preCICE v3.1.2
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Geometric multiscale mapping in radial direction. More...
#include <RadialGeoMultiscaleMapping.hpp>
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. | |
Geometric multiscale mapping in radial direction.
Definition at line 11 of file RadialGeoMultiscaleMapping.hpp.
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strong |
Enumerator | |
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X | |
Y | |
Z |
Definition at line 23 of file RadialGeoMultiscaleMapping.hpp.
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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 | |
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SPREAD | |
COLLECT |
Definition at line 19 of file RadialGeoMultiscaleMapping.hpp.
precice::mapping::RadialGeoMultiscaleMapping::RadialGeoMultiscaleMapping | ( | Constraint | constraint, |
int | dimensions, | ||
MultiscaleType | type, | ||
MultiscaleAxis | axis ) |
Constructor.
[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.
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overridevirtual |
Removes a computed mapping.
Implements precice::mapping::Mapping.
Definition at line 125 of file RadialGeoMultiscaleMapping.cpp.
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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.
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finaloverridevirtual |
Returns name of the mapping.
Implements precice::mapping::Mapping.
Definition at line 215 of file RadialGeoMultiscaleMapping.cpp.
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overrideprotectedvirtual |
Maps data using a conservative constraint.
[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.
Implements precice::mapping::Mapping.
Definition at line 133 of file RadialGeoMultiscaleMapping.cpp.
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overrideprotectedvirtual |
Maps data using a consistent constraint.
[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.
Implements precice::mapping::Mapping.
Definition at line 140 of file RadialGeoMultiscaleMapping.cpp.
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overridevirtual |
Method used by partition. Tags vertices that could be owned by this rank.
Implements precice::mapping::Mapping.
Definition at line 189 of file RadialGeoMultiscaleMapping.cpp.
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overridevirtual |
Method used by partition. Tags vertices that can be filtered out.
Implements precice::mapping::Mapping.
Definition at line 209 of file RadialGeoMultiscaleMapping.cpp.
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private |
main axis along which radial geometric multiscale coupling happens
Definition at line 65 of file RadialGeoMultiscaleMapping.hpp.
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mutableprivate |
Definition at line 59 of file RadialGeoMultiscaleMapping.hpp.
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private |
type of mapping, namely spread or collect
Definition at line 62 of file RadialGeoMultiscaleMapping.hpp.
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private |
counts number of vertices between midpoints for averaging
Definition at line 72 of file RadialGeoMultiscaleMapping.hpp.
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private |
Definition at line 69 of file RadialGeoMultiscaleMapping.hpp.
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private |
computed vertex indices to map data from input vertices to output vertices and vice versa
Definition at line 68 of file RadialGeoMultiscaleMapping.hpp.