Geometric multiscale mapping in radial direction. More...

#include <RadialGeoMultiscaleMapping.hpp>

Inheritance diagram for precice::mapping::RadialGeoMultiscaleMapping:

Collaboration diagram for precice::mapping::RadialGeoMultiscaleMapping:

Public Types
enum struct	MultiscaleType { SPREAD , COLLECT }
	Geometric multiscale type of the mapping (spread or collect). More...

enum struct	MultiscaleAxis { X = 0 , Y = 1 , Z = 2 }

Public Types inherited from precice::mapping::Mapping
enum	Constraint { CONSISTENT , CONSERVATIVE , SCALED_CONSISTENT_SURFACE , SCALED_CONSISTENT_VOLUME }
	Specifies additional constraints for a mapping. More...

enum class	MeshRequirement { UNDEFINED = 0 , VERTEX = 1 , FULL = 2 }
	Specifies requirements for the input and output meshes of a mapping. More...

enum class	InitialGuessRequirement : bool { Required = true , None = false }
	Specifies whether the mapping requires an initial guess. More...

Public Member Functions
	RadialGeoMultiscaleMapping (Constraint constraint, int dimensions, MultiscaleType type, MultiscaleAxis axis)
	Constructor.

void	computeMapping () override
	Takes care of compute-heavy operations needed only once to set up the mapping.

void	clear () override
	Removes a computed mapping.

void	tagMeshFirstRound () override
	Method used by partition. Tags vertices that could be owned by this rank.

void	tagMeshSecondRound () override
	Method used by partition. Tags vertices that can be filtered out.

std::string	getName () const final override
	Returns name of the mapping.

Public Member Functions inherited from precice::mapping::Mapping
	Mapping (Constraint constraint, int dimensions, bool requiresGradientData, InitialGuessRequirement initialGuessRequirement)
	Constructor, takes mapping constraint.

Mapping &	operator= (Mapping &&)=delete

virtual	~Mapping ()=default
	Destructor, empty.

void	setMeshes (const mesh::PtrMesh &input, const mesh::PtrMesh &output)
	Sets input and output meshes carrying data to be mapped.

const mesh::PtrMesh &	getInputMesh () const

const mesh::PtrMesh &	getOutputMesh () const

Constraint	getConstraint () const
	Returns the constraint (consistent/conservative) of the mapping.

MeshRequirement	getInputRequirement () const
	Returns the requirement on the input mesh.

MeshRequirement	getOutputRequirement () const
	Returns the requirement on the output mesh.

bool	hasComputedMapping () const
	Returns true, if the mapping has been computed.

virtual bool	hasConstraint (const Constraint &constraint) const
	Checks whether the mapping has the given constraint or not.

bool	isScaledConsistent () const
	Returns true if mapping is a form of scaled consistent mapping.

bool	requiresInitialGuess () const
	Return true if the mapping requires an initial guess.

const Eigen::VectorXd &	initialGuess () const
	Return the provided initial guess of a mapping using an initialGuess.

Eigen::VectorXd &	initialGuess ()

bool	hasInitialGuess () const
	True if initialGuess().size() == 0.

void	map (int inputDataID, int outputDataID)

void	map (int inputDataID, int outputDataID, Eigen::VectorXd &initialGuess)

void	map (const time::Sample &input, Eigen::VectorXd &output)
	Maps an input Sample to output data from input mesh to output mesh.

void	map (const time::Sample &input, Eigen::VectorXd &output, Eigen::VectorXd &initialGuess)
	Maps an input Sample to output data from input mesh to output mesh, given an initialGuess.

virtual void	scaleConsistentMapping (const Eigen::VectorXd &input, Eigen::VectorXd &output, Constraint type) const
	Scales the consistently mapped output data such that the surface integral of the values on input mesh and output mesh are equal.

bool	requiresGradientData () const
	Returns whether the mapping requires gradient data.

Protected Member Functions
void	mapConservative (const time::Sample &inData, Eigen::VectorXd &outData) override
	Maps data using a conservative constraint.

void	mapConsistent (const time::Sample &inData, Eigen::VectorXd &outData) override
	Maps data using a consistent constraint.

Protected Member Functions inherited from precice::mapping::Mapping
mesh::PtrMesh	input () const
	Returns pointer to input mesh.

mesh::PtrMesh	output () const
	Returns pointer to output mesh.

void	setInputRequirement (MeshRequirement requirement)
	Sets the mesh requirement for the input mesh.

void	setOutputRequirement (MeshRequirement requirement)
	Sets the mesh requirement for the output mesh.

int	getDimensions () const

Private Attributes
logging::Logger	_log {"mapping::RadialGeoMultiscaleMapping"}

MultiscaleType	_type
	type of mapping, namely spread or collect

MultiscaleAxis	_axis
	main axis along which radial geometric multiscale coupling happens

std::vector< size_t >	_vertexIndicesSpread
	computed vertex indices to map data from input vertices to output vertices and vice versa

std::vector< size_t >	_vertexIndicesCollect

std::vector< size_t >	_vertexCounter
	counts number of vertices between midpoints for averaging

Additional Inherited Members
Protected Attributes inherited from precice::mapping::Mapping
bool	_hasComputedMapping = false
	Flag to indicate whether computeMapping() has been called.

bool	_requiresGradientData
	Flag if gradient data is required for the mapping.

Detailed Description

Geometric multiscale mapping in radial direction.

Definition at line 11 of file RadialGeoMultiscaleMapping.hpp.

Member Enumeration Documentation

◆ MultiscaleAxis

enum struct precice::mapping::RadialGeoMultiscaleMapping::MultiscaleAxis

strong

Enumerator
X
Y
Z

Definition at line 23 of file RadialGeoMultiscaleMapping.hpp.

◆ MultiscaleType

enum struct precice::mapping::RadialGeoMultiscaleMapping::MultiscaleType

strong

Geometric multiscale type of the mapping (spread or collect).

A geometric multiscale mapping can either go from the 1D to the 2D/3D solver. Then, we call it "spread". Or from the 2D/3D to the 1D solver, which we call "collect".

Enumerator
SPREAD
COLLECT

Definition at line 19 of file RadialGeoMultiscaleMapping.hpp.

Constructor & Destructor Documentation

◆ RadialGeoMultiscaleMapping()

precice::mapping::RadialGeoMultiscaleMapping::RadialGeoMultiscaleMapping	(	Constraint	constraint,
		int	dimensions,
		MultiscaleType	type,
		MultiscaleAxis	axis )

Constructor.

Parameters

[in]	constraint	Specifies mapping to be consistent or conservative.
[in]	dimensions	Dimensionality of the meshes
[in]	type	Geometric multiscale type of the mapping
[in]	axis	Main axis along which radial geometric multiscale coupling happens

Definition at line 9 of file RadialGeoMultiscaleMapping.cpp.

Here is the call graph for this function:

Member Function Documentation

◆ clear()

void precice::mapping::RadialGeoMultiscaleMapping::clear ( )

overridevirtual

Removes a computed mapping.

Implements precice::mapping::Mapping.

Definition at line 125 of file RadialGeoMultiscaleMapping.cpp.

Here is the call graph for this function:

◆ computeMapping()

void precice::mapping::RadialGeoMultiscaleMapping::computeMapping ( )

overridevirtual

Takes care of compute-heavy operations needed only once to set up the mapping.

Implements precice::mapping::Mapping.

Definition at line 21 of file RadialGeoMultiscaleMapping.cpp.

Here is the call graph for this function:

◆ getName()

std::string precice::mapping::RadialGeoMultiscaleMapping::getName ( ) const

finaloverridevirtual

Returns name of the mapping.

Implements precice::mapping::Mapping.

Definition at line 215 of file RadialGeoMultiscaleMapping.cpp.

◆ mapConservative()

void precice::mapping::RadialGeoMultiscaleMapping::mapConservative	(	const time::Sample &	inData,
		Eigen::VectorXd &	outData )

overrideprotectedvirtual

Maps data using a conservative constraint.

Parameters

[in]	input	Sample to map data from
[in]	output	Values to map to

If requiresInitialGuess(), then the initial guess is available via initialGuess(). Provide a new initial guess by overwriting it. The mapping has full control over its size.

See also: For mappings requiring an initialGuess: initialGuess() hasInitialGuess()

Implements precice::mapping::Mapping.

Definition at line 133 of file RadialGeoMultiscaleMapping.cpp.

Here is the call graph for this function:

◆ mapConsistent()

void precice::mapping::RadialGeoMultiscaleMapping::mapConsistent	(	const time::Sample &	inData,
		Eigen::VectorXd &	outData )

overrideprotectedvirtual

Maps data using a consistent constraint.

Parameters

[in]	input	Sample to map data from
[in]	output	Values to map to

If requiresInitialGuess(), then the initial guess is available via initialGuess(). Provide a new initial guess by overwriting it. The mapping has full control over its size.