behavior and geometric ghosting functors based on the simulation objects.

Parameters

dim	The logical dimension of the mesh, e.g. 3 for hexes/tets, 2 for quads/tris. If the caller doesn't specify a value for `dim`, then the value in the `Mesh` input file block will be used

Definition at line 253 of file MeshGenerator.C.

Referenced by DistributedRectilinearMeshGenerator::generate().

 {
   mooseAssert(_mesh, "Need a MooseMesh object");
   return _mesh->buildTypedMesh<DistributedMesh>(dim);
 }

◆ buildMeshBaseObject()

std::unique_ptr< MeshBase > MeshGenerator::buildMeshBaseObject ( unsigned int dim = libMesh::invalid_uint )

protectedinherited

Build a MeshBase object whose underlying type will be determined by the Mesh input file block.

Parameters

dim	The logical dimension of the mesh, e.g. 3 for hexes/tets, 2 for quads/tris. If the caller doesn't specify a value for `dim`, then the value in the `Mesh` input file block will be used

Definition at line 239 of file MeshGenerator.C.

Referenced by BlockToMeshConverterGenerator::generate(), ElementGenerator::generate(), SphereMeshGenerator::generate(), FileMeshGenerator::generate(), CartesianMeshGenerator::generate(), GeneratedMeshGenerator::generate(), AnnularMeshGenerator::generate(), PolyLineMeshGenerator::generate(), ExamplePatchMeshGenerator::generate(), MeshExtruderGenerator::generate(), AdvancedExtruderGenerator::generate(), and TransfiniteMeshGenerator::generate().

 {
   mooseAssert(_mesh, "Need a MooseMesh object");
   return _mesh->buildMeshBaseObject(dim);
 }

◆ buildReplicatedMesh()

std::unique_ptr< ReplicatedMesh > MeshGenerator::buildReplicatedMesh ( unsigned int dim = libMesh::invalid_uint )

protectedinherited

Build a replicated mesh.

Parameters

dim	The logical dimension of the mesh, e.g. 3 for hexes/tets, 2 for quads/tris. If the caller doesn't specify a value for `dim`, then the value in the `Mesh` input file block will be used

Definition at line 246 of file MeshGenerator.C.

Referenced by FillBetweenCurvesGenerator::generate(), FillBetweenSidesetsGenerator::generate(), FillBetweenPointVectorsGenerator::generate(), ConcentricCircleMeshGenerator::generate(), ImageMeshGenerator::generate(), ParsedCurveGenerator::generate(), SpiralAnnularMeshGenerator::generate(), and RinglebMeshGenerator::generate().

 {
   mooseAssert(_mesh, "Need a MooseMesh object");
   return _mesh->buildTypedMesh<ReplicatedMesh>(dim);
 }

◆ callMooseError()

void MooseBase::callMooseError	(	std::string	msg,
		const bool	with_prefix
	)		const

inherited

Calls moose error with the message msg.

Will prefix the message with the subapp name if one exists.

If with_prefix, then add the prefix from errorPrefix() to the error.

Definition at line 33 of file MooseBase.C.

Referenced by InputParameters::callMooseErrorHelper(), MooseBaseErrorInterface::mooseDocumentedError(), MooseBaseErrorInterface::mooseError(), MooseBaseErrorInterface::mooseErrorNonPrefixed(), and MooseBaseParameterInterface::paramError().

 {
   _app.getOutputWarehouse().mooseConsole();
   const std::string prefix = _app.isUltimateMaster() ? "" : _app.name();
   if (with_prefix)
     msg = errorPrefix("error") + msg;
   moose::internal::mooseErrorRaw(msg, prefix);
 }

◆ connectControllableParams()

void MooseBaseParameterInterface::connectControllableParams	(	const std::string &	parameter,
		const std::string &	object_type,
		const std::string &	object_name,
		const std::string &	object_parameter
	)		const

inherited

Connect controllable parameter of this action with the controllable parameters of the objects added by this action.

Parameters

parameter	Name of the controllable parameter of this action
object_type	Type of the object added by this action.
object_name	Name of the object added by this action.
object_parameter	Name of the parameter of the object.

Definition at line 33 of file MooseBaseParameterInterface.C.

 {
   MooseObjectParameterName primary_name(uniqueName(), parameter);
   const auto base_type = _factory.getValidParams(object_type).get<std::string>("_moose_base");
   MooseObjectParameterName secondary_name(base_type, object_name, object_parameter);
   _moose_base.getMooseApp().getInputParameterWarehouse().addControllableParameterConnection(
       primary_name, secondary_name);
 
   const auto & tags = _pars.get<std::vector<std::string>>("control_tags");
   for (const auto & tag : tags)
   {
     if (!tag.empty())
     {
       // Only adds the parameter with the different control tags if the derived class
       // properly registers the parameter to its own syntax
       MooseObjectParameterName tagged_name(tag, _moose_base.name(), parameter);
       _moose_base.getMooseApp().getInputParameterWarehouse().addControllableParameterConnection(
           tagged_name, secondary_name, /*error_on_empty=*/false);
     }
   }
 }

◆ copyMeshProperty() [1/2]

template<typename T >

T& MeshGenerator::copyMeshProperty	(	const std::string &	target_data_name,
		const std::string &	source_data_name,
		const std::string &	source_mesh
	)

inlineprotectedinherited

Method for copying attribute from input mesh meta-data store to current mesh meta-data store.

This may often be avoided as getMeshProperty calls can traverse the tree of mesh generators to find a metadata instance

Definition at line 233 of file MeshGenerator.h.

   {
     return declareMeshProperty(target_data_name, getMeshProperty<T>(source_data_name, source_mesh));
   }

◆ copyMeshProperty() [2/2]

template<typename T >

T& MeshGenerator::copyMeshProperty	(	const std::string &	source_data_name,
		const std::string &	source_mesh
	)

inlineprotectedinherited

Method for copying attribute from input mesh meta-data store to current mesh meta-data store, keeping source and target data names the same.

This may often be avoided as getMeshProperty calls can traverse the tree of mesh generators to find a metadata instance

Definition at line 246 of file MeshGenerator.h.

   {
     return copyMeshProperty<T>(source_data_name, source_data_name, source_mesh);
   }

◆ declareMeshesForSub()

void MeshGenerator::declareMeshesForSub ( const std::string & param_name )

protectedinherited

Like declareMeshForSub(), but for multiple generators.

Definition at line 215 of file MeshGenerator.C.

 {
   declareMeshesForSubByName(getMeshGeneratorNamesFromParam(param_name));
 }

◆ declareMeshesForSubByName()

void MeshGenerator::declareMeshesForSubByName ( const std::vector< MeshGeneratorName > & mesh_generator_names )

protectedinherited

Like declareMeshForSubByName(), but for multiple generators.

Definition at line 231 of file MeshGenerator.C.

Referenced by MeshGenerator::declareMeshesForSub().

 {
   for (const auto & name : mesh_generator_names)
     declareMeshForSubByName(name);
 }

◆ declareMeshForSub()

void MeshGenerator::declareMeshForSub ( const std::string & param_name )

protectedinherited

Declares that a MeshGenerator referenced in the InputParameters is to be used as a dependency of a sub MeshGenerator created by this MeshGenerator (see addSubMeshGenerator)

You must declare all such MeshGenerators that are passed by parameter to this MeshGenerator but instead used in a sub MeshGenerator. This is in order to declare the intention to use an input mesh as a dependency for a sub generator instead of this one.

Definition at line 209 of file MeshGenerator.C.

Referenced by OverlayMeshGenerator::OverlayMeshGenerator(), and SideSetExtruderGenerator::SideSetExtruderGenerator().

 {
   declareMeshForSubByName(*getMeshGeneratorNameFromParam(param_name, false));
 }

◆ declareMeshForSubByName()

void MeshGenerator::declareMeshForSubByName ( const MeshGeneratorName & mesh_generator_name )

protectedinherited

Like declareMeshForSub(), but takes the name of another MeshGenerator directly.

Definition at line 221 of file MeshGenerator.C.

Referenced by MeshGenerator::declareMeshesForSubByName(), and MeshGenerator::declareMeshForSub().

 {
   checkGetMesh(mesh_generator_name, "");
   if (isNullMeshName(mesh_generator_name))
     return;
 
   _requested_mesh_generators_for_sub.insert(mesh_generator_name);
 }

◆ declareMeshProperty() [1/2]

template<typename T , typename... Args>

T & MeshGenerator::declareMeshProperty	(	const std::string &	data_name,
		Args &&...	args
	)

protectedinherited

Methods for writing out attributes to the mesh meta-data store, which can be retrieved from most other MOOSE systems and is recoverable.

Definition at line 455 of file MeshGenerator.h.

Referenced by AddMetaDataGenerator::AddMetaDataGenerator(), ConcentricCircleMeshGenerator::ConcentricCircleMeshGenerator(), MeshGenerator::copyMeshProperty(), DistributedRectilinearMeshGenerator::DistributedRectilinearMeshGenerator(), ImageMeshGenerator::ImageMeshGenerator(), RinglebMeshGenerator::RinglebMeshGenerator(), and SpiralAnnularMeshGenerator::SpiralAnnularMeshGenerator().

 {
   if (!_app.constructingMeshGenerators())
     mooseError("Can only call declareMeshProperty() during MeshGenerator construction");
 
   // We sort construction ordering so that we _must_ declare before retrieving
   if (hasMeshProperty(data_name))
     mooseError("While declaring mesh property '",
                data_name,
                "' with type '",
                MooseUtils::prettyCppType<T>(),
                "',\nsaid property has already been declared with type '",
                setMeshPropertyHelper(data_name).type(),
                "'");
 
   const auto full_name = meshPropertyName(data_name);
   auto new_T_value =
       std::make_unique<RestartableData<T>>(full_name, nullptr, std::forward<Args>(args)...);
   auto value =
       &_app.registerRestartableData(std::move(new_T_value), 0, false, MooseApp::MESH_META_DATA);
   mooseAssert(value->declared(), "Should be declared");
 
   RestartableData<T> * T_value = dynamic_cast<RestartableData<T> *>(value);
   mooseAssert(T_value, "Bad cast");
 
   return T_value->set();
 }

◆ declareMeshProperty() [2/2]

template<typename T >

T& MeshGenerator::declareMeshProperty	(	const std::string &	data_name,
		const T &	data_value
	)

inlineprotectedinherited

Definition at line 206 of file MeshGenerator.h.

   {
     return declareMeshProperty<T, const T &>(data_name, data_value);
   }

◆ declareNullMeshName()

void MeshGenerator::declareNullMeshName ( const MeshGeneratorName & name )

protectedinherited

Registers the name name as a "null" mesh, which is a MeshGenerator used in InputParameters that will not represent an input mesh when requested via getMesh.

An example use case for this is when you as a developer want users to represent a hole in a mesh pattern that is defined in input.

Definition at line 398 of file MeshGenerator.C.

 {
   mooseAssert(_app.constructingMeshGenerators(), "Should only be called at construction");
   mooseAssert(!_null_mesh_names.count(name), "Already declared");
   _null_mesh_names.insert(name);
 }

◆ enabled()

virtual bool MooseObject::enabled ( ) const

inlinevirtualinherited

Return the enabled status of the object.

Reimplemented in EigenKernel.

Definition at line 40 of file MooseObject.h.

Referenced by EigenKernel::enabled().

40 { return _enabled; }

MooseObject::_enabled

const bool & _enabled

Reference to the "enable" InputParameters, used by Controls for toggling on/off MooseObjects.

Definition: MooseObject.h:51

◆ errorPrefix()

std::string MooseBase::errorPrefix ( const std::string & error_type ) const

inherited

Returns: A prefix to be used in errors that contains the input file location associated with this object (if any) and the name and type of the object.

Definition at line 43 of file MooseBase.C.

Referenced by MooseBase::callMooseError(), MooseBaseErrorInterface::mooseDeprecated(), MooseBaseErrorInterface::mooseInfo(), MooseBaseErrorInterface::mooseWarning(), and MooseBaseParameterInterface::paramErrorMsg().

 {
   std::stringstream oss;
   if (const auto node = _params.getHitNode())
     if (!node->isRoot())
       oss << node->fileLocation() << ":\n";
   oss << "The following " << error_type << " occurred in the ";
   if (const auto base_ptr = _params.getBase())
     oss << *base_ptr;
   else
     oss << "object";
   oss << " '" << name() << "' of type " << type() << ".\n\n";
   return oss.str();
 }

◆ evaluate() [1/2]

GenericReal< is_ad > FunctionParserUtils< is_ad >::evaluate	(	SymFunctionPtr &	parser,
		const std::string &	object_name = `""`
	)

protectedinherited

Evaluate FParser object and check EvalError.

Definition at line 87 of file FunctionParserUtils.C.

Referenced by ParsedSubdomainIDsGenerator::assignElemSubdomainID(), ParsedSubdomainMeshGenerator::assignElemSubdomainID(), ParsedConvergence::checkConvergence(), ParsedODEKernel::computeQpJacobian(), ParsedODEKernel::computeQpOffDiagJacobianScalar(), ParsedODEKernel::computeQpResidual(), ArrayParsedAux::computeValue(), ParsedVectorAux::computeValue(), ParsedAux::computeValue(), ParsedPostprocessor::finalize(), ParsedExtraElementIDGenerator::generate(), ParsedCurveGenerator::generate(), ParsedGenerateNodeset::generate(), ParsedNodeTransformGenerator::generate(), ParsedGenerateSideset::generate(), ParsedDownSelectionPositions::initialize(), CutMeshByLevelSetGeneratorBase::levelSetEvaluator(), ParsedCurveGenerator::pointCalculator(), ParsedElementDeletionGenerator::shouldDelete(), and SolutionUserObject::solutionSampleTime().

 {
   return evaluate(parser, _func_params, name);
 }

◆ evaluate() [2/2]

GenericReal< is_ad > FunctionParserUtils< is_ad >::evaluate	(	SymFunctionPtr &	parser,
		const std::vector< GenericReal< is_ad >> &	func_params,
		const std::string &	object_name = `""`
	)

protectedinherited

Evaluate FParser object and check EvalError.

This version uses a supplied vector of function parameters, which is useful if an object uses more than one parsed function, which may have different function parameter values.

Definition at line 94 of file FunctionParserUtils.C.

 {
   // null pointer is a shortcut for vanishing derivatives, see functionsOptimize()
   if (parser == NULL)
     return 0.0;
 
   // set desired epsilon
   auto tmp_eps = parser->epsilon();
   parser->setEpsilon(_epsilon);
 
   // evaluate expression
   auto result = parser->Eval(func_params.data());
 
   // restore epsilon
   parser->setEpsilon(tmp_eps);
 
   // fetch fparser evaluation error (set to unknown if the JIT result is nan)
   int error_code = _enable_jit ? (std::isnan(result) ? -1 : 0) : parser->EvalError();
 
   // no error
   if (error_code == 0)
     return result;
 
   // hard fail or return not a number
   switch (_evalerror_behavior)
   {
     case FailureMethod::nan:
       return _quiet_nan;
 
     case FailureMethod::nan_warning:
       mooseWarning("In ",
                    name,
                    ": Parsed function evaluation encountered an error: ",
                    _eval_error_msg[(error_code < 0 || error_code > 5) ? 0 : error_code]);
       return _quiet_nan;
 
     case FailureMethod::error:
       mooseError("In ",
                  name,
                  ": Parsed function evaluation encountered an error: ",
                  _eval_error_msg[(error_code < 0 || error_code > 5) ? 0 : error_code]);
 
     case FailureMethod::exception:
       mooseException("In ",
                      name,
                      ": Parsed function evaluation encountered an error: ",
                      _eval_error_msg[(error_code < 0 || error_code > 5) ? 0 : error_code],
                      "\n Cutting timestep");
   }
 
   return _quiet_nan;
 }

◆ functionsOptimize() [1/3]

virtual void FunctionParserUtils< is_ad >::functionsOptimize ( SymFunctionPtr & parsed_function )

protectedvirtualinherited

run FPOptimizer on the parsed function

◆ functionsOptimize() [2/3]

void FunctionParserUtils< true >::functionsOptimize ( SymFunctionPtr & parsed_function )

protectedinherited

◆ functionsOptimize() [3/3]

void FunctionParserUtils< true >::functionsOptimize ( SymFunctionPtr & parsed_function )

protectedinherited

Definition at line 209 of file FunctionParserUtils.C.

 {
   // set desired epsilon for optimization!
   auto tmp_eps = parsed_function->epsilon();
   parsed_function->setEpsilon(_epsilon);
 
   // base function
   if (!_disable_fpoptimizer)
     parsed_function->Optimize();
   if (!_enable_jit || !parsed_function->JITCompile())
     mooseError("AD parsed objects require JIT compilation to be enabled and working.");
 
   parsed_function->setEpsilon(tmp_eps);
 }

◆ generate()

std::unique_ptr< MeshBase > CutMeshByLevelSetGeneratorBase::generate ( )

overridevirtualinherited

Generate / modify the mesh.

Implements MeshGenerator.

Definition at line 57 of file CutMeshByLevelSetGeneratorBase.C.

 {
   auto replicated_mesh_ptr = dynamic_cast<ReplicatedMesh *>(_input.get());
   if (!replicated_mesh_ptr)
     paramError("input", "Input is not a replicated mesh, which is required");
   if (*(replicated_mesh_ptr->elem_dimensions().begin()) != 3 ||
       *(replicated_mesh_ptr->elem_dimensions().rbegin()) != 3)
     paramError(
         "input",
         "Only 3D meshes are supported. Use XYMeshLineCutter for 2D meshes if applicable. Mixed "
         "dimensional meshes are not supported at the moment.");
 
   ReplicatedMesh & mesh = *replicated_mesh_ptr;
 
   if (!_cut_face_name.empty())
   {
     if (MooseMeshUtils::hasBoundaryName(mesh, _cut_face_name))
     {
       const boundary_id_type exist_cut_face_id =
           MooseMeshUtils::getBoundaryID(_cut_face_name, mesh);
       if (_cut_face_id != -1 && _cut_face_id != exist_cut_face_id)
         paramError("cut_face_id",
                    "The cut face boundary name and id are both provided, but they are inconsistent "
                    "with an existing boundary name which has a different id.");
       else
         _cut_face_id = exist_cut_face_id;
     }
     else
     {
       if (_cut_face_id == -1)
         _cut_face_id = MooseMeshUtils::getNextFreeBoundaryID(mesh);
       mesh.get_boundary_info().sideset_name(_cut_face_id) = _cut_face_name;
     }
   }
   else if (_cut_face_id == -1)
   {
     _cut_face_id = MooseMeshUtils::getNextFreeBoundaryID(mesh);
   }
 
   // Subdomain ID for new utility blocks must be new
   std::set<subdomain_id_type> subdomain_ids_set;
   mesh.subdomain_ids(subdomain_ids_set);
   const subdomain_id_type max_subdomain_id = *subdomain_ids_set.rbegin();
   const subdomain_id_type block_id_to_remove = max_subdomain_id + 1;
 
   // For the boolean value in the pair, true means the element is crossed by the cutting plane
   // false means the element is on the remaining side
   std::vector<std::pair<dof_id_type, bool>> cross_and_remained_elems_pre_convert;
 
   for (auto elem_it = mesh.active_elements_begin(); elem_it != mesh.active_elements_end();
        elem_it++)
   {
     const unsigned int & n_vertices = (*elem_it)->n_vertices();
     unsigned short elem_vertices_counter(0);
     for (unsigned int i = 0; i < n_vertices; i++)
     {
       // We define elem_vertices_counter in this way so that those elements with one face on the
       // plane are also processed to have the cut face boundary assigned.
       if (pointLevelSetRelation((*(*elem_it)->node_ptr(i))) !=
           PointLevelSetRelationIndex::level_set_in_side)
         elem_vertices_counter++;
     }
     if (elem_vertices_counter == n_vertices)
       (*elem_it)->subdomain_id() = block_id_to_remove;
     else
     {
       // Check if any elements to be processed are not first order
       if ((*elem_it)->default_order() != Order::FIRST)
         mooseError("Only first order elements are supported for cutting.");
       cross_and_remained_elems_pre_convert.push_back(
           std::make_pair((*elem_it)->id(), elem_vertices_counter > 0));
     }
   }
 
   std::vector<dof_id_type> converted_elems_ids_to_cut;
   // Then convert these non-TET4 elements into TET4 elements
   MooseMeshElementConversionUtils::convert3DMeshToAllTet4(mesh,
                                                           cross_and_remained_elems_pre_convert,
                                                           converted_elems_ids_to_cut,
                                                           block_id_to_remove,
                                                           false);
 
   std::vector<const Node *> new_on_plane_nodes;
   // We build the sideset information now, as we only need the information of the elements before
   // cutting
   BoundaryInfo & boundary_info = mesh.get_boundary_info();
   const auto bdry_side_list = boundary_info.build_side_list();
   // Cut the TET4 Elements
   for (const auto & converted_elems_id_to_cut : converted_elems_ids_to_cut)
   {
     tet4ElemCutter(
         mesh, bdry_side_list, converted_elems_id_to_cut, block_id_to_remove, new_on_plane_nodes);
   }
 
   // Delete the block to remove
   for (auto elem_it = mesh.active_subdomain_elements_begin(block_id_to_remove);
        elem_it != mesh.active_subdomain_elements_end(block_id_to_remove);
        elem_it++)
     mesh.delete_elem(*elem_it);
 
   mesh.contract();
   mesh.set_isnt_prepared();
   return std::move(_input);
 }

◆ generateData()

void MeshGenerator::generateData ( )

protectedvirtualinherited

Generate the mesh data.

Reimplemented in AddMetaDataGenerator.

Definition at line 424 of file MeshGenerator.C.

Referenced by MeshGenerator::generateInternal().

 {
   mooseAssert(!hasGenerateData(), "Inconsistent flag");
   mooseError("This MeshGenerator does not have a generateData() implementation.");
 }

◆ generateInternal()

std::unique_ptr< MeshBase > MeshGenerator::generateInternal ( )

inherited

Internal generation method - this is what is actually called within MooseApp to execute the MeshGenerator.

Definition at line 260 of file MeshGenerator.C.

 {
   libmesh_parallel_only(comm());
   mooseAssert(comm().verify(type() + name()), "Inconsistent execution ordering");
 
   if (hasGenerateData())
     generateData();
 
   if (isDataOnly())
     return nullptr;
 
   auto mesh = generate();
   if (!mesh)
     mooseError("A mesh was not generated by this generator (it was nullptr).");
 
   for (const auto & [requested_name, requested_mesh] : _requested_meshes)
     if (*requested_mesh)
       mooseError(
           "The mesh from input ",
           _app.getMeshGenerator(requested_name).type(),
           " '",
           _app.getMeshGenerator(requested_name).name(),
           "' was not moved.\n\nThe MeshGenerator system requires that the memory from all input "
           "meshes\nare managed by the requesting MeshGenerator during the generate phase.\n\nThis "
           "is achieved with a std::move() operation within the generate() method.");
 
   if (getParam<bool>("show_info"))
   {
     const auto mesh_info = mesh->get_info(/* verbosity = */ 2);
 
     // We will prefix all information with "type() 'name()':" because this could potentially
     // output a ton of information and looks a bit better with a prefix
     std::stringstream oss;
     const auto split = MooseUtils::split(mesh_info, "\n");
     if (split.size())
       for (std::size_t i = 0; i < split.size() - 1; ++i) // ignore the last line break
         oss << COLOR_CYAN << "" << type() << " '" << name() << "': " << COLOR_DEFAULT << split[i]
             << std::endl;
     _console << oss.str() << std::flush;
   }
 
   // output the current mesh block to file
   if (hasOutput())
   {
     if (!mesh->is_prepared())
       mesh->prepare_for_use();
 
     if (!getParam<bool>("nemesis"))
     {
       libMesh::ExodusII_IO exio(*mesh);
 
       if (mesh->mesh_dimension() == 1)
         exio.write_as_dimension(3);
 
       // Default to non-HDF5 output for wider compatibility
       exio.set_hdf5_writing(false);
 
       exio.write(name() + "_in.e");
     }
     else
     {
       libMesh::Nemesis_IO nemesis_io(*mesh);
 
       // Default to non-HDF5 output for wider compatibility
       nemesis_io.set_hdf5_writing(false);
 
       nemesis_io.write(name() + "_in.e");
     }
   }
 
   return mesh;
 }

◆ getCheckedPointerParam()

template<typename T >

T MooseBaseParameterInterface::getCheckedPointerParam	(	const std::string &	name,
		const std::string &	error_string = `""`
	)		const

inherited

Verifies that the requested parameter exists and is not NULL and returns it to the caller.

The template parameter must be a pointer or an error will be thrown.

Definition at line 286 of file MooseBaseParameterInterface.h.

 {
   return parameters().getCheckedPointerParam<T>(name, error_string);
 }

◆ getChildMeshGenerators()

const std::set<const MeshGenerator *, Comparator>& MeshGenerator::getChildMeshGenerators ( ) const

inlineinherited

Gets the MeshGenerators that are children to this MeshGenerator.

Definition at line 129 of file MeshGenerator.h.

Referenced by MeshGenerator::isChildMeshGenerator().

   {
     return _child_mesh_generators;
   }

◆ getDataFileName()

std::string DataFileInterface::getDataFileName ( const std::string & param ) const

inherited

Deprecated method.

The data file paths are now automatically set within the InputParameters object, so using getParam<DataFileName>("param_name") is now sufficient.

Definition at line 21 of file DataFileInterface.C.

 {
   _parent.mooseDeprecated("getDataFileName() is deprecated. The file path is now directly set "
                           "within the InputParameters.\nUse getParam<DataFileName>(\"",
                           param,
                           "\") instead.");
   return _parent.getParam<DataFileName>(param);
 }

◆ getDataFileNameByName()

std::string DataFileInterface::getDataFileNameByName ( const std::string & relative_path ) const

inherited

Deprecated method.

Use getDataFilePath() instead.

Definition at line 31 of file DataFileInterface.C.

 {
   _parent.mooseDeprecated("getDataFileNameByName() is deprecated. Use getDataFilePath(\"",
                           relative_path,
                           "\") instead.");
   return getDataFilePath(relative_path);
 }

◆ getDataFilePath()

std::string DataFileInterface::getDataFilePath ( const std::string & relative_path ) const

inherited

Returns the path of a data file for a given relative file path.

This can be used for hardcoded datafile names and will search the same locations as getDataFileName

Definition at line 40 of file DataFileInterface.C.

Referenced by DataFileInterface::getDataFileNameByName().

 {
   // This should only ever be used with relative paths. There is no point to
   // use this search path with an absolute path.
   if (std::filesystem::path(relative_path).is_absolute())
     _parent.mooseWarning("While using getDataFilePath(\"",
                          relative_path,
                          "\"): This API should not be used for absolute paths.");
 
   // Throw on error so that if getPath() fails, we can throw an error
   // with the context of _parent.mooseError()
   const auto throw_on_error_before = Moose::_throw_on_error;
   Moose::_throw_on_error = true;
   std::optional<std::string> error;
 
   // This will search the data paths for this relative path
   Moose::DataFileUtils::Path found_path;
   try
   {
     found_path = Moose::DataFileUtils::getPath(relative_path);
   }
   catch (std::exception & e)
   {
     error = e.what();
   }
 
   Moose::_throw_on_error = throw_on_error_before;
   if (error)
     _parent.mooseError(*error);
 
   mooseAssert(found_path.context == Moose::DataFileUtils::Context::DATA,
               "Should only ever obtain data");
   mooseAssert(found_path.data_name, "Should be set");
 
   const std::string msg =
       "Using data file '" + found_path.path + "' from " + *found_path.data_name + " data";
   _parent.mooseInfo(msg);
 
   return found_path.path;
 }

◆ getMesh()

std::unique_ptr< MeshBase > & MeshGenerator::getMesh	(	const std::string &	param_name,
		const bool	allow_invalid = `false`
	)

protectedinherited

Takes the name of a MeshGeneratorName parameter and then gets a pointer to the Mesh that MeshGenerator is going to create.

That MeshGenerator is made to be a dependency of this one, so will generate() its mesh first.

Parameters

param_name	The name of the parameter that contains the name of the MeshGenerator
allow_invalid	If true, will allow for invalid parameters and will return a nullptr mesh if said parameter does not exist

Returns: The Mesh generated by that MeshGenerator

NOTE: You MUST catch this by reference!

Definition at line 172 of file MeshGenerator.C.

 {
   const MeshGeneratorName * name = getMeshGeneratorNameFromParam(param_name, allow_invalid);
   if (!name)
     return _null_mesh;
   return getMeshByName(*name);
 }

◆ getMeshByName()

std::unique_ptr< MeshBase > & MeshGenerator::getMeshByName ( const MeshGeneratorName & mesh_generator_name )

protectedinherited

Like getMesh(), but takes the name of another MeshGenerator directly.

NOTE: You MUST catch this by reference!

Returns: The Mesh generated by that MeshGenerator

Definition at line 187 of file MeshGenerator.C.

Referenced by MeshGenerator::getMesh(), MeshGenerator::getMeshesByName(), OverlayMeshGenerator::OverlayMeshGenerator(), and SideSetExtruderGenerator::SideSetExtruderGenerator().

 {
   checkGetMesh(mesh_generator_name, "");
   if (isNullMeshName(mesh_generator_name))
     return _null_mesh;
 
   _requested_mesh_generators.insert(mesh_generator_name);
   auto & mesh = _app.getMeshGeneratorSystem().getMeshGeneratorOutput(mesh_generator_name);
   _requested_meshes.emplace_back(mesh_generator_name, &mesh);
   return mesh;
 }

◆ getMeshes()

std::vector< std::unique_ptr< MeshBase > * > MeshGenerator::getMeshes ( const std::string & param_name )

protectedinherited

Like getMesh(), but for multiple generators.

Returns: The generated meshes

Definition at line 181 of file MeshGenerator.C.

 {
   return getMeshesByName(getMeshGeneratorNamesFromParam(param_name));
 }

◆ getMeshesByName()

std::vector< std::unique_ptr< MeshBase > * > MeshGenerator::getMeshesByName ( const std::vector< MeshGeneratorName > & mesh_generator_names )

protectedinherited

Like getMeshByName(), but for multiple generators.

Returns: The generated meshes

Definition at line 200 of file MeshGenerator.C.

Referenced by MeshGenerator::getMeshes().

 {
   std::vector<std::unique_ptr<MeshBase> *> meshes;
   for (const auto & name : mesh_generator_names)
     meshes.push_back(&getMeshByName(name));
   return meshes;
 }

◆ getMeshProperty() [1/2]

template<typename T >

const T & MeshMetaDataInterface::getMeshProperty	(	const std::string &	data_name,
		const std::string &	prefix
	)

protectedinherited

Method for retrieving a property with the given type and name exists in the mesh meta-data store.

This method will throw an error if the property does not exist.

Definition at line 134 of file MeshMetaDataInterface.h.

 {
   if (!hasMeshProperty(data_name, prefix))
     mooseErrorInternal("Failed to get mesh property '", prefix, "/", data_name, "'");
 
   auto value = &getMeshPropertyInternal(data_name, prefix);
   mooseAssert(value->declared(), "Value has not been declared");
   const RestartableData<T> * T_value = dynamic_cast<const RestartableData<T> *>(value);
   if (!T_value)
     mooseErrorInternal("While retrieving mesh property '",
                        prefix,
                        "/",
                        data_name,
                        "' with type '",
                        MooseUtils::prettyCppType<T>(),
                        "',\nthe property exists with different type '",
                        value->type(),
                        "'");
   return T_value->get();
 }

◆ getMeshProperty() [2/2]

template<typename T >

const T& MeshMetaDataInterface::getMeshProperty ( const std::string & data_name )

inlineprotectedinherited

Definition at line 56 of file MeshMetaDataInterface.h.

   {
     return getMeshProperty<T>(data_name, meshPropertyPrefix(data_name));
   }

◆ getMooseApp()

MooseApp& MooseBase::getMooseApp ( ) const

inlineinherited

Get the MooseApp this class is associated with.

Definition at line 45 of file MooseBase.h.

Referenced by ChainControlSetupAction::act(), AddDefaultConvergenceAction::addDefaultMultiAppFixedPointConvergence(), AddDefaultConvergenceAction::addDefaultNonlinearConvergence(), FEProblemBase::advanceState(), ParsedChainControl::buildFunction(), ReporterTransferInterface::checkHasReporterValue(), AddDefaultConvergenceAction::checkUnusedMultiAppFixedPointConvergenceParameters(), AddDefaultConvergenceAction::checkUnusedNonlinearConvergenceParameters(), Coupleable::checkWritableVar(), ComponentPhysicsInterface::ComponentPhysicsInterface(), MooseBaseParameterInterface::connectControllableParams(), Coupleable::Coupleable(), MortarData::createMortarInterface(), EigenProblem::doFreeNonlinearPowerIterations(), Terminator::execute(), FEProblemSolve::FEProblemSolve(), SolutionInvalidInterface::flagInvalidSolutionInternal(), ChainControl::getChainControlDataSystem(), DefaultConvergenceBase::getSharedExecutionerParam(), ChainControlDataPostprocessor::initialSetup(), MaterialPropertyInterface::MaterialPropertyInterface(), MooseVariableDataFV< OutputType >::MooseVariableDataFV(), ProgressOutput::output(), PetscOutputInterface::petscLinearOutput(), PetscOutputInterface::petscNonlinearOutput(), PetscOutputInterface::PetscOutputInterface(), PostprocessorInterface::postprocessorsAdded(), MultiApp::preTransfer(), Reporter::Reporter(), ReporterInterface::reportersAdded(), and VectorPostprocessorInterface::vectorPostprocessorsAdded().

45 { return _app; }

MooseBase::_app

MooseApp & _app

The MOOSE application this is associated with.

Definition: MooseBase.h:84

◆ getParam() [1/2]

template<typename T >

const T & MooseBaseParameterInterface::getParam ( const std::string & name ) const

inherited

Retrieve a parameter for the object.

Parameters

name	The name of the parameter

Returns: The value of the parameter

Definition at line 215 of file MooseBaseParameterInterface.h.

 {
   return InputParameters::getParamHelper(name, _pars, static_cast<T *>(0), &_moose_base);
 }

◆ getParam() [2/2]

template<typename T1 , typename T2 >

std::vector< std::pair< T1, T2 > > MooseBaseParameterInterface::getParam	(	const std::string &	param1,
		const std::string &	param2
	)		const

inherited

Retrieve two parameters and provide pair of parameters for the object.

Parameters

param1	The name of first parameter
param2	The name of second parameter

Returns: Vector of pairs of first and second parameters

Definition at line 279 of file MooseBaseParameterInterface.h.

 {
   return _pars.get<T1, T2>(param1, param2);
 }

◆ getParentMeshGenerators()

const std::set<const MeshGenerator *, Comparator>& MeshGenerator::getParentMeshGenerators ( ) const

inlineinherited

Gets the MeshGenerators that are parents to this MeshGenerator.

Definition at line 122 of file MeshGenerator.h.

Referenced by MeshGeneratorSystem::createMeshGeneratorOrder(), and MeshGenerator::isParentMeshGenerator().

   {
     return _parent_mesh_generators;
   }

◆ getRenamedParam()

template<typename T >

const T & MooseBaseParameterInterface::getRenamedParam	(	const std::string &	old_name,
		const std::string &	new_name
	)		const

inherited

Retrieve a renamed parameter for the object.

This helper makes sure we check both names before erroring, and that only one parameter is passed to avoid silent errors

Parameters

old_name	the old name for the parameter
new_name	the new name for the parameter

Definition at line 229 of file MooseBaseParameterInterface.h.

 {
   // this enables having a default on the new parameter but bypassing it with the old one
   // Most important: accept new parameter
   if (isParamSetByUser(new_name) && !isParamValid(old_name))
     return InputParameters::getParamHelper(new_name, _pars, static_cast<T *>(0), &_moose_base);
   // Second most: accept old parameter
   else if (isParamValid(old_name) && !isParamSetByUser(new_name))
     return InputParameters::getParamHelper(old_name, _pars, static_cast<T *>(0), &_moose_base);
   // Third most: accept default for new parameter
   else if (isParamValid(new_name) && !isParamValid(old_name))
     return InputParameters::getParamHelper(new_name, _pars, static_cast<T *>(0), &_moose_base);
   // Refuse: no default, no value passed
   else if (!isParamValid(old_name) && !isParamValid(new_name))
     mooseError(_pars.blockFullpath() + ": parameter '" + new_name +
                "' is being retrieved without being set.\n"
                "Did you misspell it?");
   // Refuse: both old and new parameters set by user
   else
     mooseError(_pars.blockFullpath() + ": parameter '" + new_name +
                "' may not be provided alongside former parameter '" + old_name + "'");
 }

◆ getRequestedMeshGenerators()

const std::set<MeshGeneratorName>& MeshGenerator::getRequestedMeshGenerators ( ) const

inlineinherited

Returns: The names of the MeshGenerators that were requested in the getMesh methods

Definition at line 80 of file MeshGenerator.h.

   {
     return _requested_mesh_generators;
   }

◆ getRequestedMeshGeneratorsForSub()

const std::set<MeshGeneratorName>& MeshGenerator::getRequestedMeshGeneratorsForSub ( ) const

inlineinherited

Returns: The names of the MeshGenerators that were requested in the declareMeshForSub methods

Definition at line 88 of file MeshGenerator.h.

   {
     return _requested_mesh_generators_for_sub;
   }

◆ getSavedMeshName()

const std::string & MeshGenerator::getSavedMeshName ( ) const

inherited

Return the name of the saved mesh.

Definition at line 418 of file MeshGenerator.C.

 {
   return _save_with_name;
 }

◆ getSharedPtr() [1/2]

std::shared_ptr< MooseObject > MooseObject::getSharedPtr ( )

inherited

Get another shared pointer to this object that has the same ownership group.

Wrapper around shared_from_this().

Definition at line 68 of file MooseObject.C.

Referenced by MFEMProblem::addBoundaryCondition(), MFEMProblem::addKernel(), and MFEMProblem::addMFEMSolver().

 {
   try
   {
     return shared_from_this();
   }
   catch (std::bad_weak_ptr &)
   {
     mooseError(not_shared_error);
   }
 }

◆ getSharedPtr() [2/2]

std::shared_ptr< const MooseObject > MooseObject::getSharedPtr ( ) const

inherited

Definition at line 81 of file MooseObject.C.

 {
   try
   {
     return shared_from_this();
   }
   catch (std::bad_weak_ptr &)
   {
     mooseError(not_shared_error);
   }
 }

◆ getSubMeshGenerators()

const std::set<const MeshGenerator *, Comparator>& MeshGenerator::getSubMeshGenerators ( ) const

inlineinherited

Gets the MeshGenerators that are children to this MeshGenerator.

Definition at line 136 of file MeshGenerator.h.

   {
     return _sub_mesh_generators;
   }

◆ hasGenerateData() [1/2]

bool MeshGenerator::hasGenerateData ( const InputParameters & params )

staticinherited

Returns: Whether or not the mesh generator noted by the given parameters has a generateData() implementation

Definition at line 86 of file MeshGenerator.C.

 {
   return params.get<bool>("_has_generate_data");
 }

◆ hasGenerateData() [2/2]

bool MeshGenerator::hasGenerateData ( ) const

inlineinherited

Returns: Whether or not this generator has a generateData() implementation

Definition at line 185 of file MeshGenerator.h.

Referenced by MeshGenerator::generateData(), MeshGenerator::generateInternal(), MeshGenerator::hasGenerateData(), and MeshGenerator::MeshGenerator().

185 { return hasGenerateData(_pars); }

MeshGenerator::hasGenerateData

bool hasGenerateData() const

Definition: MeshGenerator.h:185

MooseBaseParameterInterface::_pars

const InputParameters & _pars

Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

Definition: MooseBaseParameterInterface.h:173

◆ hasMeshProperty() [1/4]

bool MeshMetaDataInterface::hasMeshProperty	(	const std::string &	data_name,
		const std::string &	prefix
	)		const

protectedinherited

Returns: Whether or not a mesh meta-data exists.

Definition at line 25 of file MeshMetaDataInterface.C.

Referenced by MeshGenerator::declareMeshProperty(), MeshMetaDataInterface::getMeshProperty(), MeshMetaDataInterface::hasMeshProperty(), and MeshGenerator::setMeshProperty().

 {
   return _meta_data_app.hasRestartableMetaData(meshPropertyName(data_name, prefix),
                                                MooseApp::MESH_META_DATA);
 }

◆ hasMeshProperty() [2/4]

template<typename T >

bool MeshMetaDataInterface::hasMeshProperty	(	const std::string &	data_name,
		const std::string &	prefix
	)		const

protectedinherited

Returns: Whether or not a mesh meta-data exists with the given type.

Definition at line 158 of file MeshMetaDataInterface.h.

 {
   if (!hasMeshProperty(data_name, prefix))
     return false;
   const auto & value = getMeshPropertyInternal(data_name, prefix);
   return dynamic_cast<const RestartableData<T> *>(&value) != nullptr;
 }

◆ hasMeshProperty() [3/4]

bool MeshMetaDataInterface::hasMeshProperty ( const std::string & data_name ) const

inlineprotectedinherited

Returns: Whether or not a mesh meta-data exists with the default prefix.

Definition at line 74 of file MeshMetaDataInterface.h.

   {
     return hasMeshProperty(data_name, meshPropertyPrefix(data_name));
   }

◆ hasMeshProperty() [4/4]

template<typename T >

bool MeshMetaDataInterface::hasMeshProperty ( const std::string & data_name ) const

inlineprotectedinherited

Returns: Whether or not a mesh meta-data exists with the default prefix and the given type.

Definition at line 82 of file MeshMetaDataInterface.h.

   {
     return hasMeshProperty<T>(data_name, meshPropertyPrefix(data_name));
   }

◆ hasOutput()

bool MeshGenerator::hasOutput ( ) const

inherited

Returns: Whether or not to output this mesh generator separately (output parameter is set)

Definition at line 412 of file MeshGenerator.C.

Referenced by MeshGeneratorSystem::createMeshGeneratorOrder(), and MeshGenerator::generateInternal().

 {
   return getParam<bool>("output");
 }

◆ hasSaveMesh()

bool MeshGenerator::hasSaveMesh ( ) const

inherited

Return whether or not to save the current mesh.

Definition at line 406 of file MeshGenerator.C.

Referenced by MeshGeneratorSystem::createMeshGeneratorOrder(), and MeshGenerator::MeshGenerator().

 {
   return _save_with_name.size();
 }

◆ isChildMeshGenerator()

bool MeshGenerator::isChildMeshGenerator	(	const MeshGeneratorName &	name,
		const bool	direct = `true`
	)		const

inherited

Returns: Whether or not the MeshGenerator with the name name is a child of this MeshGenerator.

If direct = true, check only immediate children of this generator. Otherwise, check all children.

Definition at line 385 of file MeshGenerator.C.

Referenced by MeshGeneratorSystem::createMeshGeneratorOrder().

 {
   return std::find_if(getChildMeshGenerators().begin(),
                       getChildMeshGenerators().end(),
                       [&name, &direct](const auto & mg)
                       {
                         return mg->name() == name ||
                                (!direct && mg->isChildMeshGenerator(name, /* direct = */ false));
                       }) != getChildMeshGenerators().end();
 }

◆ isDataOnly()

bool MeshGenerator::isDataOnly ( ) const

inlineinherited

Returns: Whether or not this generator is to be generated in data-only mode

Definition at line 190 of file MeshGenerator.h.

Referenced by MeshGenerator::addMeshSubgenerator(), MeshGenerator::generateInternal(), and MeshGenerator::MeshGenerator().

190 { return _data_only; }

MeshGenerator::_data_only

const bool _data_only

Whether or not this mesh generator will run in data only mode.

Definition: MeshGenerator.h:450

◆ isNullMeshName()

bool MeshGenerator::isNullMeshName ( const MeshGeneratorName & name ) const

inlineinherited

Returns: Whether or not the name name is registered as a "null" mesh, that is, a MeshGenerator that will not represent an input mesh when requested via getMesh.

See declareNullMeshName().

Definition at line 165 of file MeshGenerator.h.

Referenced by MeshGenerator::checkGetMesh(), MeshGenerator::declareMeshForSubByName(), and MeshGenerator::getMeshByName().

165 { return _null_mesh_names.count(name); }

MeshGenerator::_null_mesh_names

std::set< std::string > _null_mesh_names

The declared "null" mesh names that will not represent a mesh in input; see declareNullMeshName() ...

Definition: MeshGenerator.h:444

MooseBase::name

virtual const std::string & name() const

Get the name of the class.

Definition: MooseBase.h:57

◆ isParamSetByUser()

bool MooseBaseParameterInterface::isParamSetByUser ( const std::string & nm ) const

inlineinherited

Test if the supplied parameter is set by a user, as opposed to not set or set to default.

Parameters

nm	The name of the parameter to test

Definition at line 128 of file MooseBaseParameterInterface.h.

Referenced by SetupDebugAction::act(), ADConservativeAdvectionBC::ADConservativeAdvectionBC(), DiffusionCG::addFEBCs(), DiffusionPhysicsBase::addInitialConditions(), MFEMMesh::buildMesh(), LibtorchNeuralNetControl::conditionalParameterError(), DiffusionPhysicsBase::DiffusionPhysicsBase(), ElementSubdomainModifierBase::ElementSubdomainModifierBase(), MooseBaseParameterInterface::getRenamedParam(), DefaultConvergenceBase::getSharedExecutionerParam(), AddVariableAction::init(), PhysicsBase::initializePhysics(), ElementSubdomainModifierBase::initialSetup(), MatrixSymmetryCheck::MatrixSymmetryCheck(), MeshDiagnosticsGenerator::MeshDiagnosticsGenerator(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), SolutionInvalidityOutput::output(), Output::Output(), MultiAppGeneralFieldTransfer::outputValueConflicts(), PetscExternalPartitioner::partition(), PiecewiseTabularBase::PiecewiseTabularBase(), MooseMesh::prepare(), SolutionUserObjectBase::readXda(), PhysicsBase::reportPotentiallyMissedParameters(), MFEMSolverBase::setPreconditioner(), SideSetsFromBoundingBoxGenerator::SideSetsFromBoundingBoxGenerator(), TimedSubdomainModifier::TimedSubdomainModifier(), and XYDelaunayGenerator::XYDelaunayGenerator().

128 { return _pars.isParamSetByUser(nm); }

InputParameters::isParamSetByUser

bool isParamSetByUser(const std::string &name) const

Method returns true if the parameter was set by the user.

Definition: InputParameters.C:1178

MooseBaseParameterInterface::_pars

const InputParameters & _pars

Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

Definition: MooseBaseParameterInterface.h:173

◆ isParamValid()

bool MooseBaseParameterInterface::isParamValid ( const std::string & name ) const

inlineinherited

Test if the supplied parameter is valid.

Parameters

name	The name of the parameter to test

Definition at line 122 of file MooseBaseParameterInterface.h.

122 { return _pars.isParamValid(name); }

MooseBaseParameterInterface::_pars

const InputParameters & _pars

Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

Definition: MooseBaseParameterInterface.h:173

InputParameters::isParamValid

bool isParamValid(const std::string &name) const

This method returns parameters that have been initialized in one fashion or another, i.e.

Definition: InputParameters.C:390

◆ isParentMeshGenerator()

bool MeshGenerator::isParentMeshGenerator	(	const MeshGeneratorName &	name,
		const bool	direct = `true`
	)		const

inherited

Returns: Whether or not the MeshGenerator with the name name is a parent of this MeshGenerator.

If direct = true, check only immediate parents of this generator. Otherwise, check all parents.

Definition at line 372 of file MeshGenerator.C.

 {
   return std::find_if(getParentMeshGenerators().begin(),
                       getParentMeshGenerators().end(),
                       [&name, &direct](const auto & mg)
                       {
                         return mg->name() == name ||
                                (!direct && mg->isParentMeshGenerator(name, /* direct = */ false));
                       }) != getParentMeshGenerators().end();
 }

◆ levelSetEvaluator()

Real CutMeshByLevelSetGeneratorBase::levelSetEvaluator ( const Point & point )

protectedinherited

Evaluate the level set function at a given point.

Parameters

point The point at which the level set function is to be evaluated

Returns: the value of the level set function at the given point

Definition at line 505 of file CutMeshByLevelSetGeneratorBase.C.

Referenced by CutMeshByLevelSetGeneratorBase::pointLevelSetRelation(), CutMeshByLevelSetGeneratorBase::pointPairLevelSetInterception(), and CutMeshByLevelSetGeneratorBase::tet4ElemCutter().

 {
   _func_params[0] = point(0);
   _func_params[1] = point(1);
   _func_params[2] = point(2);
   return evaluate(_func_level_set);
 }

◆ meshPropertyName() [1/2]

std::string MeshMetaDataInterface::meshPropertyName	(	const std::string &	data_name,
		const std::string &	prefix
	)

staticprotectedinherited

Returns: The full name for mesh property data.

Definition at line 33 of file MeshMetaDataInterface.C.

Referenced by MeshGenerator::declareMeshProperty(), MeshMetaDataInterface::getMeshPropertyInternal(), MeshMetaDataInterface::hasMeshProperty(), MeshMetaDataInterface::meshPropertyName(), and MeshGenerator::setMeshPropertyHelper().

 {
   return std::string(SYSTEM) + "/" + prefix + "/" + data_name;
 }

◆ meshPropertyName() [2/2]

std::string MeshMetaDataInterface::meshPropertyName ( const std::string & data_name ) const

inlineprotectedinherited

Returns: The default mesh property name for mesh property data

Definition at line 95 of file MeshMetaDataInterface.h.

   {
     return meshPropertyName(data_name, meshPropertyPrefix(data_name));
   }

◆ mooseDeprecated()

template<typename... Args>

void MooseBaseErrorInterface::mooseDeprecated ( Args &&... args ) const

inlineinherited

Definition at line 91 of file MooseBaseErrorInterface.h.

Referenced by FEProblemBase::addAuxArrayVariable(), FEProblemBase::addAuxScalarVariable(), FEProblemBase::addAuxVariable(), FEProblemBase::advanceMultiApps(), MultiApp::appProblem(), MooseMesh::buildSideList(), ChangeOverTimestepPostprocessor::ChangeOverTimestepPostprocessor(), AddVariableAction::determineType(), EigenProblem::EigenProblem(), Eigenvalue::Eigenvalue(), MooseMesh::elem(), UserForcingFunction::f(), FaceFaceConstraint::FaceFaceConstraint(), FunctionDT::FunctionDT(), RandomICBase::generateRandom(), MooseMesh::getBoundariesToElems(), DataFileInterface::getDataFileName(), DataFileInterface::getDataFileNameByName(), Control::getExecuteOptions(), FEProblemBase::getNonlinearSystem(), FEProblemBase::getUserObjects(), FEProblemBase::hasPostprocessor(), MatDiffusionBase< Real >::MatDiffusionBase(), MultiAppNearestNodeTransfer::MultiAppNearestNodeTransfer(), MultiAppShapeEvaluationTransfer::MultiAppShapeEvaluationTransfer(), MultiAppUserObjectTransfer::MultiAppUserObjectTransfer(), NodalScalarKernel::NodalScalarKernel(), MooseMesh::node(), FixedPointSolve::numPicardIts(), RelationshipManager::operator>=(), PercentChangePostprocessor::PercentChangePostprocessor(), ReferenceResidualConvergence::ReferenceResidualConvergence(), Residual::Residual(), MooseMesh::setBoundaryToNormalMap(), Exodus::setOutputDimension(), and UserForcingFunction::UserForcingFunction().

   {
     moose::internal::mooseDeprecatedStream(
         _console, false, true, _moose_base.errorPrefix("deprecation"), std::forward<Args>(args)...);
   }

◆ mooseDocumentedError()

template<typename... Args>

void MooseBaseErrorInterface::mooseDocumentedError	(	const std::string &	repo_name,
		const unsigned int	issue_num,
		Args &&...	args
	)		const

inlineinherited

Emits a documented error with object name and type.

Documented errors are errors that have an issue associated with them.

The repository name repo_name links a named repository to a URL and should be registered at the application level with registerRepository(). See Moose.C for an example of the "moose" repository registration.

Parameters

repo_name	The repository name where the issue resides
issue_num	The number of the issue
args	The error message to be combined

Definition at line 61 of file MooseBaseErrorInterface.h.

Referenced by ArrayDGLowerDKernel::ArrayDGLowerDKernel(), ArrayHFEMDirichletBC::ArrayHFEMDirichletBC(), ArrayLowerDIntegratedBC::ArrayLowerDIntegratedBC(), DGLowerDKernel::DGLowerDKernel(), HFEMDirichletBC::HFEMDirichletBC(), and LowerDIntegratedBC::LowerDIntegratedBC().

   {
     std::ostringstream oss;
     moose::internal::mooseStreamAll(oss, std::forward<Args>(args)...);
     const auto msg = moose::internal::formatMooseDocumentedError(repo_name, issue_num, oss.str());
     _moose_base.callMooseError(msg, /* with_prefix = */ true);
   }

◆ mooseError()

template<typename... Args>

void MooseBaseErrorInterface::mooseError ( Args &&... args ) const

inlineinherited

Emits an error prefixed with object name and type.

Definition at line 29 of file MooseBaseErrorInterface.h.

   {
     std::ostringstream oss;
     moose::internal::mooseStreamAll(oss, std::forward<Args>(args)...);
     _moose_base.callMooseError(oss.str(), /* with_prefix = */ true);
   }

◆ mooseErrorNonPrefixed()

template<typename... Args>

void MooseBaseErrorInterface::mooseErrorNonPrefixed ( Args &&... args ) const

inlineinherited

Emits an error without the prefixing included in mooseError().

Definition at line 40 of file MooseBaseErrorInterface.h.

   {
     std::ostringstream oss;
     moose::internal::mooseStreamAll(oss, std::forward<Args>(args)...);
     _moose_base.callMooseError(oss.str(), /* with_prefix = */ false);
   }

◆ mooseInfo()

template<typename... Args>

void MooseBaseErrorInterface::mooseInfo ( Args &&... args ) const

inlineinherited

Definition at line 98 of file MooseBaseErrorInterface.h.

Referenced by SetupRecoverFileBaseAction::act(), AStableDirk4::AStableDirk4(), MeshDiagnosticsGenerator::checkNonConformalMeshFromAdaptivity(), MultiAppGeneralFieldNearestLocationTransfer::evaluateInterpValuesNearestNode(), PIDTransientControl::execute(), ExplicitRK2::ExplicitRK2(), ExplicitTVDRK2::ExplicitTVDRK2(), DataFileInterface::getDataFilePath(), MFEMScalarFESpace::getFECName(), MultiAppTransfer::getPointInTargetAppFrame(), ImplicitMidpoint::ImplicitMidpoint(), ParsedDownSelectionPositions::initialize(), PropertyReadFile::initialize(), MultiAppGeneralFieldTransfer::initialSetup(), InversePowerMethod::InversePowerMethod(), LStableDirk2::LStableDirk2(), LStableDirk3::LStableDirk3(), LStableDirk4::LStableDirk4(), PNGOutput::makeMeshFunc(), NonlinearEigen::NonlinearEigen(), SolutionInvalidityOutput::output(), MultiAppGeneralFieldTransfer::outputValueConflicts(), ProjectionAux::ProjectionAux(), ReferenceResidualConvergence::ReferenceResidualConvergence(), MFEMDataCollection::registerFields(), FEProblemBase::setRestartFile(), SolutionUserObjectBase::SolutionUserObjectBase(), and SymmetryTransformGenerator::SymmetryTransformGenerator().

   {
     moose::internal::mooseInfoStream(
         _console, _moose_base.errorPrefix("information"), std::forward<Args>(args)...);
   }

◆ mooseWarning()

template<typename... Args>

void MooseBaseErrorInterface::mooseWarning ( Args &&... args ) const

inlineinherited

Emits a warning prefixed with object name and type.

Definition at line 75 of file MooseBaseErrorInterface.h.

Referenced by CopyMeshPartitioner::_do_partition(), AddKernelAction::act(), MeshOnlyAction::act(), AddFunctionAction::act(), MaterialOutputAction::act(), CommonOutputAction::act(), MFEMProblem::addFunction(), MooseMesh::addPeriodicVariable(), DiracKernelBase::addPoint(), BoundaryMarker::BoundaryMarker(), DistributedRectilinearMeshGenerator::buildCube(), MultiAppVariableValueSamplePostprocessorTransfer::cacheElemToPostprocessorData(), CartesianMeshGenerator::CartesianMeshGenerator(), CheckOutputAction::checkConsoleOutput(), MultiAppTransfer::checkMultiAppExecuteOn(), MeshDiagnosticsGenerator::checkNonMatchingEdges(), ActionComponent::checkRequiredTasks(), PhysicsBase::checkRequiredTasks(), SampledOutput::cloneMesh(), MultiAppGeneralFieldTransfer::closestToPosition(), VariableValueElementSubdomainModifier::computeSubdomainID(), GapValueAux::computeValue(), MultiApp::createApp(), DebugResidualAux::DebugResidualAux(), MeshDiagnosticsGenerator::diagnosticsLog(), CylindricalGridDivision::divisionIndex(), SphericalGridDivision::divisionIndex(), CartesianGridDivision::divisionIndex(), ElementMaterialSampler::ElementMaterialSampler(), Postprocessor::evaluateDotWarning(), MeshDivisionFunctorReductionVectorPostprocessor::execute(), ElementQualityChecker::finalize(), FiniteDifferencePreconditioner::FiniteDifferencePreconditioner(), FixedPointSolve::FixedPointSolve(), SubdomainPerElementGenerator::generate(), StitchedMeshGenerator::generate(), ParsedGenerateSideset::generate(), MultiAppTransfer::getAppInfo(), FunctorBinnedValuesDivision::getBinIndex(), DataFileInterface::getDataFilePath(), PointSamplerBase::getLocalElemContainingPoint(), FEProblemBase::getMaterial(), LineValueSampler::getValue(), Terminator::handleMessage(), IndicatorMarker::IndicatorMarker(), SphericalGridDivision::initialize(), CylindricalGridDivision::initialize(), ElementGroupCentroidPositions::initialize(), CartesianGridDivision::initialize(), MultiAppGeneralFieldNearestLocationTransfer::initialSetup(), BoundsBase::initialSetup(), ReferenceResidualConvergence::initialSetup(), MultiAppGeneralFieldTransfer::initialSetup(), FEProblemBase::initialSetup(), AdvancedOutput::initPostprocessorOrVectorPostprocessorLists(), MaterialBase::initStatefulProperties(), LeastSquaresFit::LeastSquaresFit(), IterationAdaptiveDT::limitDTToPostprocessorValue(), FEProblemBase::mesh(), MultiAppGeneralFieldTransfer::MultiAppGeneralFieldTransfer(), NewmarkBeta::NewmarkBeta(), NodalPatchRecovery::NodalPatchRecovery(), NonlocalIntegratedBC::NonlocalIntegratedBC(), NonlocalKernel::NonlocalKernel(), Output::Output(), MultiAppGeneralFieldTransfer::outputValueConflicts(), PiecewiseConstantFromCSV::PiecewiseConstantFromCSV(), Executioner::problem(), PropertyReadFile::readData(), TestSourceStepper::rejectStep(), PhysicsBase::reportPotentiallyMissedParameters(), MaterialBase::resetQpProperties(), SecondTimeDerivativeAux::SecondTimeDerivativeAux(), MooseMesh::setCoordSystem(), SidesetAroundSubdomainUpdater::SidesetAroundSubdomainUpdater(), FEProblemBase::sizeZeroes(), TransientMultiApp::solveStep(), Tecplot::Tecplot(), TimeDerivativeAux::TimeDerivativeAux(), Checkpoint::updateCheckpointFiles(), SampledOutput::updateSample(), PiecewiseConstantFromCSV::value(), and VariableCondensationPreconditioner::VariableCondensationPreconditioner().

   {
     moose::internal::mooseWarningStream(
         _console, _moose_base.errorPrefix("warning"), std::forward<Args>(args)...);
   }

◆ mooseWarningNonPrefixed()

template<typename... Args>

void MooseBaseErrorInterface::mooseWarningNonPrefixed ( Args &&... args ) const

inlineinherited

Emits a warning without the prefixing included in mooseWarning().

Definition at line 85 of file MooseBaseErrorInterface.h.

   {
     moose::internal::mooseWarningStream(_console, std::forward<Args>(args)...);
   }

◆ name()

virtual const std::string& MooseBase::name ( ) const

inlinevirtualinherited

Get the name of the class.

Returns: The name of the class

Reimplemented in MooseVariableBase.

Definition at line 57 of file MooseBase.h.

57 { return _name; }

MooseBase::_name

const std::string _name

The name of this class.

Definition: MooseBase.h:90

◆ nonDuplicateNodeCreator()

const Node * CutMeshByLevelSetGeneratorBase::nonDuplicateNodeCreator	(	ReplicatedMesh &	mesh,
		std::vector< const Node *> &	new_on_plane_nodes,
		const Point &	new_point
	)		const

protectedinherited

Check if a position on a plane has already been used as a node in the mesh.

If so, return the pointer to the existing node. If not, create a new node and return the pointer to the new node.

Parameters

mesh	The mesh to be modified
new_on_plane_nodes	A vector to record the pointers to the newly created nodes on the cutting plane
new_point	The position of the potential new node

Returns: a pointer to the existing node or the newly created node

Definition at line 216 of file CutMeshByLevelSetGeneratorBase.C.

Referenced by CutMeshByLevelSetGeneratorBase::tet4ElemCutter().

 {
   for (const auto & new_on_plane_node : new_on_plane_nodes)
   {
     if (MooseUtils::absoluteFuzzyEqual((*new_on_plane_node - new_point).norm(), 0.0))
       return new_on_plane_node;
   }
   new_on_plane_nodes.push_back(mesh.add_point(new_point));
   return new_on_plane_nodes.back();
 }

◆ paramError()

template<typename... Args>

void MooseBaseParameterInterface::paramError	(	const std::string &	param,
		Args...	args
	)		const

inherited

Emits an error prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message.

If this object's parameters were not created directly by the Parser, then this function falls back to the normal behavior of mooseError - only printing a message using the given args.

Definition at line 255 of file MooseBaseParameterInterface.h.

 {
   Moose::show_trace = false;
   _moose_base.callMooseError(paramErrorMsg(param, std::forward<Args>(args)...),
                              /* with_prefix = */ false);
   Moose::show_trace = true;
 }

◆ parameters()

const InputParameters& MooseBaseParameterInterface::parameters ( ) const

inlineinherited

Get the parameters of the object.

Returns: The parameters of the object

Definition at line 62 of file MooseBaseParameterInterface.h.

62 { return _pars; }

MooseBaseParameterInterface::_pars

const InputParameters & _pars

Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

Definition: MooseBaseParameterInterface.h:173

◆ paramInfo()

template<typename... Args>

void MooseBaseParameterInterface::paramInfo	(	const std::string &	param,
		Args...	args
	)		const

inherited

Emits an informational message prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message.

If this object's parameters were not created directly by the Parser, then this function falls back to the normal behavior of mooseInfo - only printing a message using the given args.

Definition at line 272 of file MooseBaseParameterInterface.h.

Referenced by GridPartitioner::_do_partition(), ComboMarker::ComboMarker(), FunctorIC::FunctorIC(), and TransientMultiApp::TransientMultiApp().

 {
   mooseInfo(paramErrorMsg(param, std::forward<Args>(args)...));
 }

◆ paramWarning()

template<typename... Args>

void MooseBaseParameterInterface::paramWarning	(	const std::string &	param,
		Args...	args
	)		const

inherited

Emits a warning prefixed with the file and line number of the given param (from the input file) along with the full parameter path+name followed by the given args as the message.

If this object's parameters were not created directly by the Parser, then this function falls back to the normal behavior of mooseWarning - only printing a message using the given args.

Definition at line 265 of file MooseBaseParameterInterface.h.

Referenced by GridPartitioner::_do_partition(), EigenProblem::checkProblemIntegrity(), CombinerGenerator::copyIntoMesh(), DefaultMultiAppFixedPointConvergence::DefaultMultiAppFixedPointConvergence(), MultiAppNearestNodeTransfer::execute(), FEProblemSolve::FEProblemSolve(), UniqueExtraIDMeshGenerator::generate(), PlaneIDMeshGenerator::generate(), Terminator::initialSetup(), SampledOutput::initSample(), MooseMesh::MooseMesh(), FEProblemBase::setPreserveMatrixSparsityPattern(), and Terminator::Terminator().

 {
   mooseWarning(paramErrorMsg(param, std::forward<Args>(args)...));
 }

◆ parsedFunctionSetup()

void FunctionParserUtils< is_ad >::parsedFunctionSetup	(	SymFunctionPtr &	function,
		const std::string &	expression,
		const std::string &	variables,
		const std::vector< std::string > &	constant_names,
		const std::vector< std::string > &	constant_expressions,
		const libMesh::Parallel::Communicator &	comm
	)		const

protectedinherited

Performs setup steps on a SymFunction.

Parameters

function	reference to pointer to the function to set up
expression	expression to parse
variables	comma separated string holding all the variables of the expression
constant_names	vector of names (symbols) of constants in the expression
constant_expressions	vectors of expressions (=values) of constants in the expression
comm	communicator used to stagger JIT file creations

Definition at line 226 of file FunctionParserUtils.C.

Referenced by ArrayParsedAux::ArrayParsedAux(), CutMeshByLevelSetGenerator(), ParsedSubdomainGeneratorBase::functionInitialize(), ParsedConvergence::makeParsedFunction(), ParsedElementDeletionGenerator::ParsedElementDeletionGenerator(), ParsedExtraElementIDGenerator::ParsedExtraElementIDGenerator(), ParsedGenerateNodeset::ParsedGenerateNodeset(), ParsedGenerateSideset::ParsedGenerateSideset(), ParsedNodeTransformGenerator::ParsedNodeTransformGenerator(), ParsedPostprocessor::ParsedPostprocessor(), and SolutionUserObject::SolutionUserObject().

 {
   // set FParser internal feature flags
   setParserFeatureFlags(function);
 
   // add the constant expressions
   addFParserConstants(function, constant_names, constant_expressions);
 
   // parse function
   if (function->Parse(expression, variables) >= 0)
     mooseError("Invalid function\n", expression, "\nError:\n", function->ErrorMsg());
 
   // optimize
   if (!_disable_fpoptimizer)
     function->Optimize();
 
   // just-in-time compile
   if (_enable_jit)
   {
     // let rank 0 do the JIT compilation first
     if (comm.rank() != 0)
       comm.barrier();
 
     function->JITCompile();
 
     // wait for ranks > 0 to catch up
     if (comm.rank() == 0)
       comm.barrier();
   }
 }

◆ pointLevelSetRelation()

CutMeshByLevelSetGeneratorBase::PointLevelSetRelationIndex CutMeshByLevelSetGeneratorBase::pointLevelSetRelation ( const Point & point )

protectedinherited

Evaluate whether a point is on the level set, inside or outside the level set.

Parameters

point The point at which the level set function is to be evaluated

Returns: the relation of the point to the level set

Definition at line 163 of file CutMeshByLevelSetGeneratorBase.C.

Referenced by CutMeshByLevelSetGeneratorBase::generate(), and CutMeshByLevelSetGeneratorBase::tet4ElemCutter().

 {
   const Real level_set_value = levelSetEvaluator(point);
   if (MooseUtils::absoluteFuzzyLessThan(level_set_value, 0.0))
     return PointLevelSetRelationIndex::level_set_in_side;
   else if (MooseUtils::absoluteFuzzyGreaterThan(level_set_value, 0.0))
     return PointLevelSetRelationIndex::level_set_out_side;
   else
     return PointLevelSetRelationIndex::on_level_set;
 }

◆ pointPairLevelSetInterception()

Point CutMeshByLevelSetGeneratorBase::pointPairLevelSetInterception	(	const Point &	point1,
		const Point &	point2
	)

protectedinherited

Calculate the intersection point of a level set and a line segment defined by two points separated by the level set.

Parameters

point1	The first point of the line segment
point2	The second point of the line segment

Returns: the intersection point of the level set and the line segment

Definition at line 175 of file CutMeshByLevelSetGeneratorBase.C.

Referenced by CutMeshByLevelSetGeneratorBase::tet4ElemCutter().

 {
   Real dist1 = levelSetEvaluator(point1);
   Real dist2 = levelSetEvaluator(point2);
 
   if (MooseUtils::absoluteFuzzyEqual(dist1, 0.0) || MooseUtils::absoluteFuzzyEqual(dist2, 0.0))
     mooseError("At least one of the two points are on the plane.");
   if (MooseUtils::absoluteFuzzyGreaterThan(dist1 * dist2, 0.0))
     mooseError("The two points are on the same side of the plane.");
 
   Point p1(point1);
   Point p2(point2);
   Real dist = abs(dist1) + abs(dist2);
   Point mid_point;
 
   // Bisection method to find midpoint
   while (MooseUtils::absoluteFuzzyGreaterThan(dist, 0.0))
   {
     mid_point = 0.5 * (p1 + p2);
     const Real dist_mid = levelSetEvaluator(mid_point);
     // We do not need Fuzzy here as it will be covered by the while loop
     if (dist_mid == 0.0)
       dist = 0.0;
     else if (dist_mid * dist1 < 0.0)
     {
       p2 = mid_point;
       dist2 = levelSetEvaluator(p2);
       dist = abs(dist1) + abs(dist2);
     }
     else
     {
       p1 = mid_point;
       dist1 = levelSetEvaluator(p1);
       dist = abs(dist1) + abs(dist2);
     }
   }
   return mid_point;
 }

◆ queryParam()

template<typename T >

const T * MooseBaseParameterInterface::queryParam ( const std::string & name ) const

inherited

Query a parameter for the object.

If the parameter is not valid, nullptr will be returned

Parameters

name	The name of the parameter

Returns: A pointer to the parameter value, if it exists

Definition at line 222 of file MooseBaseParameterInterface.h.

 {
   return isParamValid(name) ? &getParam<T>(name) : nullptr;
 }

◆ setHasGenerateData()

void MeshGenerator::setHasGenerateData ( InputParameters & params )

staticinherited

Sets that a mesh generator has a generateData() implementation.

This must be called in the validParams() implementation for all mesh generators that implement generateData().

Definition at line 80 of file MeshGenerator.C.

Referenced by AddMetaDataGenerator::validParams().

 {
   params.set<bool>("_has_generate_data") = true;
 }

◆ setMeshProperty() [1/2]

template<typename T , typename... Args>

T & MeshGenerator::setMeshProperty	(	const std::string &	data_name,
		Args &&...	args
	)

protectedinherited

Method for updating attributes to the mesh meta-data store, which can only be invoked in the MeshGenerator generate routine only if the mesh generator property has already been declared.

Definition at line 485 of file MeshGenerator.h.

 {
   if (_app.actionWarehouse().getCurrentTaskName() != "execute_mesh_generators")
     mooseError("Updating mesh meta data with setMeshProperty() can only be called during "
                "MeshGenerator::generate()");
 
   if (!hasMeshProperty(data_name))
     mooseError("Failed to get the mesh property '", data_name, "'");
   RestartableDataValue * value = &setMeshPropertyHelper(data_name);
   RestartableData<T> * T_value = dynamic_cast<RestartableData<T> *>(value);
   if (!T_value)
     mooseError("While retrieving mesh property '",
                data_name,
                "' with type '",
                MooseUtils::prettyCppType<T>(),
                "',\nthe property was found with type '",
                value->type(),
                "'");
 
   // Set the value if someone provided arguments to set it to
   if constexpr (sizeof...(args) > 0)
     T_value->set() = T(std::forward<Args>(args)...);
 
   return T_value->set();
 }

◆ setMeshProperty() [2/2]

template<typename T >

T& MeshGenerator::setMeshProperty	(	const std::string &	data_name,
		const T &	data_value
	)

inlineprotectedinherited

Definition at line 221 of file MeshGenerator.h.

   {
     return setMeshProperty<T, const T &>(data_name, data_value);
   }

◆ setParserFeatureFlags()

void FunctionParserUtils< is_ad >::setParserFeatureFlags ( SymFunctionPtr & parser ) const

inherited

apply input parameters to internal feature flags of the parser object

Definition at line 79 of file FunctionParserUtils.C.

Referenced by CutMeshByPlaneGenerator::CutMeshByPlaneGenerator(), ParsedCurveGenerator::ParsedCurveGenerator(), ParsedODEKernel::ParsedODEKernel(), and TransfiniteMeshGenerator::TransfiniteMeshGenerator().

 {
   parser->SetADFlags(SymFunction::ADCacheDerivatives, _enable_ad_cache);
   parser->SetADFlags(SymFunction::ADAutoOptimize, _enable_auto_optimize);
 }

◆ tet4ElemCutter()

void CutMeshByLevelSetGeneratorBase::tet4ElemCutter	(	ReplicatedMesh &	mesh,
		const std::vector< libMesh::BoundaryInfo::BCTuple > &	bdry_side_list,
		const dof_id_type	elem_id,
		const subdomain_id_type &	block_id_to_remove,
		std::vector< const Node *> &	new_on_plane_nodes
	)

protectedinherited

For a TET4 elements crossed by the level set, keep the part of the element on the retaining side of the level set using a number of TET4 elements.

Parameters

mesh	The mesh to be modified
bdry_side_list	A list that contains the boundary information of the original mesh
elem_id	The id of the element to be cut
block_id_to_remove	The subdomain id of the part of the element to be removed
new_on_plane_nodes	A vector to record the pointers to the newly created nodes on the cutting plane

Definition at line 231 of file CutMeshByLevelSetGeneratorBase.C.

Referenced by CutMeshByLevelSetGeneratorBase::generate().

 {
   // Retrieve boundary information for the mesh
   BoundaryInfo & boundary_info = mesh.get_boundary_info();
   // Create a list of sidesets involving the element to be split
   // It might be complex to assign the boundary id to the new elements
   // In TET4, none of the four faces have the same normal vector
   // So we are using the normal vector to identify the faces that
   // need to be assigned the same boundary id
   std::vector<Point> elem_side_normal_list;
   elem_side_normal_list.resize(4);
   for (const auto i : make_range(4))
   {
     auto elem_side = mesh.elem_ptr(elem_id)->side_ptr(i);
     elem_side_normal_list[i] = (*elem_side->node_ptr(1) - *elem_side->node_ptr(0))
                                    .cross(*elem_side->node_ptr(2) - *elem_side->node_ptr(1))
                                    .unit();
   }
 
   std::vector<std::vector<boundary_id_type>> elem_side_list;
   MooseMeshElementConversionUtils::elementBoundaryInfoCollector(
       bdry_side_list, elem_id, 4, elem_side_list);
 
   std::vector<PointLevelSetRelationIndex> node_plane_relation(4);
   std::vector<const Node *> tet4_nodes(4);
   std::vector<const Node *> tet4_nodes_on_plane;
   std::vector<const Node *> tet4_nodes_outside_plane;
   std::vector<const Node *> tet4_nodes_inside_plane;
   // Sort tetrahedral nodes based on their positioning wrt the plane
   for (unsigned int i = 0; i < 4; i++)
   {
     tet4_nodes[i] = mesh.elem_ptr(elem_id)->node_ptr(i);
     node_plane_relation[i] = pointLevelSetRelation(*tet4_nodes[i]);
     if (node_plane_relation[i] == PointLevelSetRelationIndex::on_level_set)
       tet4_nodes_on_plane.push_back(tet4_nodes[i]);
     else if (node_plane_relation[i] == PointLevelSetRelationIndex::level_set_out_side)
       tet4_nodes_outside_plane.push_back(tet4_nodes[i]);
     else
       tet4_nodes_inside_plane.push_back(tet4_nodes[i]);
   }
   std::vector<Elem *> elems_tet4;
   bool new_elements_created(false);
   // No cutting needed if no nodes are outside the plane
   if (tet4_nodes_outside_plane.size() == 0)
   {
     if (tet4_nodes_on_plane.size() == 3)
     {
       // Record the element for future cross section boundary assignment
       elems_tet4.push_back(mesh.elem_ptr(elem_id));
     }
   }
   // Remove the element if all the nodes are outside the plane
   else if (tet4_nodes_inside_plane.size() == 0)
   {
     mesh.elem_ptr(elem_id)->subdomain_id() = block_id_to_remove;
     if (tet4_nodes_on_plane.size() == 3)
     {
       // I think the neighboring element will be handled,
       // So we do not need to assign the cross section boundary here
     }
   }
   // As we have nodes on both sides, six different scenarios are possible
   else
   {
     new_elements_created = true;
     if (tet4_nodes_inside_plane.size() == 1 && tet4_nodes_outside_plane.size() == 3)
     {
       std::vector<const Node *> new_plane_nodes;
       // A smaller TET4 element is created, this solution is unique
       for (const auto & tet4_node_outside_plane : tet4_nodes_outside_plane)
       {
         new_plane_nodes.push_back(nonDuplicateNodeCreator(
             mesh,
             new_on_plane_nodes,
             pointPairLevelSetInterception(*tet4_node_outside_plane, *tet4_nodes_inside_plane[0])));
       }
       auto new_elem_tet4 = std::make_unique<Tet4>();
       new_elem_tet4->set_node(0, const_cast<Node *>(tet4_nodes_inside_plane[0]));
       new_elem_tet4->set_node(1, const_cast<Node *>(new_plane_nodes[0]));
       new_elem_tet4->set_node(2, const_cast<Node *>(new_plane_nodes[1]));
       new_elem_tet4->set_node(3, const_cast<Node *>(new_plane_nodes[2]));
       new_elem_tet4->subdomain_id() = mesh.elem_ptr(elem_id)->subdomain_id();
       elems_tet4.push_back(mesh.add_elem(std::move(new_elem_tet4)));
     }
     else if (tet4_nodes_inside_plane.size() == 2 && tet4_nodes_outside_plane.size() == 2)
     {
       std::vector<const Node *> new_plane_nodes;
       // 3 smaller TET3 elements are created
       for (const auto & tet4_node_outside_plane : tet4_nodes_outside_plane)
       {
         for (const auto & tet4_node_inside_plane : tet4_nodes_inside_plane)
         {
           new_plane_nodes.push_back(nonDuplicateNodeCreator(
               mesh,
               new_on_plane_nodes,
               pointPairLevelSetInterception(*tet4_node_outside_plane, *tet4_node_inside_plane)));
         }
       }
       std::vector<const Node *> new_elems_nodes = {tet4_nodes_inside_plane[1],
                                                    new_plane_nodes[3],
                                                    new_plane_nodes[1],
                                                    tet4_nodes_inside_plane[0],
                                                    new_plane_nodes[2],
                                                    new_plane_nodes[0]};
       std::vector<std::vector<unsigned int>> rotated_tet_face_indices;
       std::vector<std::vector<const Node *>> optimized_node_list;
       MooseMeshElementConversionUtils::prismNodesToTetNodesDeterminer(
           new_elems_nodes, rotated_tet_face_indices, optimized_node_list);
 
       for (unsigned int i = 0; i < optimized_node_list.size(); i++)
       {
         auto new_elem_tet4 = std::make_unique<Tet4>();
         new_elem_tet4->set_node(0, const_cast<Node *>(optimized_node_list[i][0]));
         new_elem_tet4->set_node(1, const_cast<Node *>(optimized_node_list[i][1]));
         new_elem_tet4->set_node(2, const_cast<Node *>(optimized_node_list[i][2]));
         new_elem_tet4->set_node(3, const_cast<Node *>(optimized_node_list[i][3]));
         new_elem_tet4->subdomain_id() = mesh.elem_ptr(elem_id)->subdomain_id();
         elems_tet4.push_back(mesh.add_elem(std::move(new_elem_tet4)));
       }
     }
     else if (tet4_nodes_inside_plane.size() == 3 && tet4_nodes_outside_plane.size() == 1)
     {
       std::vector<const Node *> new_plane_nodes;
       // 3 smaller Tet4 elements are created
       for (const auto & tet4_node_inside_plane : tet4_nodes_inside_plane)
       {
         new_plane_nodes.push_back(nonDuplicateNodeCreator(
             mesh,
             new_on_plane_nodes,
             pointPairLevelSetInterception(*tet4_node_inside_plane, *tet4_nodes_outside_plane[0])));
       }
       std::vector<const Node *> new_elems_nodes = {tet4_nodes_inside_plane[0],
                                                    tet4_nodes_inside_plane[1],
                                                    tet4_nodes_inside_plane[2],
                                                    new_plane_nodes[0],
                                                    new_plane_nodes[1],
                                                    new_plane_nodes[2]};
       std::vector<std::vector<unsigned int>> rotated_tet_face_indices;
       std::vector<std::vector<const Node *>> optimized_node_list;
       MooseMeshElementConversionUtils::prismNodesToTetNodesDeterminer(
           new_elems_nodes, rotated_tet_face_indices, optimized_node_list);
 
       for (unsigned int i = 0; i < optimized_node_list.size(); i++)
       {
         auto new_elem_tet4 = std::make_unique<Tet4>();
         new_elem_tet4->set_node(0, const_cast<Node *>(optimized_node_list[i][0]));
         new_elem_tet4->set_node(1, const_cast<Node *>(optimized_node_list[i][1]));
         new_elem_tet4->set_node(2, const_cast<Node *>(optimized_node_list[i][2]));
         new_elem_tet4->set_node(3, const_cast<Node *>(optimized_node_list[i][3]));
         new_elem_tet4->subdomain_id() = mesh.elem_ptr(elem_id)->subdomain_id();
         elems_tet4.push_back(mesh.add_elem(std::move(new_elem_tet4)));
       }
     }
     else if (tet4_nodes_inside_plane.size() == 1 && tet4_nodes_outside_plane.size() == 1)
     {
       auto new_plane_node = nonDuplicateNodeCreator(
           mesh,
           new_on_plane_nodes,
           pointPairLevelSetInterception(*tet4_nodes_inside_plane[0], *tet4_nodes_outside_plane[0]));
       // A smaller Tet4 is created, this solution is unique
       auto new_elem_tet4 = std::make_unique<Tet4>();
       new_elem_tet4->set_node(0, const_cast<Node *>(new_plane_node));
       new_elem_tet4->set_node(1, const_cast<Node *>(tet4_nodes_on_plane[0]));
       new_elem_tet4->set_node(2, const_cast<Node *>(tet4_nodes_on_plane[1]));
       new_elem_tet4->set_node(3, const_cast<Node *>(tet4_nodes_inside_plane[0]));
       new_elem_tet4->subdomain_id() = mesh.elem_ptr(elem_id)->subdomain_id();
       elems_tet4.push_back(mesh.add_elem(std::move(new_elem_tet4)));
     }
     else if (tet4_nodes_inside_plane.size() == 1 && tet4_nodes_outside_plane.size() == 2)
     {
       std::vector<const Node *> new_plane_nodes;
       // A smaller Tet4 element is created, this solution is unique
       for (const auto & tet4_node_outside_plane : tet4_nodes_outside_plane)
       {
         new_plane_nodes.push_back(nonDuplicateNodeCreator(
             mesh,
             new_on_plane_nodes,
             pointPairLevelSetInterception(*tet4_node_outside_plane, *tet4_nodes_inside_plane[0])));
       }
       auto new_elem_tet4 = std::make_unique<Tet4>();
       new_elem_tet4->set_node(0, const_cast<Node *>(new_plane_nodes[0]));
       new_elem_tet4->set_node(1, const_cast<Node *>(new_plane_nodes[1]));
       new_elem_tet4->set_node(2, const_cast<Node *>(tet4_nodes_on_plane[0]));
       new_elem_tet4->set_node(3, const_cast<Node *>(tet4_nodes_inside_plane[0]));
       new_elem_tet4->subdomain_id() = mesh.elem_ptr(elem_id)->subdomain_id();
       elems_tet4.push_back(mesh.add_elem(std::move(new_elem_tet4)));
     }
     else if (tet4_nodes_inside_plane.size() == 2 && tet4_nodes_outside_plane.size() == 1)
     {
       std::vector<const Node *> new_plane_nodes;
       // 2 smaller TET4 elements are created
       for (const auto & tet4_node_inside_plane : tet4_nodes_inside_plane)
       {
         new_plane_nodes.push_back(nonDuplicateNodeCreator(
             mesh,
             new_on_plane_nodes,
             pointPairLevelSetInterception(*tet4_node_inside_plane, *tet4_nodes_outside_plane[0])));
       }
       std::vector<const Node *> new_elems_nodes = {tet4_nodes_inside_plane[0],
                                                    tet4_nodes_inside_plane[1],
                                                    new_plane_nodes[1],
                                                    new_plane_nodes[0],
                                                    tet4_nodes_on_plane[0]};
       std::vector<std::vector<unsigned int>> rotated_tet_face_indices;
       std::vector<std::vector<const Node *>> optimized_node_list;
       MooseMeshElementConversionUtils::pyramidNodesToTetNodesDeterminer(
           new_elems_nodes, rotated_tet_face_indices, optimized_node_list);
 
       for (unsigned int i = 0; i < optimized_node_list.size(); i++)
       {
         auto new_elem_tet4 = std::make_unique<Tet4>();
         new_elem_tet4->set_node(0, const_cast<Node *>(optimized_node_list[i][0]));
         new_elem_tet4->set_node(1, const_cast<Node *>(optimized_node_list[i][1]));
         new_elem_tet4->set_node(2, const_cast<Node *>(optimized_node_list[i][2]));
         new_elem_tet4->set_node(3, const_cast<Node *>(optimized_node_list[i][3]));
         new_elem_tet4->subdomain_id() = mesh.elem_ptr(elem_id)->subdomain_id();
         elems_tet4.push_back(mesh.add_elem(std::move(new_elem_tet4)));
       }
     }
     else
       mooseError("Unexpected scenario.");
 
     mesh.elem_ptr(elem_id)->subdomain_id() = block_id_to_remove;
   }
 
   for (auto & elem_tet4 : elems_tet4)
   {
     if (new_elements_created)
     {
       if (elem_tet4->volume() < 0.0)
       {
         Node * temp = elem_tet4->node_ptr(0);
         elem_tet4->set_node(0, elem_tet4->node_ptr(1));
         elem_tet4->set_node(1, temp);
       }
     }
     // Find the boundary id of the new element
     for (unsigned int i = 0; i < 4; i++)
     {
       const Point & side_pt_0 = *elem_tet4->side_ptr(i)->node_ptr(0);
       const Point & side_pt_1 = *elem_tet4->side_ptr(i)->node_ptr(1);
       const Point & side_pt_2 = *elem_tet4->side_ptr(i)->node_ptr(2);
 
       const Point side_normal = (side_pt_1 - side_pt_0).cross(side_pt_2 - side_pt_1).unit();
       for (unsigned int j = 0; j < 4; j++)
       {
         if (new_elements_created)
         {
           if (MooseUtils::absoluteFuzzyEqual(side_normal * elem_side_normal_list[j], 1.0))
           {
             for (const auto & side_info : elem_side_list[j])
             {
               boundary_info.add_side(elem_tet4, i, side_info);
             }
           }
         }
       }
       if (MooseUtils::absoluteFuzzyEqual(levelSetEvaluator(side_pt_0), 0.0) &&
           MooseUtils::absoluteFuzzyEqual(levelSetEvaluator(side_pt_1), 0.0) &&
           MooseUtils::absoluteFuzzyEqual(levelSetEvaluator(side_pt_2), 0.0))
       {
 
         boundary_info.add_side(elem_tet4, i, _cut_face_id);
       }
     }
   }
 }

◆ type()

const std::string& MooseBase::type ( ) const

inlineinherited

Get the type of this class.

Returns: the name of the type of this class

Definition at line 51 of file MooseBase.h.

51 { return _type; }

MooseBase::_type

const std::string _type

The type of this class.

Definition: MooseBase.h:87

◆ typeAndName()

std::string MooseBase::typeAndName ( ) const

inherited

Get the class's combined type and name; useful in error handling.

Returns: The type and name of this class in the form '<type()> "<name()>"'.

Definition at line 27 of file MooseBase.C.

Referenced by MaterialPropertyStorage::addProperty(), MeshGeneratorSystem::dataDrivenError(), ReporterContext< std::vector< T > >::finalize(), and ReporterData::getReporterInfo().

 {
   return type() + std::string(" \"") + name() + std::string("\"");
 }

◆ uniqueName()

MooseObjectName MooseBaseParameterInterface::uniqueName ( ) const

inlineinherited

The unique name for accessing input parameters of this object in the InputParameterWarehouse.

Definition at line 67 of file MooseBaseParameterInterface.h.

Referenced by MooseBaseParameterInterface::connectControllableParams(), and Action::uniqueActionName().

   {
     return MooseObjectName(_pars.get<std::string>("_unique_name"));
   }

◆ uniqueParameterName()

MooseObjectParameterName MooseBaseParameterInterface::uniqueParameterName ( const std::string & parameter_name ) const

inlineinherited

The unique parameter name of a valid parameter of this object for accessing parameter controls.

Definition at line 52 of file MooseBaseParameterInterface.h.

   {
     return MooseObjectParameterName(
         _pars.get<std::string>("_moose_base"), _moose_base.name(), parameter_name);
   }

◆ validParams()

InputParameters CutMeshByLevelSetGenerator::validParams ( )

static

Definition at line 18 of file CutMeshByLevelSetGenerator.C.

 {
   InputParameters params = CutMeshByLevelSetGeneratorBase::validParams();
 
   params.addRequiredParam<std::string>(
       "level_set", "Level set used to cut the mesh as a function of x, y, and z.");
   params.addParam<std::vector<std::string>>(
       "constant_names", {}, "Vector of constants used in the parsed function");
   params.addParam<std::vector<std::string>>(
       "constant_expressions",
       {},
       "Vector of values for the constants in constant_names (can be an FParser expression)");
 
   params.addClassDescription(
       "This CutMeshByLevelSetGenerator object is designed to trim the input mesh by removing all "
       "the elements on outside the give level set with special processing on the elements crossed "
       "by the cutting surface to ensure a smooth cross-section. The output mesh only consists of "
       "TET4 elements.");
 
   return params;
 }

Member Data Documentation

◆ _action_factory

ActionFactory& MooseBaseParameterInterface::_action_factory

protectedinherited

Builds Actions.

Definition at line 179 of file MooseBaseParameterInterface.h.

Referenced by AddActionComponentAction::act(), CreateMeshSetupActionsForComponents::act(), ActionComponent::checkRequiredTasks(), PhysicsBase::checkRequiredTasks(), CommonOutputAction::create(), AddVariableAction::createInitialConditionAction(), DynamicObjectRegistrationAction::DynamicObjectRegistrationAction(), CreateExecutionerAction::setupAutoPreconditioning(), and ReadExecutorParamsAction::setupAutoPreconditioning().

◆ _app

MooseApp& MooseBase::_app

protectedinherited

The MOOSE application this is associated with.

Definition at line 84 of file MooseBase.h.

◆ _console

const ConsoleStream ConsoleStreamInterface::_console

inherited

An instance of helper class to write streams to the Console objects.

Definition at line 31 of file ConsoleStreamInterface.h.

◆ _cut_face_id

boundary_id_type CutMeshByLevelSetGeneratorBase::_cut_face_id

protectedinherited

The boundary id of the surface generated by the cut.

Definition at line 41 of file CutMeshByLevelSetGeneratorBase.h.

Referenced by CutMeshByLevelSetGeneratorBase::CutMeshByLevelSetGeneratorBase(), CutMeshByLevelSetGeneratorBase::generate(), and CutMeshByLevelSetGeneratorBase::tet4ElemCutter().

◆ _cut_face_name

const BoundaryName CutMeshByLevelSetGeneratorBase::_cut_face_name

protectedinherited

The boundary name of the surface generated by the cut.

Definition at line 43 of file CutMeshByLevelSetGeneratorBase.h.

Referenced by CutMeshByLevelSetGeneratorBase::generate().

◆ _disable_fpoptimizer

bool FunctionParserUtils< is_ad >::_disable_fpoptimizer

protectedinherited

Definition at line 111 of file FunctionParserUtils.h.

Referenced by ParsedODEKernel::ParsedODEKernel().

◆ _enable_ad_cache

bool FunctionParserUtils< is_ad >::_enable_ad_cache

protectedinherited

Definition at line 110 of file FunctionParserUtils.h.

◆ _enable_auto_optimize

bool FunctionParserUtils< is_ad >::_enable_auto_optimize

protectedinherited

Definition at line 112 of file FunctionParserUtils.h.

◆ _enable_jit

bool FunctionParserUtils< is_ad >::_enable_jit

protectedinherited

feature flags

Definition at line 109 of file FunctionParserUtils.h.

Referenced by ParsedODEKernel::ParsedODEKernel().

◆ _enabled

const bool& MooseObject::_enabled

protectedinherited

Reference to the "enable" InputParameters, used by Controls for toggling on/off MooseObjects.

Definition at line 51 of file MooseObject.h.

Referenced by MooseObject::enabled().

◆ _epsilon

const Real FunctionParserUtils< is_ad >::_epsilon

protectedinherited

fuzzy comparison tolerance

Definition at line 128 of file FunctionParserUtils.h.

◆ _eval_error_msg

const char * FunctionParserUtils< is_ad >::_eval_error_msg

staticprotectedinherited

table of FParser eval error codes

Definition at line 122 of file FunctionParserUtils.h.

◆ _evalerror_behavior

enum FunctionParserUtils::FailureMethod FunctionParserUtils< is_ad >::_evalerror_behavior

protectedinherited

◆ _factory

Factory& MooseBaseParameterInterface::_factory

protectedinherited

The Factory associated with the MooseApp.

Definition at line 176 of file MooseBaseParameterInterface.h.

Referenced by ElementIDOutputAction::act(), AutoCheckpointAction::act(), PartitionerAction::act(), CreateExecutionerAction::act(), CreateProblemAction::act(), CreateProblemDefaultAction::act(), SetupMeshAction::act(), AdaptivityAction::act(), CombineComponentsMeshes::act(), SetupPredictorAction::act(), SetupTimeStepperAction::act(), ComposeTimeStepperAction::act(), SetupDebugAction::act(), SetupPreconditionerAction::act(), SetupResidualDebugAction::act(), CreateDisplacedProblemAction::act(), MaterialDerivativeTestAction::act(), SetAdaptivityOptionsAction::act(), DisplayGhostingAction::act(), AddControlAction::act(), MaterialOutputAction::act(), AddPeriodicBCAction::act(), CommonOutputAction::act(), AddNodalNormalsAction::act(), ComponentMeshTransformHelper::addMeshGenerators(), CylinderComponent::addMeshGenerators(), DiffusionPhysicsBase::addPostprocessors(), CreateDisplacedProblemAction::addProxyRelationshipManagers(), Action::addRelationshipManager(), SampledOutput::cloneMesh(), MooseBaseParameterInterface::connectControllableParams(), DynamicObjectRegistrationAction::DynamicObjectRegistrationAction(), ActionComponent::getFactory(), PhysicsBase::getFactory(), MaterialOutputAction::getParams(), and ProjectedStatefulMaterialStorageAction::processProperty().

◆ _func_level_set

SymFunctionPtr CutMeshByLevelSetGeneratorBase::_func_level_set

protectedinherited

function parser object describing the level set

Definition at line 47 of file CutMeshByLevelSetGeneratorBase.h.

Referenced by CutMeshByLevelSetGenerator(), CutMeshByPlaneGenerator::CutMeshByPlaneGenerator(), and CutMeshByLevelSetGeneratorBase::levelSetEvaluator().

◆ _func_params

std::vector<GenericReal<is_ad> > FunctionParserUtils< is_ad >::_func_params

protectedinherited

Array to stage the parameters passed to the functions when calling Eval.

Definition at line 125 of file FunctionParserUtils.h.

Referenced by ArrayParsedAux::ArrayParsedAux(), ParsedSubdomainIDsGenerator::assignElemSubdomainID(), ParsedSubdomainMeshGenerator::assignElemSubdomainID(), ParsedVectorAux::computeValue(), ArrayParsedAux::computeValue(), ParsedAux::computeValue(), CutMeshByLevelSetGenerator(), CutMeshByPlaneGenerator::CutMeshByPlaneGenerator(), ParsedPostprocessor::finalize(), ParsedSubdomainGeneratorBase::functionInitialize(), ParsedGenerateNodeset::generate(), ParsedCurveGenerator::generate(), ParsedExtraElementIDGenerator::generate(), ParsedNodeTransformGenerator::generate(), ParsedGenerateSideset::generate(), ParsedDownSelectionPositions::initialize(), CutMeshByLevelSetGeneratorBase::levelSetEvaluator(), ParsedCurveGenerator::ParsedCurveGenerator(), ParsedElementDeletionGenerator::ParsedElementDeletionGenerator(), ParsedExtraElementIDGenerator::ParsedExtraElementIDGenerator(), ParsedGenerateNodeset::ParsedGenerateNodeset(), ParsedGenerateSideset::ParsedGenerateSideset(), ParsedNodeTransformGenerator::ParsedNodeTransformGenerator(), ParsedODEKernel::ParsedODEKernel(), ParsedPostprocessor::ParsedPostprocessor(), ParsedCurveGenerator::pointCalculator(), ParsedElementDeletionGenerator::shouldDelete(), SolutionUserObject::solutionSampleTime(), SolutionUserObject::SolutionUserObject(), TransfiniteMeshGenerator::TransfiniteMeshGenerator(), and ParsedODEKernel::updateParams().

◆ _input

std::unique_ptr<MeshBase>& CutMeshByLevelSetGeneratorBase::_input

protectedinherited

Reference to input mesh pointer.

Definition at line 45 of file CutMeshByLevelSetGeneratorBase.h.

Referenced by CutMeshByLevelSetGeneratorBase::generate().

◆ _input_name

const MeshGeneratorName CutMeshByLevelSetGeneratorBase::_input_name

protectedinherited

Name of the input mesh.

Definition at line 39 of file CutMeshByLevelSetGeneratorBase.h.

◆ _level_set

const std::string CutMeshByLevelSetGenerator::_level_set

protected

The analytic level set function in the form of a string that can be parsed by FParser.

Definition at line 28 of file CutMeshByLevelSetGenerator.h.

Referenced by CutMeshByLevelSetGenerator().

◆ _mesh

MooseMesh* const MeshGenerator::_mesh

protectedinherited

Pointer to the owning mesh.

Definition at line 388 of file MeshGenerator.h.

Referenced by MeshGenerator::buildDistributedMesh(), MeshGenerator::buildMeshBaseObject(), MeshGenerator::buildReplicatedMesh(), and DistributedRectilinearMeshGenerator::generate().

◆ _name

const std::string MooseBase::_name

protectedinherited

The name of this class.

Definition at line 90 of file MooseBase.h.

◆ _pars

const InputParameters& MooseBaseParameterInterface::_pars

protectedinherited

Parameters of this object, references the InputParameters stored in the InputParametersWarehouse.

Definition at line 173 of file MooseBaseParameterInterface.h.

◆ _quiet_nan

const Real FunctionParserUtils< is_ad >::_quiet_nan

protectedinherited

appropriate not a number value to return

Definition at line 119 of file FunctionParserUtils.h.

◆ _type

const std::string MooseBase::_type

protectedinherited

The type of this class.

Definition at line 87 of file MooseBase.h.

Referenced by ExplicitTimeIntegrator::ExplicitTimeIntegrator(), FEProblemSolve::FEProblemSolve(), FillBetweenSidesetsGenerator::generate(), FillBetweenCurvesGenerator::generate(), FillBetweenPointVectorsGenerator::generate(), ExplicitTimeIntegrator::init(), FEProblemBase::init(), MooseStaticCondensationPreconditioner::MooseStaticCondensationPreconditioner(), PhysicsBasedPreconditioner::PhysicsBasedPreconditioner(), FEProblemBase::solverTypeString(), and MooseBase::type().

◆ data_only_param

const std::string MeshGenerator::data_only_param = "_data_only"

staticinherited

The name of the private parameter for setting data only.

Definition at line 62 of file MeshGenerator.h.

Referenced by MeshGenerator::addMeshSubgenerator(), MeshGeneratorSystem::createAddedMeshGenerators(), and MeshGenerator::validParams().

◆ NAME

constexpr auto MeshMetaDataInterface::NAME = "<empty>"

staticinherited

The data name used when initializing the Restartable interface for non-MeshGenerator objects.

Definition at line 33 of file MeshMetaDataInterface.h.

◆ SYSTEM

constexpr auto MeshMetaDataInterface::SYSTEM = "MeshMetaData"

staticinherited

The system name used when initializing the Restartable interface.

Definition at line 30 of file MeshMetaDataInterface.h.

Referenced by MeshMetaDataInterface::meshPropertyName().

The documentation for this class was generated from the following files:

include/meshgenerators/CutMeshByLevelSetGenerator.h
src/meshgenerators/CutMeshByLevelSetGenerator.C

Public Types

Public Member Functions

Static Public Member Functions

Public Attributes

Static Public Attributes

Protected Types

Protected Member Functions

Static Protected Member Functions

Protected Attributes

Static Protected Attributes

Detailed Description

Member Typedef Documentation

◆ DataFileParameterType

◆ SymFunction

◆ SymFunctionPtr

Member Enumeration Documentation

◆ FailureMethod

◆ PointLevelSetRelationIndex

Constructor & Destructor Documentation

◆ CutMeshByLevelSetGenerator()

Member Function Documentation

◆ addChildMeshGenerator()

◆ addFParserConstants()

◆ addMeshSubgenerator() [1/2]

◆ addMeshSubgenerator() [2/2]

◆ addParentMeshGenerator()

◆ buildDistributedMesh()

◆ buildMeshBaseObject()

◆ buildReplicatedMesh()

◆ callMooseError()

◆ connectControllableParams()

◆ copyMeshProperty() [1/2]

◆ copyMeshProperty() [2/2]

◆ declareMeshesForSub()

◆ declareMeshesForSubByName()

◆ declareMeshForSub()

◆ declareMeshForSubByName()

◆ declareMeshProperty() [1/2]

◆ declareMeshProperty() [2/2]

◆ declareNullMeshName()

◆ enabled()

◆ errorPrefix()

◆ evaluate() [1/2]

◆ evaluate() [2/2]

◆ functionsOptimize() [1/3]

◆ functionsOptimize() [2/3]

◆ functionsOptimize() [3/3]

◆ generate()

◆ generateData()

◆ generateInternal()

◆ getCheckedPointerParam()

◆ getChildMeshGenerators()

◆ getDataFileName()

◆ getDataFileNameByName()

◆ getDataFilePath()

◆ getMesh()

◆ getMeshByName()

◆ getMeshes()

◆ getMeshesByName()

◆ getMeshProperty() [1/2]

◆ getMeshProperty() [2/2]

◆ getMooseApp()

◆ getParam() [1/2]

◆ getParam() [2/2]

◆ getParentMeshGenerators()

◆ getRenamedParam()

◆ getRequestedMeshGenerators()

◆ getRequestedMeshGeneratorsForSub()

◆ getSavedMeshName()

◆ getSharedPtr() [1/2]

◆ getSharedPtr() [2/2]

◆ getSubMeshGenerators()

◆ hasGenerateData() [1/2]

◆ hasGenerateData() [2/2]

◆ hasMeshProperty() [1/4]

◆ hasMeshProperty() [2/4]

◆ hasMeshProperty() [3/4]

◆ hasMeshProperty() [4/4]

◆ hasOutput()

◆ hasSaveMesh()