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Public Types | Public Member Functions | Static Public Attributes | Private Member Functions | Private Attributes | Static Private Attributes
dudley::MeshAdapter Class Reference

MeshAdapter implements the AbstractContinuousDomain interface for the Dudley library. More...

#include <MeshAdapter.h>

Inheritance diagram for dudley::MeshAdapter:
escript::AbstractContinuousDomain escript::AbstractDomain

List of all members.

Public Types

typedef std::map< int,
std::string > 
FunctionSpaceNamesMapType

Public Member Functions

 MeshAdapter (Dudley_Mesh *dudleyMesh=0)
 Constructor for MeshAdapter.
 MeshAdapter (const MeshAdapter &in)
 Copy constructor.
 ~MeshAdapter ()
 Destructor for MeshAdapter. As specified in the constructor this calls Dudley_Mesh_free for the pointer given to the constructor.
virtual int getMPISize () const
 return the number of processors used for this domain
virtual int getMPIRank () const
 return the number MPI rank of this processor
virtual void MPIBarrier () const
 If compiled for MPI then execute an MPI_Barrier, else do nothing.
virtual bool onMasterProcessor () const
 Return true if on MPI processor 0, else false.
unsigned int getMPIComm () const
 get the communicator for this domain. Returns 0 on non-MPI builds Routine must be implemented by the DomainAdapter
void write (const std::string &fileName) const
 Write the current mesh to a file with the given name.
void Print_Mesh_Info (const bool full=false) const
void dump (const std::string &fileName) const
 dumps the mesh to a file with the given name.
Dudley_MeshgetDudley_Mesh () const
 return the pointer to the underlying dudley mesh structure
int getTagFromSampleNo (int functionSpaceType, int sampleNo) const
 Return the tag key for the given sample number.
const int * borrowSampleReferenceIDs (int functionSpaceType) const
 Return the reference number of the given sample number.
virtual bool isValidFunctionSpaceType (int functionSpaceType) const
 Returns true if the given integer is a valid function space type for this domain.
virtual std::string getDescription () const
 Return a description for this domain.
virtual std::string functionSpaceTypeAsString (int functionSpaceType) const
 Return a description for the given function space type code.
void setFunctionSpaceTypeNames ()
 Build the table of function space type names.
virtual int getContinuousFunctionCode () const
 Return a continuous FunctionSpace code.
virtual int getReducedContinuousFunctionCode () const
 Return a continuous on reduced order nodes FunctionSpace code.
virtual int getFunctionCode () const
 Return a function FunctionSpace code.
virtual int getReducedFunctionCode () const
 Return a function with reduced integration order FunctionSpace code.
virtual int getFunctionOnBoundaryCode () const
 Return a function on boundary FunctionSpace code.
virtual int getReducedFunctionOnBoundaryCode () const
 Return a function on boundary with reduced integration order FunctionSpace code.
virtual int getFunctionOnContactZeroCode () const
 Return a FunctionOnContactZero code.
virtual int getReducedFunctionOnContactZeroCode () const
 Return a FunctionOnContactZero code with reduced integration order.
virtual int getFunctionOnContactOneCode () const
 Return a FunctionOnContactOne code.
virtual int getReducedFunctionOnContactOneCode () const
 Return a FunctionOnContactOne code with reduced integration order.
virtual int getSolutionCode () const
 Return a Solution code.
virtual int getReducedSolutionCode () const
 Return a ReducedSolution code.
virtual int getDiracDeltaFunctionsCode () const
 Return a DiracDeltaFunctions code.
virtual int getDim () const
 Returns the spatial dimension of the domain.
virtual StatusType getStatus () const
 Returns a status indicator of the domain. The status identifier should be unique over the live time if the object but may be updated if changes to the domain happen, e.g. modifications to its geometry.
virtual int getNumDataPointsGlobal () const
 Return the number of data points summed across all MPI processes.
virtual std::pair< int, int > getDataShape (int functionSpaceCode) const
 Return the number of data points per sample, and the number of samples as a pair.
virtual void setToX (escript::Data &arg) const
 copies the location of data points into arg. The domain of arg has to match this. has to be implemented by the actual Domain adapter.
virtual void setTagMap (const std::string &name, int tag)
 sets a map from a clear tag name to a tag key
virtual int getTag (const std::string &name) const
 Return the tag key for tag name.
virtual bool isValidTagName (const std::string &name) const
 Returns true if name is a defined tage name.
virtual std::string showTagNames () const
 Returns all tag names in a single string sperated by commas.
virtual void setNewX (const escript::Data &arg)
 assigns new location to the domain
virtual void interpolateOnDomain (escript::Data &target, const escript::Data &source) const
 interpolates data given on source onto target where source and target have to be given on the same domain.
virtual bool probeInterpolationOnDomain (int functionSpaceType_source, int functionSpaceType_target) const
 True if interpolation is possible from source to target.
virtual signed char preferredInterpolationOnDomain (int functionSpaceType_source, int functionSpaceType_target) const
 Preferred direction of interpolation.
bool commonFunctionSpace (const std::vector< int > &fs, int &resultcode) const
 given a vector of FunctionSpace typecodes, pass back a code which then can all be interpolated to.
virtual void interpolateACross (escript::Data &target, const escript::Data &source) const
 interpolates data given on source onto target where source and target are given on different domains. has to be implemented by the actual Domain adapter.
virtual bool probeInterpolationACross (int functionSpaceType_source, const escript::AbstractDomain &targetDomain, int functionSpaceType_target) const
 determines whether interpolation from source to target is possible. Must be implemented by the actual Domain adapter
virtual void setToNormal (escript::Data &out) const
 copies the surface normals at data points into out. The actual function space to be considered is defined by out. out has to be defined on this.
virtual void setToSize (escript::Data &out) const
 copies the size of samples into out. The actual function space to be considered is defined by out. out has to be defined on this.
virtual void setToGradient (escript::Data &grad, const escript::Data &arg) const
 copies the gradient of arg into grad. The actual function space to be considered for the gradient is defined by grad. arg and grad have to be defined on this.
virtual void setToIntegrals (std::vector< double > &integrals, const escript::Data &arg) const
 copies the integrals of the function defined by arg into integrals. arg has to be defined on this.
virtual int getSystemMatrixTypeId (const int solver, const int preconditioner, const int package, const bool symmetry) const
 return the identifier of the matrix type to be used for the global stiffness matrix when a particular solver, package, perconditioner, and symmetric matrix is used.
virtual int getTransportTypeId (const int solver, const int preconditioner, const int package, const bool symmetry) const
 return the identifier of the transport problem type to be used when a particular solver, perconditioner, package and symmetric matrix is used.
virtual bool isCellOriented (int functionSpaceCode) const
 returns true if data on this domain and a function space of type functionSpaceCode has to considered as cell centered data.
virtual bool ownSample (int fs_code, index_t id) const
 True if this rank owns the sample(id) Must be implemented by the Domain adapter.
virtual void addPDEToSystem (escript::AbstractSystemMatrix &mat, escript::Data &rhs, const escript::Data &A, const escript::Data &B, const escript::Data &C, const escript::Data &D, const escript::Data &X, const escript::Data &Y, const escript::Data &d, const escript::Data &y, const escript::Data &d_contact, const escript::Data &y_contact, const escript::Data &d_dirac, const escript::Data &y_dirac) const
 adds a PDE onto the stiffness matrix mat and a rhs
virtual void addPDEToLumpedSystem (escript::Data &mat, const escript::Data &D, const escript::Data &d, const escript::Data &d_dirac, const bool useHRZ) const
 adds a PDE onto the lumped stiffness matrix matrix
virtual void addPDEToRHS (escript::Data &rhs, const escript::Data &X, const escript::Data &Y, const escript::Data &y, const escript::Data &y_contact, const escript::Data &y_dirac) const
 adds a PDE onto the stiffness matrix mat and a rhs
virtual void addPDEToTransportProblem (escript::AbstractTransportProblem &tp, escript::Data &source, const escript::Data &M, const escript::Data &A, const escript::Data &B, const escript::Data &C, const escript::Data &D, const escript::Data &X, const escript::Data &Y, const escript::Data &d, const escript::Data &y, const escript::Data &d_contact, const escript::Data &y_contact, const escript::Data &d_dirac, const escript::Data &y_dirac) const
 adds a PDE onto a transport problem
escript::ASM_ptr newSystemMatrix (const int row_blocksize, const escript::FunctionSpace &row_functionspace, const int column_blocksize, const escript::FunctionSpace &column_functionspace, const int type) const
 creates a SystemMatrixAdapter stiffness matrix and initializes it with zeros:
escript::ATP_ptr newTransportProblem (const int blocksize, const escript::FunctionSpace &functionspace, const int type) const
 creates a TransportProblemAdapter
virtual escript::Data getX () const
 returns locations in the FEM nodes
virtual escript::Data getNormal () const
 return boundary normals at the quadrature point on the face elements
virtual escript::Data getSize () const
 returns the element size
virtual bool operator== (const escript::AbstractDomain &other) const
 comparison operators
virtual bool operator!= (const escript::AbstractDomain &other) const
virtual void setTags (const int functionSpaceType, const int newTag, const escript::Data &mask) const
 assigns new tag newTag to all samples of functionspace with a positive value of mask for any its sample point.
virtual int getNumberOfTagsInUse (int functionSpaceCode) const
 return the number of tags in use and a pointer to an array with the number of tags in use
virtual const int * borrowListOfTagsInUse (int functionSpaceCode) const
virtual bool canTag (int functionSpaceCode) const
 Checks if this domain allows tags for the specified functionSpaceCode.
virtual int getApproximationOrder (const int functionSpaceCode) const
 returns the approximation order used for a function space functionSpaceCode
bool supportsContactElements () const
virtual escript::Data randomFill (const escript::DataTypes::ShapeType &shape, const escript::FunctionSpace &what, long seed, const boost::python::tuple &filter) const
 Fills the data object with filtered random values.

Static Public Attributes

static const int DegreesOfFreedom = DUDLEY_DEGREES_OF_FREEDOM
static const int ReducedDegreesOfFreedom = DUDLEY_REDUCED_DEGREES_OF_FREEDOM
static const int Nodes = DUDLEY_NODES
static const int ReducedNodes = DUDLEY_REDUCED_NODES
static const int Elements = DUDLEY_ELEMENTS
static const int ReducedElements = DUDLEY_REDUCED_ELEMENTS
static const int FaceElements = DUDLEY_FACE_ELEMENTS
static const int ReducedFaceElements = DUDLEY_REDUCED_FACE_ELEMENTS
static const int Points = DUDLEY_POINTS
static const int ContactElementsZero
static const int ReducedContactElementsZero
static const int ContactElementsOne
static const int ReducedContactElementsOne

Private Member Functions

void extractArgsFromDict (const boost::python::dict &arg, int &numData, char **&names, escriptDataC *&data, escriptDataC **&dataPtr) const

Private Attributes

boost::shared_ptr< Dudley_Meshm_dudleyMesh

Static Private Attributes

static FunctionSpaceNamesMapType m_functionSpaceTypeNames

Detailed Description

MeshAdapter implements the AbstractContinuousDomain interface for the Dudley library.

Description: MeshAdapter implements the AbstractContinuousDomain interface for the Dudley library.


Member Typedef Documentation

typedef std::map<int, std::string> dudley::MeshAdapter::FunctionSpaceNamesMapType

5B


Constructor & Destructor Documentation

Constructor for MeshAdapter.

Description: Constructor for MeshAdapter. The pointer passed to MeshAdapter is deleted using a call to Dudley_Mesh_free in the MeshAdapter destructor.

Throws: May throw an exception derived from EsysException

Parameters:
dudleyMeshInput - A pointer to the externally constructed dudley mesh.The pointer passed to MeshAdapter is deleted using a call to Dudley_Mesh_free in the MeshAdapter destructor.

Copy constructor.

References setFunctionSpaceTypeNames().

Destructor for MeshAdapter. As specified in the constructor this calls Dudley_Mesh_free for the pointer given to the constructor.

References Dudley_Mesh_free(), and m_dudleyMesh.


Member Function Documentation

void dudley::MeshAdapter::addPDEToLumpedSystem ( escript::Data mat,
const escript::Data D,
const escript::Data d,
const escript::Data d_dirac,
const bool  useHRZ 
) const [virtual]
void dudley::MeshAdapter::addPDEToRHS ( escript::Data rhs,
const escript::Data X,
const escript::Data Y,
const escript::Data y,
const escript::Data y_contact,
const escript::Data y_dirac 
) const [virtual]
void dudley::MeshAdapter::addPDEToSystem ( escript::AbstractSystemMatrix mat,
escript::Data rhs,
const escript::Data A,
const escript::Data B,
const escript::Data C,
const escript::Data D,
const escript::Data X,
const escript::Data Y,
const escript::Data d,
const escript::Data y,
const escript::Data d_contact,
const escript::Data y_contact,
const escript::Data d_dirac,
const escript::Data y_dirac 
) const [virtual]
void dudley::MeshAdapter::addPDEToTransportProblem ( escript::AbstractTransportProblem tp,
escript::Data source,
const escript::Data M,
const escript::Data A,
const escript::Data B,
const escript::Data C,
const escript::Data D,
const escript::Data X,
const escript::Data Y,
const escript::Data d,
const escript::Data y,
const escript::Data d_contact,
const escript::Data y_contact,
const escript::Data d_dirac,
const escript::Data y_dirac 
) const [virtual]
const int * dudley::MeshAdapter::borrowListOfTagsInUse ( int  functionSpaceCode) const [virtual]
const int * dudley::MeshAdapter::borrowSampleReferenceIDs ( int  functionSpaceType) const [virtual]
bool dudley::MeshAdapter::canTag ( int  functionSpaceCode) const [virtual]

Checks if this domain allows tags for the specified functionSpaceCode.

Reimplemented from escript::AbstractDomain.

References DegreesOfFreedom, Elements, FaceElements, Nodes, Points, ReducedDegreesOfFreedom, ReducedElements, ReducedFaceElements, and ReducedNodes.

bool dudley::MeshAdapter::commonFunctionSpace ( const std::vector< int > &  fs,
int &  resultcode 
) const [virtual]

given a vector of FunctionSpace typecodes, pass back a code which then can all be interpolated to.

Returns:
true is result is valid, false if not

Reimplemented from escript::AbstractDomain.

References DegreesOfFreedom, Elements, FaceElements, Nodes, Points, ReducedDegreesOfFreedom, ReducedElements, ReducedFaceElements, and ReducedNodes.

void dudley::MeshAdapter::dump ( const std::string &  fileName) const [virtual]
void dudley::MeshAdapter::extractArgsFromDict ( const boost::python::dict &  arg,
int &  numData,
char **&  names,
escriptDataC *&  data,
escriptDataC **&  dataPtr 
) const [private]
string dudley::MeshAdapter::functionSpaceTypeAsString ( int  functionSpaceType) const [virtual]

Return a description for the given function space type code.

Reimplemented from escript::AbstractDomain.

References m_functionSpaceTypeNames.

int dudley::MeshAdapter::getApproximationOrder ( const int  functionSpaceCode) const [virtual]

Return a continuous FunctionSpace code.

Reimplemented from escript::AbstractContinuousDomain.

References Nodes.

pair< int, int > dudley::MeshAdapter::getDataShape ( int  functionSpaceCode) const [virtual]
string dudley::MeshAdapter::getDescription ( ) const [virtual]

Return a description for this domain.

Reimplemented from escript::AbstractContinuousDomain.

Referenced by BOOST_PYTHON_MODULE(), borrowSampleReferenceIDs(), getDataShape(), and getTagFromSampleNo().

int dudley::MeshAdapter::getDim ( ) const [virtual]

Returns the spatial dimension of the domain.

This has to be implemented by the actual Domain adapter.

Reimplemented from escript::AbstractDomain.

References dudley::checkDudleyError(), Dudley_Mesh_getDim(), and m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE().

Return a DiracDeltaFunctions code.

Reimplemented from escript::AbstractContinuousDomain.

References Points.

return the pointer to the underlying dudley mesh structure

References m_dudleyMesh.

Referenced by newSystemMatrix(), and newTransportProblem().

int dudley::MeshAdapter::getFunctionCode ( ) const [virtual]

Return a function FunctionSpace code.

Reimplemented from escript::AbstractContinuousDomain.

References Elements.

Return a function on boundary FunctionSpace code.

Reimplemented from escript::AbstractContinuousDomain.

References FaceElements.

Return a FunctionOnContactOne code.

Reimplemented from escript::AbstractContinuousDomain.

Return a FunctionOnContactZero code.

Reimplemented from escript::AbstractContinuousDomain.

unsigned int dudley::MeshAdapter::getMPIComm ( ) const [virtual]

get the communicator for this domain. Returns 0 on non-MPI builds Routine must be implemented by the DomainAdapter

Reimplemented from escript::AbstractDomain.

References m_dudleyMesh.

int dudley::MeshAdapter::getMPIRank ( ) const [virtual]

return the number MPI rank of this processor

Reimplemented from escript::AbstractDomain.

References m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE().

int dudley::MeshAdapter::getMPISize ( ) const [virtual]

return the number of processors used for this domain

Reimplemented from escript::AbstractDomain.

References m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE(), interpolateOnDomain(), ownSample(), and setToGradient().

return boundary normals at the quadrature point on the face elements

Reimplemented from escript::AbstractDomain.

References escript::functionOnBoundary(), and escript::FunctionSpace::getNormal().

Referenced by BOOST_PYTHON_MODULE().

int dudley::MeshAdapter::getNumberOfTagsInUse ( int  functionSpaceCode) const [virtual]

Return the number of data points summed across all MPI processes.

Reimplemented from escript::AbstractContinuousDomain.

References Dudley_NodeFile_getGlobalNumNodes(), and m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE().

Return a continuous on reduced order nodes FunctionSpace code.

Reimplemented from escript::AbstractContinuousDomain.

References ReducedNodes.

Return a function with reduced integration order FunctionSpace code.

Reimplemented from escript::AbstractContinuousDomain.

References ReducedElements.

Return a function on boundary with reduced integration order FunctionSpace code.

Reimplemented from escript::AbstractContinuousDomain.

References ReducedFaceElements.

Return a FunctionOnContactOne code with reduced integration order.

Reimplemented from escript::AbstractContinuousDomain.

Return a FunctionOnContactZero code with reduced integration order.

Reimplemented from escript::AbstractContinuousDomain.

Return a ReducedSolution code.

Reimplemented from escript::AbstractContinuousDomain.

References ReducedDegreesOfFreedom.

returns the element size

Reimplemented from escript::AbstractDomain.

References escript::function(), and escript::FunctionSpace::getSize().

Referenced by BOOST_PYTHON_MODULE().

int dudley::MeshAdapter::getSolutionCode ( ) const [virtual]

Return a Solution code.

Reimplemented from escript::AbstractContinuousDomain.

References DegreesOfFreedom.

Returns a status indicator of the domain. The status identifier should be unique over the live time if the object but may be updated if changes to the domain happen, e.g. modifications to its geometry.

This has to be implemented by the actual Domain adapter.

Reimplemented from escript::AbstractDomain.

References Dudley_Mesh_getStatus(), and m_dudleyMesh.

int dudley::MeshAdapter::getSystemMatrixTypeId ( const int  solver,
const int  preconditioner,
const int  package,
const bool  symmetry 
) const [virtual]

return the identifier of the matrix type to be used for the global stiffness matrix when a particular solver, package, perconditioner, and symmetric matrix is used.

Parameters:
solver
preconditioner
package
symmetry

Reimplemented from escript::AbstractContinuousDomain.

References m_dudleyMesh, and Dudley_Mesh::MPIInfo.

Referenced by BOOST_PYTHON_MODULE().

int dudley::MeshAdapter::getTag ( const std::string &  name) const [virtual]

Return the tag key for tag name.

Parameters:
nameInput - tag name

Reimplemented from escript::AbstractDomain.

References dudley::checkDudleyError(), Dudley_Mesh_getTag(), and m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE().

int dudley::MeshAdapter::getTagFromSampleNo ( int  functionSpaceType,
int  sampleNo 
) const [virtual]

Return the tag key for the given sample number.

Parameters:
functionSpaceTypeInput - The function space type.
sampleNoInput - The sample number.

Reimplemented from escript::AbstractDomain.

References DegreesOfFreedom, Elements, Dudley_Mesh::Elements, FaceElements, Dudley_Mesh::FaceElements, getDescription(), m_dudleyMesh, Nodes, Dudley_Mesh::Nodes, Points, Dudley_Mesh::Points, ReducedDegreesOfFreedom, ReducedElements, ReducedFaceElements, ReducedNodes, Dudley_NodeFile::Tag, and Dudley_ElementFile::Tag.

int dudley::MeshAdapter::getTransportTypeId ( const int  solver,
const int  preconditioner,
const int  package,
const bool  symmetry 
) const [virtual]

return the identifier of the transport problem type to be used when a particular solver, perconditioner, package and symmetric matrix is used.

Parameters:
solver
preconditioner
package
symmetry

Reimplemented from escript::AbstractContinuousDomain.

References m_dudleyMesh, and Dudley_Mesh::MPIInfo.

Referenced by BOOST_PYTHON_MODULE().

returns locations in the FEM nodes

Reimplemented from escript::AbstractDomain.

References escript::continuousFunction(), and escript::FunctionSpace::getX().

Referenced by BOOST_PYTHON_MODULE().

void dudley::MeshAdapter::interpolateACross ( escript::Data target,
const escript::Data source 
) const [virtual]

interpolates data given on source onto target where source and target are given on different domains. has to be implemented by the actual Domain adapter.

Reimplemented from escript::AbstractDomain.

References escript::FunctionSpace::getDomain(), and escript::Data::getFunctionSpace().

void dudley::MeshAdapter::interpolateOnDomain ( escript::Data target,
const escript::Data source 
) const [virtual]
bool dudley::MeshAdapter::isCellOriented ( int  functionSpaceCode) const [virtual]

returns true if data on this domain and a function space of type functionSpaceCode has to considered as cell centered data.

Reimplemented from escript::AbstractDomain.

References dudley::checkDudleyError(), DegreesOfFreedom, Elements, FaceElements, Nodes, Points, ReducedDegreesOfFreedom, ReducedElements, and ReducedFaceElements.

bool dudley::MeshAdapter::isValidFunctionSpaceType ( int  functionSpaceType) const [virtual]

Returns true if the given integer is a valid function space type for this domain.

Reimplemented from escript::AbstractContinuousDomain.

References m_functionSpaceTypeNames.

bool dudley::MeshAdapter::isValidTagName ( const std::string &  name) const [virtual]

Returns true if name is a defined tage name.

Parameters:
nameInput - tag name to be checked.

Reimplemented from escript::AbstractDomain.

References Dudley_Mesh_isValidTagName(), and m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE().

void dudley::MeshAdapter::MPIBarrier ( ) const [virtual]

If compiled for MPI then execute an MPI_Barrier, else do nothing.

Reimplemented from escript::AbstractDomain.

References m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE().

ASM_ptr dudley::MeshAdapter::newSystemMatrix ( const int  row_blocksize,
const escript::FunctionSpace row_functionspace,
const int  column_blocksize,
const escript::FunctionSpace column_functionspace,
const int  type 
) const [virtual]
ATP_ptr dudley::MeshAdapter::newTransportProblem ( const int  blocksize,
const escript::FunctionSpace functionspace,
const int  type 
) const [virtual]
bool dudley::MeshAdapter::onMasterProcessor ( ) const [virtual]

Return true if on MPI processor 0, else false.

Reimplemented from escript::AbstractDomain.

References m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE().

bool dudley::MeshAdapter::operator!= ( const escript::AbstractDomain other) const [virtual]

Reimplemented from escript::AbstractDomain.

References operator==().

bool dudley::MeshAdapter::operator== ( const escript::AbstractDomain other) const [virtual]

comparison operators

Reimplemented from escript::AbstractDomain.

References m_dudleyMesh.

Referenced by operator!=().

bool dudley::MeshAdapter::ownSample ( int  fs_code,
index_t  id 
) const [virtual]
signed char dudley::MeshAdapter::preferredInterpolationOnDomain ( int  functionSpaceType_source,
int  functionSpaceType_target 
) const [virtual]

Preferred direction of interpolation.

If you really need to test for a particular direction, then use probeInterpolation.

Returns:
0 for not possible, 1 for possible and preferred, -1 other direction preferred (does not mean this direction is possible)

Reimplemented from escript::AbstractDomain.

References probeInterpolationOnDomain().

void dudley::MeshAdapter::Print_Mesh_Info ( const bool  full = false) const [virtual]
Parameters:
full

Reimplemented from escript::AbstractContinuousDomain.

References Dudley_PrintMesh_Info(), and m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE().

bool dudley::MeshAdapter::probeInterpolationACross ( int  functionSpaceType_source,
const escript::AbstractDomain targetDomain,
int  functionSpaceType_target 
) const [virtual]

determines whether interpolation from source to target is possible. Must be implemented by the actual Domain adapter

Reimplemented from escript::AbstractDomain.

bool dudley::MeshAdapter::probeInterpolationOnDomain ( int  functionSpaceType_source,
int  functionSpaceType_target 
) const [virtual]
escript::Data dudley::MeshAdapter::randomFill ( const escript::DataTypes::ShapeType shape,
const escript::FunctionSpace what,
long  seed,
const boost::python::tuple &  filter 
) const [virtual]

Fills the data object with filtered random values.

Implements escript::AbstractDomain.

References escript::Data::getExpandedVectorReference(), esysUtils::randomFillArray(), and escript::DataVector::size().

void dudley::MeshAdapter::setNewX ( const escript::Data arg) [virtual]
void dudley::MeshAdapter::setTagMap ( const std::string &  name,
int  tag 
) [virtual]

sets a map from a clear tag name to a tag key

Parameters:
nameInput - tag name.
tagInput - tag key.

Reimplemented from escript::AbstractDomain.

References dudley::checkDudleyError(), Dudley_Mesh_addTagMap(), and m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE().

void dudley::MeshAdapter::setTags ( const int  functionSpaceType,
const int  newTag,
const escript::Data mask 
) const [virtual]
void dudley::MeshAdapter::setToGradient ( escript::Data grad,
const escript::Data arg 
) const [virtual]
void dudley::MeshAdapter::setToIntegrals ( std::vector< double > &  integrals,
const escript::Data arg 
) const [virtual]
void dudley::MeshAdapter::setToNormal ( escript::Data out) const [virtual]
void dudley::MeshAdapter::setToSize ( escript::Data out) const [virtual]
void dudley::MeshAdapter::setToX ( escript::Data arg) const [virtual]
string dudley::MeshAdapter::showTagNames ( ) const [virtual]

Returns all tag names in a single string sperated by commas.

Reimplemented from escript::AbstractDomain.

References m_dudleyMesh, Dudley_TagMap::name, Dudley_TagMap::next, and Dudley_Mesh::TagMap.

Referenced by BOOST_PYTHON_MODULE().

Reimplemented from escript::AbstractDomain.

void dudley::MeshAdapter::write ( const std::string &  fileName) const [virtual]

Write the current mesh to a file with the given name.

Parameters:
fileNameInput - The name of the file to write to.

Reimplemented from escript::AbstractDomain.

References dudley::checkDudleyError(), Dudley_Mesh_write(), and m_dudleyMesh.

Referenced by BOOST_PYTHON_MODULE().


Member Data Documentation

boost::shared_ptr<Dudley_Mesh> dudley::MeshAdapter::m_dudleyMesh [private]

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