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Public Member Functions | Protected Member Functions | Protected Attributes | Private Member Functions
ripley::RipleyDomain Class Reference

RipleyDomain extends the AbstractContinuousDomain interface for the Ripley library and is the base class for Rectangle and Brick. More...

#include <RipleyDomain.h>

Inheritance diagram for ripley::RipleyDomain:
escript::AbstractContinuousDomain escript::AbstractDomain ripley::Brick ripley::Rectangle

List of all members.

Public Member Functions

 RipleyDomain (dim_t dim)
 Constructor with number of dimensions. Allocates MPI info structure.
 ~RipleyDomain ()
 Destructor.
virtual int getMPISize () const
 returns the number of processors used for this domain
virtual int getMPIRank () const
 returns the MPI rank of this processor
virtual void MPIBarrier () const
 if compiled for MPI then executes an MPI_Barrier, else does nothing
virtual bool onMasterProcessor () const
 returns true if on MPI processor 0, else false
unsigned int getMPIComm () const
 returns the MPI communicator
virtual bool isValidFunctionSpaceType (int fsType) const
 returns true if the argument is a valid function space type for this domain
virtual std::string functionSpaceTypeAsString (int fsType) const
 returns a description for the given function space type code
virtual int getDim () const
 returns the number of spatial dimensions of the domain
virtual bool operator== (const escript::AbstractDomain &other) const
 equality operator
virtual bool operator!= (const escript::AbstractDomain &other) const
 inequality operator
virtual std::pair< int, int > getDataShape (int fsType) const
 returns the number of data points per sample, and the number of samples as a pair.
int getTagFromSampleNo (int fsType, int sampleNo) const
 returns the tag key for the given sample number
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
 returns the tag key for tag name
virtual bool isValidTagName (const std::string &name) const
 returns true if name is a defined tag name
virtual std::string showTagNames () const
 returns all tag names in a single string separated 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 fsType_source, int fsType_target) const
 returns true if data on fsType_source can be interpolated onto fsType_target, false otherwise
virtual signed char preferredInterpolationOnDomain (int fsType_source, int fsType_target) const
 Preferred direction of interpolation.
bool commonFunctionSpace (const std::vector< int > &fs, int &resultcode) const
 given a vector of FunctionSpace type codes, passes back a code which all can 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
virtual bool probeInterpolationACross (int, const escript::AbstractDomain &, int) const
 determines whether interpolation from source to target is possible
virtual escript::Data getX () const
 returns locations in the FEM nodes
virtual escript::Data getNormal () const
 returns boundary normals at the quadrature point on the face elements
virtual escript::Data getSize () const
 returns the element size
virtual void setToX (escript::Data &arg) const
 copies the location of data points into arg. The domain of arg has to match this domain.
virtual void setToGradient (escript::Data &out, const escript::Data &in) const
 copies the gradient of 'in' into 'out'. The actual function space to be considered for the gradient is defined by 'in'. Both arguments have to be defined on this domain.
virtual void setTags (const int fsType, const int newTag, const escript::Data &mask) const
 assigns new tag newTag to all samples of given function space with a positive value of mask for any of its sample points
virtual bool isCellOriented (int fsType) const
 returns true if data on this domain and given function space type has to be considered as cell centered data
virtual StatusType getStatus () const
 returns a status indicator of the domain. The status identifier should be unique over the lifetime of the object but may be updated if changes to the domain happen, e.g. modifications to its geometry.
virtual int getNumberOfTagsInUse (int fsType) const
 returns the number of tags in use for a function space type
virtual const int * borrowListOfTagsInUse (int fsType) const
 returns a pointer to the list of tags in use for a function space type
virtual bool canTag (int fsType) const
 checks if this domain allows tags for the specified function space type
virtual int getApproximationOrder (const int fsType) const
 returns the approximation order used for a function space
virtual bool supportsContactElements () const
 returns true if this domain supports contact elements, false otherwise
virtual int getContinuousFunctionCode () const
 returns a continuous FunctionSpace code
virtual int getReducedContinuousFunctionCode () const
 returns a continuous on reduced order nodes FunctionSpace code
virtual int getFunctionCode () const
 returns a function FunctionSpace code
virtual int getReducedFunctionCode () const
 returns a function with reduced integration order FunctionSpace code
virtual int getFunctionOnBoundaryCode () const
 returns a function on boundary FunctionSpace code
virtual int getReducedFunctionOnBoundaryCode () const
 returns a function on boundary with reduced integration order FunctionSpace code
virtual int getFunctionOnContactZeroCode () const
 return a FunctionOnContactZero code
virtual int getReducedFunctionOnContactZeroCode () const
 returns a FunctionOnContactZero code with reduced integration order
virtual int getFunctionOnContactOneCode () const
 returns a FunctionOnContactOne code
virtual int getReducedFunctionOnContactOneCode () const
 returns a FunctionOnContactOne code with reduced integration order
virtual int getSolutionCode () const
 returns a Solution FunctionSpace code
virtual int getReducedSolutionCode () const
 returns a ReducedSolution FunctionSpace code
virtual int getDiracDeltaFunctionsCode () const
 returns a DiracDeltaFunctions FunctionSpace code
virtual int getSystemMatrixTypeId (const int solver, const int preconditioner, const int package, const bool symmetry) const
 returns the identifier of the matrix type to be used for the global stiffness matrix when a particular solver, package, preconditioner, and symmetric matrix is used
virtual int getTransportTypeId (const int solver, const int preconditioner, const int package, const bool symmetry) const
 returns the identifier of the transport problem type to be used when a particular solver, preconditioner, package and symmetric matrix is used
virtual void setToIntegrals (DoubleVector &integrals, const escript::Data &arg) const
 copies the integrals of the function defined by arg into integrals. arg has to be defined on this domain.
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 rhs
virtual void addToSystem (escript::AbstractSystemMatrix &mat, escript::Data &rhs, std::map< std::string, escript::Data > data) const
 adds a PDE onto the stiffness matrix mat and rhs, used for custom solvers with varying arguments counts and so on
virtual void addToSystemFromPython (escript::AbstractSystemMatrix &mat, escript::Data &rhs, boost::python::list data) const
 a wrapper for addToSystem that allows calling from Python
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 rhs
virtual void addToRHS (escript::Data &rhs, std::map< std::string, escript::Data > data) const
 adds a PDE onto rhs, used for custom solvers with varying arguments counts and so on
virtual void addToRHSFromPython (escript::Data &rhs, boost::python::list data) const
 a wrapper for addToRHS that allows calling from Python
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
virtual 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 stiffness matrix and initializes it with zeros
virtual escript::ATP_ptr newTransportProblem (const int blocksize, const escript::FunctionSpace &functionspace, const int type) const
 creates a transport problem
virtual void Print_Mesh_Info (const bool full=false) const
 writes information about the mesh to standard output
virtual std::string getDescription () const =0
 writes the current mesh to a file with the given name
void dump (const std::string &filename) const =0
 dumps the mesh to a file with the given name
const int * borrowSampleReferenceIDs (int fsType) const =0
 returns the array of reference numbers for a function space type
virtual void setToNormal (escript::Data &out) const =0
 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 domain.
virtual void setToSize (escript::Data &out) const =0
 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 domain.
virtual void readNcGrid (escript::Data &out, std::string filename, std::string varname, const ReaderParameters &params) const =0
virtual void readBinaryGrid (escript::Data &out, std::string filename, const ReaderParameters &params) const =0
virtual void writeBinaryGrid (const escript::Data &in, std::string filename, int byteOrder, int dataType) const =0
virtual bool ownSample (int fsType, index_t id) const =0
 returns true if this rank owns the sample id on given function space
virtual int getNumDataPointsGlobal () const =0
 returns the number of data points summed across all MPI processes
virtual const int * getNumNodesPerDim () const =0
 returns the number of nodes per MPI rank in each dimension
virtual const int * getNumElementsPerDim () const =0
 returns the number of elements per MPI rank in each dimension
virtual const int * getNumFacesPerBoundary () const =0
 returns the number of face elements in the order (left,right,bottom,top,[front,back]) on current MPI rank
virtual IndexVector getNodeDistribution () const =0
 returns the node distribution vector
virtual const int * getNumSubdivisionsPerDim () const =0
 returns the number of spatial subdivisions in each dimension
virtual double getLocalCoordinate (int index, int dim) const =0
 returns the index'th coordinate value in given dimension for this rank
virtual boost::python::tuple getGridParameters () const =0
 returns the tuple (origin, spacing, number_of_elements)
virtual bool supportsFilter (const boost::python::tuple &t) const
 true if this domain can handle the specified tuple of filter options.
virtual void setAssembler (std::string type, std::map< std::string, escript::Data > options)
void setAssemblerFromPython (std::string type, boost::python::list options)

Protected Member Functions

void copyData (escript::Data &out, const escript::Data &in) const
 copies data in 'in' to 'out' (both must be on same function space)
void averageData (escript::Data &out, const escript::Data &in) const
 averages data in 'in' to 'out' (from non-reduced to reduced fs)
void multiplyData (escript::Data &out, const escript::Data &in) const
 copies data in 'in' to 'out' (from reduced to non-reduced fs)
void updateTagsInUse (int fsType) const
paso::Pattern_ptr createPasoPattern (const IndexVector &ptr, const IndexVector &index, const dim_t M, const dim_t N) const
 allocates and returns a Paso pattern structure
paso::Pattern_ptr createMainPattern () const
 creates the pattern for the main block of the system matrix
void createCouplePatterns (const std::vector< IndexVector > &colIndices, const std::vector< IndexVector > &rowIndices, const dim_t N, paso::Pattern_ptr &colPattern, paso::Pattern_ptr &rowPattern) const
void addToSystemMatrix (paso::SystemMatrix_ptr in, const IndexVector &nodes_Eq, dim_t num_Eq, const IndexVector &nodes_Sol, dim_t num_Sol, const DoubleVector &array) const
void addPoints (int numPoints, const double *points_ptr, const int *tags_ptr)
virtual dim_t getNumNodes () const =0
 returns the number of nodes per MPI rank
virtual dim_t getNumElements () const =0
 returns the number of elements per MPI rank
virtual dim_t getNumDOF () const =0
 returns the number of degrees of freedom per MPI rank
virtual dim_t getNumFaceElements () const =0
 returns the number of face elements on current MPI rank
virtual dim_t insertNeighbourNodes (IndexVector &index, index_t node) const =0
virtual void assembleCoordinates (escript::Data &arg) const =0
 populates the data object 'arg' with the node coordinates
virtual void assembleGradient (escript::Data &out, const escript::Data &in) const =0
 computes the gradient of 'in' and puts the result in 'out'
virtual void assembleIntegrate (DoubleVector &integrals, const escript::Data &arg) const =0
 copies the integrals of the function defined by 'arg' into 'integrals'
virtual
paso::SystemMatrixPattern_ptr 
getPattern (bool reducedRowOrder, bool reducedColOrder) const =0
 returns the Paso system matrix pattern
virtual void interpolateNodesOnElements (escript::Data &out, const escript::Data &in, bool reduced) const =0
 interpolates data on nodes in 'in' onto (reduced) elements in 'out'
virtual void interpolateNodesOnFaces (escript::Data &out, const escript::Data &in, bool reduced) const =0
 interpolates data on nodes in 'in' onto (reduced) face elements in 'out'
virtual void nodesToDOF (escript::Data &out, const escript::Data &in) const =0
 converts data on nodes in 'in' to degrees of freedom in 'out'
virtual void dofToNodes (escript::Data &out, const escript::Data &in) const =0
 converts data on degrees of freedom in 'in' to nodes in 'out'
virtual int getDofOfNode (int node) const =0

Protected Attributes

dim_t m_numDim
StatusType m_status
Esys_MPIInfom_mpiInfo
TagMap m_tagMap
IndexVector m_nodeTags
IndexVector m_nodeTagsInUse
IndexVector m_elementTags
IndexVector m_elementTagsInUse
IndexVector m_faceTags
IndexVector m_faceTagsInUse
AbstractAssemblerassembler
std::vector< struct DiracPointm_diracPoints
IndexVector m_diracPointNodeIDs
assembler_t assembler_type

Private Member Functions

void assemblePDE (paso::SystemMatrix_ptr mat, escript::Data &rhs, std::map< std::string, escript::Data > coefs) const
 calls the right PDE assembly routines after performing input checks
void assemblePDEBoundary (paso::SystemMatrix_ptr mat, escript::Data &rhs, std::map< std::string, escript::Data > coefs) const
void assemblePDEDirac (paso::SystemMatrix_ptr mat, escript::Data &rhs, std::map< std::string, escript::Data > coefs) const
virtual int findNode (const double *coords) const =0

Detailed Description

RipleyDomain extends the AbstractContinuousDomain interface for the Ripley library and is the base class for Rectangle and Brick.


Constructor & Destructor Documentation

Constructor with number of dimensions. Allocates MPI info structure.

References assembler_type, ripley::DEFAULT_ASSEMBLER, Esys_MPIInfo_alloc(), m_mpiInfo, and MPI_COMM_WORLD.

Destructor.

References Esys_MPIInfo_free(), and m_mpiInfo.


Member Function Documentation

void ripley::RipleyDomain::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 ripley::RipleyDomain::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 ripley::RipleyDomain::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]
void ripley::RipleyDomain::addPoints ( int  numPoints,
const double *  points_ptr,
const int *  tags_ptr 
) [protected]
void ripley::RipleyDomain::addToRHS ( escript::Data rhs,
std::map< std::string, escript::Data data 
) const [virtual]

adds a PDE onto rhs, used for custom solvers with varying arguments counts and so on

References assemblePDE(), assemblePDEBoundary(), assemblePDEDirac(), escript::Data::isEmpty(), and isNotEmpty().

Referenced by addToRHSFromPython().

void ripley::RipleyDomain::addToRHSFromPython ( escript::Data rhs,
boost::python::list  data 
) const [virtual]

a wrapper for addToRHS that allows calling from Python

References addToRHS(), and ripley::tupleListToMap().

Referenced by BOOST_PYTHON_MODULE().

void ripley::RipleyDomain::addToSystem ( escript::AbstractSystemMatrix mat,
escript::Data rhs,
std::map< std::string, escript::Data data 
) const [virtual]

adds a PDE onto the stiffness matrix mat and rhs, used for custom solvers with varying arguments counts and so on

References assemblePDE(), assemblePDEBoundary(), assemblePDEDirac(), paso::SystemMatrixAdapter::getPaso_SystemMatrix(), isNotEmpty(), and S.

Referenced by addToSystemFromPython().

void ripley::RipleyDomain::addToSystemFromPython ( escript::AbstractSystemMatrix mat,
escript::Data rhs,
boost::python::list  data 
) const [virtual]

a wrapper for addToSystem that allows calling from Python

References addToSystem(), and ripley::tupleListToMap().

Referenced by BOOST_PYTHON_MODULE().

void ripley::RipleyDomain::addToSystemMatrix ( paso::SystemMatrix_ptr  in,
const IndexVector nodes_Eq,
dim_t  num_Eq,
const IndexVector nodes_Sol,
dim_t  num_Sol,
const DoubleVector array 
) const [protected]
virtual void ripley::RipleyDomain::assembleCoordinates ( escript::Data arg) const [protected, pure virtual]

populates the data object 'arg' with the node coordinates

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by setToX().

virtual void ripley::RipleyDomain::assembleGradient ( escript::Data out,
const escript::Data in 
) const [protected, pure virtual]

computes the gradient of 'in' and puts the result in 'out'

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by setToGradient().

virtual void ripley::RipleyDomain::assembleIntegrate ( DoubleVector integrals,
const escript::Data arg 
) const [protected, pure virtual]

copies the integrals of the function defined by 'arg' into 'integrals'

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by setToIntegrals().

void ripley::RipleyDomain::assemblePDE ( paso::SystemMatrix_ptr  mat,
escript::Data rhs,
std::map< std::string, escript::Data coefs 
) const [private]
void ripley::RipleyDomain::assemblePDEBoundary ( paso::SystemMatrix_ptr  mat,
escript::Data rhs,
std::map< std::string, escript::Data coefs 
) const [private]
void ripley::RipleyDomain::assemblePDEDirac ( paso::SystemMatrix_ptr  mat,
escript::Data rhs,
std::map< std::string, escript::Data coefs 
) const [private]
void ripley::RipleyDomain::averageData ( escript::Data out,
const escript::Data in 
) const [protected]
const int * ripley::RipleyDomain::borrowListOfTagsInUse ( int  fsType) const [virtual]

returns a pointer to the list of tags in use for a function space type

Reimplemented from escript::AbstractDomain.

References ripley::Elements, ripley::FaceElements, m_elementTagsInUse, m_faceTagsInUse, m_nodeTagsInUse, ripley::Nodes, ripley::ReducedElements, and ripley::ReducedFaceElements.

const int* ripley::RipleyDomain::borrowSampleReferenceIDs ( int  fsType) const [pure virtual]

returns the array of reference numbers for a function space type

Parameters:
fsTypeThe function space type

Reimplemented from escript::AbstractDomain.

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by addPoints(), weipa::RipleyNodes::initFromRipley(), and weipa::RipleyElements::initFromRipley().

bool ripley::RipleyDomain::canTag ( int  fsType) const [virtual]
bool ripley::RipleyDomain::commonFunctionSpace ( const std::vector< int > &  fs,
int &  resultcode 
) const [virtual]

given a vector of FunctionSpace type codes, passes back a code which all can be interpolated to

Returns:
true if result is valid, false if not

Reimplemented from escript::AbstractDomain.

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

void ripley::RipleyDomain::copyData ( escript::Data out,
const escript::Data in 
) const [protected]
void ripley::RipleyDomain::createCouplePatterns ( const std::vector< IndexVector > &  colIndices,
const std::vector< IndexVector > &  rowIndices,
const dim_t  N,
paso::Pattern_ptr colPattern,
paso::Pattern_ptr rowPattern 
) const [protected]

creates the pattern for the column and row couple blocks of the system matrix. colIndices[i] contains all IDs of DOFs that are connected with DOF i but remote and 'N' is the total number of remote components

References createPasoPattern(), getNumDOF(), and paso::M.

Referenced by ripley::Brick::createPattern(), and ripley::Rectangle::createPattern().

creates the pattern for the main block of the system matrix

References createPasoPattern(), getNumDOF(), and insertNeighbourNodes().

Referenced by ripley::Brick::createPattern(), and ripley::Rectangle::createPattern().

paso::Pattern_ptr ripley::RipleyDomain::createPasoPattern ( const IndexVector ptr,
const IndexVector index,
const dim_t  M,
const dim_t  N 
) const [protected]

allocates and returns a Paso pattern structure

References paso::util::copy(), and MATRIX_FORMAT_DEFAULT.

Referenced by createCouplePatterns(), and createMainPattern().

virtual void ripley::RipleyDomain::dofToNodes ( escript::Data out,
const escript::Data in 
) const [protected, pure virtual]

converts data on degrees of freedom in 'in' to nodes in 'out'

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by interpolateOnDomain().

void ripley::RipleyDomain::dump ( const std::string &  filename) const [pure virtual]

dumps the mesh to a file with the given name

Parameters:
filenameThe name of the output file

Reimplemented from escript::AbstractDomain.

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by BOOST_PYTHON_MODULE().

virtual int ripley::RipleyDomain::findNode ( const double *  coords) const [private, pure virtual]

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by addPoints().

string ripley::RipleyDomain::functionSpaceTypeAsString ( int  fsType) const [virtual]
virtual int ripley::RipleyDomain::getApproximationOrder ( const int  fsType) const [inline, virtual]

returns the approximation order used for a function space

Reimplemented from escript::AbstractDomain.

virtual int ripley::RipleyDomain::getContinuousFunctionCode ( ) const [inline, virtual]

returns a continuous FunctionSpace code

Reimplemented from escript::AbstractContinuousDomain.

References ripley::Nodes.

Referenced by ripley::Brick::randomFillWorker(), and ripley::Rectangle::randomFillWorker().

pair< int, int > ripley::RipleyDomain::getDataShape ( int  fsType) const [virtual]
virtual std::string ripley::RipleyDomain::getDescription ( ) const [pure virtual]

writes the current mesh to a file with the given name

Parameters:
filenameThe name of the file to write to

returns a description for this domain

Reimplemented from escript::AbstractContinuousDomain.

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by BOOST_PYTHON_MODULE(), canTag(), getDataShape(), isCellOriented(), preferredInterpolationOnDomain(), Print_Mesh_Info(), and probeInterpolationOnDomain().

virtual int ripley::RipleyDomain::getDim ( ) const [inline, virtual]

returns the number of spatial dimensions of the domain

Reimplemented from escript::AbstractDomain.

Referenced by BOOST_PYTHON_MODULE(), weipa::RipleyNodes::initFromRipley(), and weipa::RipleyElements::initFromRipley().

virtual int ripley::RipleyDomain::getDiracDeltaFunctionsCode ( ) const [inline, virtual]

returns a DiracDeltaFunctions FunctionSpace code

Reimplemented from escript::AbstractContinuousDomain.

References ripley::Points.

virtual int ripley::RipleyDomain::getDofOfNode ( int  node) const [protected, pure virtual]

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by assemblePDEDirac().

virtual int ripley::RipleyDomain::getFunctionCode ( ) const [inline, virtual]

returns a function FunctionSpace code

Reimplemented from escript::AbstractContinuousDomain.

References ripley::Elements.

virtual int ripley::RipleyDomain::getFunctionOnBoundaryCode ( ) const [inline, virtual]

returns a function on boundary FunctionSpace code

Reimplemented from escript::AbstractContinuousDomain.

References ripley::FaceElements.

virtual int ripley::RipleyDomain::getFunctionOnContactOneCode ( ) const [inline, virtual]

returns a FunctionOnContactOne code

Reimplemented from escript::AbstractContinuousDomain.

virtual int ripley::RipleyDomain::getFunctionOnContactZeroCode ( ) const [inline, virtual]

return a FunctionOnContactZero code

Reimplemented from escript::AbstractContinuousDomain.

virtual boost::python::tuple ripley::RipleyDomain::getGridParameters ( ) const [pure virtual]

returns the tuple (origin, spacing, number_of_elements)

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by BOOST_PYTHON_MODULE().

virtual double ripley::RipleyDomain::getLocalCoordinate ( int  index,
int  dim 
) const [pure virtual]

returns the index'th coordinate value in given dimension for this rank

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by weipa::RipleyNodes::initFromRipley().

unsigned int ripley::RipleyDomain::getMPIComm ( ) const [inline, virtual]

returns the MPI communicator

Reimplemented from escript::AbstractDomain.

virtual int ripley::RipleyDomain::getMPIRank ( ) const [inline, virtual]

returns the MPI rank of this processor

Reimplemented from escript::AbstractDomain.

Referenced by BOOST_PYTHON_MODULE(), and weipa::RipleyElements::initFromRipley().

virtual int ripley::RipleyDomain::getMPISize ( ) const [inline, virtual]

returns the number of processors used for this domain

Reimplemented from escript::AbstractDomain.

Referenced by BOOST_PYTHON_MODULE(), interpolateOnDomain(), ripley::Rectangle::ownSample(), ripley::Brick::ownSample(), and setToGradient().

virtual IndexVector ripley::RipleyDomain::getNodeDistribution ( ) const [pure virtual]

returns the node distribution vector

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by weipa::RipleyNodes::initFromRipley().

returns 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 ripley::RipleyDomain::getNumberOfTagsInUse ( int  fsType) const [virtual]
virtual int ripley::RipleyDomain::getNumDataPointsGlobal ( ) const [pure virtual]

returns the number of data points summed across all MPI processes

Reimplemented from escript::AbstractContinuousDomain.

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by BOOST_PYTHON_MODULE(), and weipa::RipleyNodes::initFromRipley().

virtual dim_t ripley::RipleyDomain::getNumDOF ( ) const [protected, pure virtual]

returns the number of degrees of freedom per MPI rank

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by assemblePDEDirac(), createCouplePatterns(), createMainPattern(), and getDataShape().

virtual dim_t ripley::RipleyDomain::getNumElements ( ) const [protected, pure virtual]

returns the number of elements per MPI rank

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by getDataShape(), Print_Mesh_Info(), and setTags().

virtual const int* ripley::RipleyDomain::getNumElementsPerDim ( ) const [pure virtual]

returns the number of elements per MPI rank in each dimension

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by weipa::RipleyElements::initFromRipley().

virtual dim_t ripley::RipleyDomain::getNumFaceElements ( ) const [protected, pure virtual]

returns the number of face elements on current MPI rank

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by getDataShape(), and setTags().

virtual const int* ripley::RipleyDomain::getNumFacesPerBoundary ( ) const [pure virtual]

returns the number of face elements in the order (left,right,bottom,top,[front,back]) on current MPI rank

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by weipa::RipleyElements::initFromRipley().

virtual dim_t ripley::RipleyDomain::getNumNodes ( ) const [protected, pure virtual]

returns the number of nodes per MPI rank

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by getDataShape(), and setTags().

virtual const int* ripley::RipleyDomain::getNumNodesPerDim ( ) const [pure virtual]

returns the number of nodes per MPI rank in each dimension

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by weipa::RipleyNodes::initFromRipley(), and weipa::RipleyElements::initFromRipley().

virtual const int* ripley::RipleyDomain::getNumSubdivisionsPerDim ( ) const [pure virtual]

returns the number of spatial subdivisions in each dimension

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by weipa::RipleyElements::initFromRipley().

virtual paso::SystemMatrixPattern_ptr ripley::RipleyDomain::getPattern ( bool  reducedRowOrder,
bool  reducedColOrder 
) const [protected, pure virtual]

returns the Paso system matrix pattern

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by newSystemMatrix(), and newTransportProblem().

virtual int ripley::RipleyDomain::getReducedContinuousFunctionCode ( ) const [inline, virtual]

returns a continuous on reduced order nodes FunctionSpace code

Reimplemented from escript::AbstractContinuousDomain.

References ripley::ReducedNodes.

virtual int ripley::RipleyDomain::getReducedFunctionCode ( ) const [inline, virtual]

returns a function with reduced integration order FunctionSpace code

Reimplemented from escript::AbstractContinuousDomain.

References ripley::ReducedElements.

virtual int ripley::RipleyDomain::getReducedFunctionOnBoundaryCode ( ) const [inline, virtual]

returns a function on boundary with reduced integration order FunctionSpace code

Reimplemented from escript::AbstractContinuousDomain.

References ripley::ReducedFaceElements.

virtual int ripley::RipleyDomain::getReducedFunctionOnContactOneCode ( ) const [inline, virtual]

returns a FunctionOnContactOne code with reduced integration order

Reimplemented from escript::AbstractContinuousDomain.

virtual int ripley::RipleyDomain::getReducedFunctionOnContactZeroCode ( ) const [inline, virtual]

returns a FunctionOnContactZero code with reduced integration order

Reimplemented from escript::AbstractContinuousDomain.

virtual int ripley::RipleyDomain::getReducedSolutionCode ( ) const [inline, virtual]

returns a ReducedSolution FunctionSpace code

Reimplemented from escript::AbstractContinuousDomain.

References ripley::ReducedDegreesOfFreedom.

returns the element size

Reimplemented from escript::AbstractDomain.

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

Referenced by BOOST_PYTHON_MODULE().

virtual int ripley::RipleyDomain::getSolutionCode ( ) const [inline, virtual]

returns a Solution FunctionSpace code

Reimplemented from escript::AbstractContinuousDomain.

References ripley::DegreesOfFreedom.

virtual StatusType ripley::RipleyDomain::getStatus ( ) const [inline, virtual]

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

Reimplemented from escript::AbstractDomain.

int ripley::RipleyDomain::getSystemMatrixTypeId ( const int  solver,
const int  preconditioner,
const int  package,
const bool  symmetry 
) const [virtual]

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

Parameters:
solver
preconditioner
package
symmetry

Reimplemented from escript::AbstractContinuousDomain.

References m_mpiInfo.

Referenced by BOOST_PYTHON_MODULE().

virtual int ripley::RipleyDomain::getTag ( const std::string &  name) const [inline, virtual]

returns the tag key for tag name

Parameters:
nametag name

Reimplemented from escript::AbstractDomain.

Referenced by BOOST_PYTHON_MODULE().

int ripley::RipleyDomain::getTagFromSampleNo ( int  fsType,
int  sampleNo 
) const [virtual]

returns the tag key for the given sample number

Parameters:
fsTypeThe function space type
sampleNoThe sample number

Reimplemented from escript::AbstractDomain.

References ripley::Elements, ripley::FaceElements, m_diracPoints, m_elementTags, m_faceTags, m_nodeTags, ripley::Nodes, ripley::Points, ripley::ReducedElements, and ripley::ReducedFaceElements.

int ripley::RipleyDomain::getTransportTypeId ( const int  solver,
const int  preconditioner,
const int  package,
const bool  symmetry 
) const [virtual]

returns the identifier of the transport problem type to be used when a particular solver, preconditioner, package and symmetric matrix is used

Parameters:
solver
preconditioner
package
symmetry

Reimplemented from escript::AbstractContinuousDomain.

References m_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().

virtual dim_t ripley::RipleyDomain::insertNeighbourNodes ( IndexVector index,
index_t  node 
) const [protected, pure virtual]

inserts the nodes that share an element with 'node' into 'index' and returns the number of these neighbours

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by createMainPattern().

void ripley::RipleyDomain::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

Reimplemented from escript::AbstractDomain.

virtual void ripley::RipleyDomain::interpolateNodesOnElements ( escript::Data out,
const escript::Data in,
bool  reduced 
) const [protected, pure virtual]

interpolates data on nodes in 'in' onto (reduced) elements in 'out'

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by interpolateOnDomain().

virtual void ripley::RipleyDomain::interpolateNodesOnFaces ( escript::Data out,
const escript::Data in,
bool  reduced 
) const [protected, pure virtual]

interpolates data on nodes in 'in' onto (reduced) face elements in 'out'

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by interpolateOnDomain().

void ripley::RipleyDomain::interpolateOnDomain ( escript::Data target,
const escript::Data source 
) const [virtual]
bool ripley::RipleyDomain::isCellOriented ( int  fsType) const [virtual]

returns true if data on this domain and given function space type has to be considered as cell centered data

Reimplemented from escript::AbstractDomain.

References ripley::DegreesOfFreedom, ripley::Elements, ripley::FaceElements, getDescription(), ripley::Nodes, ripley::Points, ripley::ReducedDegreesOfFreedom, ripley::ReducedElements, ripley::ReducedFaceElements, and ripley::ReducedNodes.

bool ripley::RipleyDomain::isValidFunctionSpaceType ( int  fsType) const [virtual]
virtual bool ripley::RipleyDomain::isValidTagName ( const std::string &  name) const [inline, virtual]

returns true if name is a defined tag name

Parameters:
nametag name to be checked

Reimplemented from escript::AbstractDomain.

Referenced by BOOST_PYTHON_MODULE().

virtual void ripley::RipleyDomain::MPIBarrier ( ) const [inline, virtual]

if compiled for MPI then executes an MPI_Barrier, else does nothing

Reimplemented from escript::AbstractDomain.

Referenced by BOOST_PYTHON_MODULE(), ripley::Brick::writeBinaryGridImpl(), and ripley::Rectangle::writeBinaryGridImpl().

void ripley::RipleyDomain::multiplyData ( escript::Data out,
const escript::Data in 
) const [protected]
escript::ASM_ptr ripley::RipleyDomain::newSystemMatrix ( const int  row_blocksize,
const escript::FunctionSpace row_functionspace,
const int  column_blocksize,
const escript::FunctionSpace column_functionspace,
const int  type 
) const [virtual]
escript::ATP_ptr ripley::RipleyDomain::newTransportProblem ( const int  blocksize,
const escript::FunctionSpace functionspace,
const int  type 
) const [virtual]
virtual void ripley::RipleyDomain::nodesToDOF ( escript::Data out,
const escript::Data in 
) const [protected, pure virtual]

converts data on nodes in 'in' to degrees of freedom in 'out'

Implemented in ripley::Rectangle, and ripley::Brick.

Referenced by interpolateOnDomain().

virtual bool ripley::RipleyDomain::onMasterProcessor ( ) const [inline, virtual]

returns true if on MPI processor 0, else false

Reimplemented from escript::AbstractDomain.

Referenced by BOOST_PYTHON_MODULE().

virtual bool ripley::RipleyDomain::operator!= ( const escript::AbstractDomain other) const [inline, virtual]

inequality operator

Reimplemented from escript::AbstractDomain.

bool ripley::RipleyDomain::operator== ( const escript::AbstractDomain other) const [virtual]

equality operator

Reimplemented from escript::AbstractDomain.

Reimplemented in ripley::Brick, and ripley::Rectangle.

References m_elementTags, m_faceTags, m_nodeTags, and m_tagMap.

virtual bool ripley::RipleyDomain::ownSample ( int  fsType,
index_t  id 
) const [pure virtual]

returns true if this rank owns the sample id on given function space

Reimplemented from escript::AbstractDomain.

Implemented in ripley::Brick, and ripley::Rectangle.

signed char ripley::RipleyDomain::preferredInterpolationOnDomain ( int  fsType_source,
int  fsType_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 ripley::DegreesOfFreedom, ripley::Elements, ripley::FaceElements, getDescription(), isValidFunctionSpaceType(), ripley::Nodes, ripley::Points, ripley::ReducedDegreesOfFreedom, ripley::ReducedElements, ripley::ReducedFaceElements, and ripley::ReducedNodes.

void ripley::RipleyDomain::Print_Mesh_Info ( const bool  full = false) const [virtual]

writes information about the mesh to standard output

Parameters:
fullwhether to print additional data

Reimplemented from escript::AbstractContinuousDomain.

Reimplemented in ripley::Brick, and ripley::Rectangle.

References getDescription(), getNumElements(), m_mpiInfo, m_numDim, m_tagMap, Esys_MPIInfo::rank, and Esys_MPIInfo::size.

Referenced by BOOST_PYTHON_MODULE().

bool ripley::RipleyDomain::probeInterpolationACross ( int  fsType_source,
const escript::AbstractDomain ,
int  fsType_target 
) const [virtual]

determines whether interpolation from source to target is possible

Reimplemented from escript::AbstractDomain.

bool ripley::RipleyDomain::probeInterpolationOnDomain ( int  fsType_source,
int  fsType_target 
) const [virtual]
virtual void ripley::RipleyDomain::readBinaryGrid ( escript::Data out,
std::string  filename,
const ReaderParameters params 
) const [pure virtual]

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by ripley::readBinaryGrid().

virtual void ripley::RipleyDomain::readNcGrid ( escript::Data out,
std::string  filename,
std::string  varname,
const ReaderParameters params 
) const [pure virtual]

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by ripley::readNcGrid().

virtual void ripley::RipleyDomain::setAssembler ( std::string  type,
std::map< std::string, escript::Data options 
) [inline, virtual]

Reimplemented in ripley::Brick, and ripley::Rectangle.

Referenced by setAssemblerFromPython().

void ripley::RipleyDomain::setAssemblerFromPython ( std::string  type,
boost::python::list  options 
)
void ripley::RipleyDomain::setNewX ( const escript::Data arg) [virtual]

assigns new location to the domain.

Note:
This is not supported in Ripley

Reimplemented from escript::AbstractContinuousDomain.

virtual void ripley::RipleyDomain::setTagMap ( const std::string &  name,
int  tag 
) [inline, virtual]

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

Parameters:
nametag name
tagtag key

Reimplemented from escript::AbstractDomain.

Referenced by BOOST_PYTHON_MODULE(), ripley::Brick::Brick(), ripley::Brick::populateSampleIds(), ripley::Rectangle::populateSampleIds(), and ripley::Rectangle::Rectangle().

void ripley::RipleyDomain::setTags ( const int  fsType,
const int  newTag,
const escript::Data mask 
) const [virtual]

assigns new tag newTag to all samples of given function space with a positive value of mask for any of its sample points

Reimplemented from escript::AbstractDomain.

References ripley::Elements, ripley::FaceElements, getNumElements(), getNumFaceElements(), getNumNodes(), escript::Data::getSampleDataRO(), m_elementTags, m_faceTags, m_nodeTags, ripley::Nodes, ripley::ReducedElements, ripley::ReducedFaceElements, and updateTagsInUse().

void ripley::RipleyDomain::setToGradient ( escript::Data out,
const escript::Data in 
) const [virtual]
void ripley::RipleyDomain::setToIntegrals ( DoubleVector integrals,
const escript::Data arg 
) const [virtual]
virtual void ripley::RipleyDomain::setToNormal ( escript::Data out) const [pure virtual]

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 domain.

Reimplemented from escript::AbstractDomain.

Implemented in ripley::Brick, and ripley::Rectangle.

virtual void ripley::RipleyDomain::setToSize ( escript::Data out) const [pure virtual]

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 domain.

Reimplemented from escript::AbstractDomain.

Implemented in ripley::Brick, and ripley::Rectangle.

void ripley::RipleyDomain::setToX ( escript::Data arg) const [virtual]
string ripley::RipleyDomain::showTagNames ( ) const [virtual]

returns all tag names in a single string separated by commas

Reimplemented from escript::AbstractDomain.

References m_tagMap.

Referenced by BOOST_PYTHON_MODULE().

virtual bool ripley::RipleyDomain::supportsContactElements ( ) const [inline, virtual]

returns true if this domain supports contact elements, false otherwise

Reimplemented from escript::AbstractDomain.

bool ripley::RipleyDomain::supportsFilter ( const boost::python::tuple &  t) const [virtual]

true if this domain can handle the specified tuple of filter options.

Reimplemented from escript::AbstractDomain.

void ripley::RipleyDomain::updateTagsInUse ( int  fsType) const [protected]
virtual void ripley::RipleyDomain::writeBinaryGrid ( const escript::Data in,
std::string  filename,
int  byteOrder,
int  dataType 
) const [pure virtual]

Implemented in ripley::Brick, and ripley::Rectangle.

Referenced by BOOST_PYTHON_MODULE().


Member Data Documentation

std::vector<struct DiracPoint> ripley::RipleyDomain::m_diracPoints [protected]

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