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17 #ifndef __RIPLEY_MULTIRECTANGLE_H__
18 #define __RIPLEY_MULTIRECTANGLE_H__
20 #include <ripley/Rectangle.h>
30 template<
class Scalar>
friend class DefaultAssembler2D;
31 friend class WaveAssembler2D;
32 friend class LameAssembler2D;
42 MultiRectangle(
dim_t n0,
dim_t n1,
double x0,
double y0,
double x1,
double y1,
44 const std::vector<double>& points = std::vector<double>(),
45 const std::vector<int>& tags = std::vector<int>(),
48 unsigned int subdivisions = 1
70 void validateInterpolationAcross(
int fsType_source,
77 virtual std::string getDescription()
const;
89 void dump(
const std::string& filename)
const;
107 std::string filename,
108 int byteOrder,
int dataType)
const;
114 virtual unsigned int getNumSubdivisionsPerElement()
const {
return m_subdivisions; }
121 virtual RankVector getOwnerVector(
int fsType)
const;
132 #ifdef ESYS_HAVE_PASO
134 bool reducedRowOrder,
135 bool reducedColOrder)
const;
137 virtual index_t getFirstInDim(
unsigned axis)
const;
138 virtual void populateSampleIds();
139 virtual dim_t getNumDOFInAxis(
unsigned axis)
const;
140 virtual dim_t getNumDOF()
const;
141 virtual void populateDofMap();
143 virtual dim_t findNode(
const double *coords)
const;
146 mutable std::vector<IndexVector> m_colIndices;
147 mutable std::vector<IndexVector> m_rowIndices;
148 unsigned int m_subdivisions;
150 template <
typename S>
152 template <
typename S>
155 template <
typename S>
157 template <
typename S>
160 template <
typename S>
162 template <
typename S>
194 #endif // __RIPLEY_MULTIRECTANGLE_H__
virtual dim_t getNumDOFInAxis(unsigned axis) const
Definition: MultiRectangle.h:187
std::vector< IndexVector > m_rowIndices
Definition: MultiRectangle.h:170
bool isComplex() const
True if components of this data are stored as complex.
Definition: Data.cpp:1163
Definition: ripley/src/AbstractAssembler.h:24
escript::JMPI m_mpiInfo
Definition: ripley/src/RipleyDomain.h:770
MPI_Comm getMPIComm() const
returns the MPI communicator
Definition: ripley/src/RipleyDomain.h:168
IndexVector m_faceId
Definition: ripley/src/Rectangle.h:348
double real_t
type of all real-valued scalars in escript
Definition: DataTypes.h:73
dim_t m_NN[2]
number of nodes for this rank in each dimension
Definition: ripley/src/Rectangle.h:332
virtual void readBinaryGridFromZipped(escript::Data &out, std::string filename, const ReaderParameters ¶ms) const
reads grid data from a compressed raw binary file into a Data object
Definition: MultiRectangle.cpp:564
virtual RankVector getOwnerVector(int fsType) const
returns a vector of rank numbers where vec[i]=n means that rank n 'owns' element/face element i.
Definition: ripley/src/Rectangle.cpp:1102
virtual const dim_t * getNumElementsPerDim() const
returns the number of elements per MPI rank in each dimension
Definition: ripley/src/Rectangle.h:176
void requireWrite()
Ensures data is ready for write access. This means that the data will be resolved if lazy and will be...
Definition: Data.cpp:1242
std::vector< int > m_elementTags
Definition: ripley/src/RipleyDomain.h:773
IndexVector m_dofMap
Definition: ripley/src/Rectangle.h:354
dim_t m_ownNE[2]
number of own elements for this rank in each dimension
Definition: ripley/src/Rectangle.h:329
std::vector< int > m_faceTags
Definition: ripley/src/RipleyDomain.h:774
IndexVector m_dofId
vector of sample reference identifiers
Definition: ripley/src/Rectangle.h:345
boost::shared_ptr< Distribution > Distribution_ptr
Definition: Distribution.h:35
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
Definition: MultiRectangle.cpp:452
#define INDEX2(_X1_, _X2_, _N1_)
Definition: index.h:21
RipleyException exception class.
Definition: RipleyException.h:40
const_Domain_ptr getDomain() const
Return the domain.
Definition: Data.h:473
std::map< std::string, int > TagMap
Definition: Ripley.h:58
#define RIPLEY_DLL_API
Definition: ripley/src/system_dep.h:19
const DataTypes::real_t * getSampleDataRO(DataTypes::RealVectorType::size_type sampleNo, DataTypes::real_t dummy=0) const
Return the sample data for the given sample no. Please do not use this unless you NEED to access samp...
Definition: Data.h:1975
virtual RankVector getOwnerVector(int fsType) const
returns a vector of rank numbers where vec[i]=n means that rank n 'owns' element/face element i.
Definition: MultiRectangle.cpp:977
dim_t m_gNE[2]
total number of elements in each dimension
Definition: ripley/src/Rectangle.h:311
virtual void interpolateElementsToElementsFiner(const escript::Data &source, escript::Data &target, const MultiRectangle &other) const
Definition: MultiRectangle.cpp:388
virtual double getLocalCoordinate(index_t index, int dim) const
returns the index'th coordinate value in given dimension for this rank
Definition: ripley/src/Rectangle.h:377
#define SECOND_QUAD
Definition: MultiRectangle.cpp:25
const double * getLength() const
returns the lengths of the domain
Definition: ripley/src/Rectangle.h:228
boost::shared_ptr< SystemMatrixPattern > SystemMatrixPattern_ptr
Definition: SystemMatrixPattern.h:50
void interpolateElementsToElementsCoarserWorker(const escript::Data &source, escript::Data &target, const MultiRectangle &other, S sentinel) const
Definition: MultiRectangle.cpp:337
virtual void writeBinaryGrid(const escript::Data &in, std::string filename, int byteOrder, int dataType) const
writes a Data object to a file in raw binary format
Definition: MultiRectangle.cpp:572
IndexVector m_diracPointNodeIDs
Definition: ripley/src/RipleyDomain.h:776
int getDataPointSize() const
Return the size of the data point. It is the product of the data point shape dimensions.
Definition: Data.cpp:1363
virtual void populateDofMap()
Definition: MultiRectangle.cpp:587
virtual void interpolateElementsToElementsCoarser(const escript::Data &source, escript::Data &target, const MultiRectangle &other) const
Definition: MultiRectangle.cpp:319
virtual void populateSampleIds()
Definition: MultiRectangle.cpp:868
const FunctionSpace & getFunctionSpace() const
Return the function space.
Definition: Data.h:461
IndexVector m_faceOffset
Definition: ripley/src/Rectangle.h:342
Definition: Distribution.h:42
IndexVector m_elementId
Definition: ripley/src/Rectangle.h:347
virtual dim_t getNumDataPointsGlobal() const
returns the number of data points summed across all MPI processes
Definition: ripley/src/Rectangle.h:372
std::vector< int > m_nodeTags
Definition: ripley/src/RipleyDomain.h:772
std::vector< int > RankVector
Definition: Ripley.h:57
virtual std::string getDescription() const
returns a description for this domain
Definition: MultiRectangle.cpp:528
Rectangle is the 2-dimensional implementation of a RipleyDomain.
Definition: ripley/src/Rectangle.h:39
virtual void interpolateNodesToNodesFiner(const escript::Data &source, escript::Data &target, const MultiRectangle &other) const
Definition: MultiRectangle.cpp:121
Data represents a collection of datapoints.
Definition: Data.h:62
int m_numDim
Definition: ripley/src/RipleyDomain.h:768
int m_NX[2]
number of spatial subdivisions
Definition: ripley/src/Rectangle.h:323
#define INDEX3(_X1_, _X2_, _X3_, _N1_, _N2_)
Definition: index.h:23
index_t dim_t
Definition: DataTypes.h:87
DataTypes::real_t * getSampleDataRW(DataTypes::RealVectorType::size_type sampleNo, DataTypes::real_t dummy=0)
Return the sample data for the given sample no. Please do not use this unless you NEED to access samp...
Definition: Data.h:1940
virtual void interpolateNodesToElementsFiner(const escript::Data &source, escript::Data &target, const MultiRectangle &other) const
Definition: MultiRectangle.cpp:263
escript::Data readBinaryGridFromZipped(std::string filename, escript::FunctionSpace fs, const object &pyShape, double fill, int byteOrder, int dataType, const object &pyFirst, const object &pyNum, const object &pyMultiplier, const object &pyReverse)
Definition: ripleycpp.cpp:86
virtual unsigned int getNumSubdivisionsPerElement() const
returns the number of times each root element has been subdivided
Definition: MultiRectangle.h:137
void interpolateReducedToElementsFinerWorker(const escript::Data &source, escript::Data &target, const MultiRectangle &other, S sentinel) const
Definition: MultiRectangle.cpp:187
Definition: SystemMatrixPattern.h:55
virtual bool operator==(const escript::AbstractDomain &other) const
equality operator
Definition: MultiRectangle.cpp:533
#define FIRST_QUAD
Definition: MultiRectangle.cpp:24
escript::Data readBinaryGrid(std::string filename, escript::FunctionSpace fs, const object &pyShape, double fill, int byteOrder, int dataType, const object &pyFirst, const object &pyNum, const object &pyMultiplier, const object &pyReverse)
Definition: ripleycpp.cpp:61
~MultiRectangle()
Destructor.
Definition: MultiRectangle.cpp:78
escript::Data readNcGrid(std::string filename, std::string varname, escript::FunctionSpace fs, const object &pyShape, double fill, const object &pyFirst, const object &pyNum, const object &pyMultiplier, const object &pyReverse)
Definition: ripleycpp.cpp:115
void interpolateNodesToElementsFinerWorker(const escript::Data &source, escript::Data &target, const MultiRectangle &other, S sentinel) const
Definition: MultiRectangle.cpp:281
void doublyLink(std::vector< ripley::IndexVector > &va, std::vector< ripley::IndexVector > &vb, int a, int b)
Definition: ripley/src/domainhelpers.h:60
virtual const int * getNumSubdivisionsPerDim() const
returns the number of spatial subdivisions in each dimension
Definition: ripley/src/Rectangle.h:195
void validateInterpolationAcross(int fsType_source, const escript::AbstractDomain &domain, int fsType_target) const
Checks that the given interpolation is possible, throw RipleyExceptions if not.
Definition: MultiRectangle.cpp:82
virtual dim_t findNode(const double *coords) const
finds the node that the given point coordinates belong to
Definition: MultiRectangle.cpp:984
virtual void interpolateReducedToElementsFiner(const escript::Data &source, escript::Data &target, const MultiRectangle &other) const
Definition: MultiRectangle.cpp:169
virtual void readNcGrid(escript::Data &out, std::string filename, std::string varname, const ReaderParameters ¶ms) const
reads grid data from a netCDF file into a Data object
Definition: MultiRectangle.cpp:548
virtual dim_t getNumElements() const
returns the number of elements per MPI rank
Definition: ripley/src/Rectangle.h:412
void updateTagsInUse(int fsType) const
Definition: ripley/src/RipleyDomain.cpp:1250
MultiRectangle(dim_t n0, dim_t n1, double x0, double y0, double x1, double y1, int d0=-1, int d1=-1, const std::vector< double > &points=std::vector< double >(), const std::vector< int > &tags=std::vector< int >(), const TagMap &tagnamestonums=TagMap(), escript::SubWorld_ptr w=escript::SubWorld_ptr(), unsigned int subdivisions=1)
creates a rectangular mesh with n0 x n1 elements over the rectangle [x0,x1] x [y0,...
Definition: MultiRectangle.cpp:37
virtual void setTagMap(const std::string &name, int tag)
sets a map from a clear tag name to a tag key
Definition: ripley/src/RipleyDomain.h:223
Structure that wraps parameters for the grid reading routines.
Definition: ripley/src/RipleyDomain.h:79
virtual dim_t getNumDOF() const
returns the number of degrees of freedom per MPI rank
Definition: MultiRectangle.h:181
boost::shared_ptr< SubWorld > SubWorld_ptr
Definition: SubWorld.h:157
virtual index_t getFirstInDim(unsigned axis) const
Definition: MultiRectangle.h:198
int index_t
type for array/matrix indices used both globally and on each rank
Definition: DataTypes.h:82
std::vector< index_t > IndexVector
Definition: Ripley.h:55
dim_t m_offset[2]
first node on this rank is at (offset0,offset1) in global mesh
Definition: ripley/src/Rectangle.h:335
dim_t m_faceCount[4]
number of face elements per edge (left, right, bottom, top)
Definition: ripley/src/Rectangle.h:338
virtual std::string functionSpaceTypeAsString(int fsType) const
returns a description for the given function space type code
Definition: ripley/src/RipleyDomain.cpp:123
virtual void readBinaryGrid(escript::Data &out, std::string filename, const ReaderParameters ¶ms) const
reads grid data from a raw binary file into a Data object
Definition: ripley/src/Rectangle.cpp:524
double m_dx[2]
grid spacings / cell sizes of domain
Definition: ripley/src/Rectangle.h:320
virtual const dim_t * getNumNodesPerDim() const
returns the number of nodes per MPI rank in each dimension
Definition: ripley/src/Rectangle.h:170
dim_t m_NE[2]
number of elements for this rank in each dimension including shared
Definition: ripley/src/Rectangle.h:326
virtual std::vector< IndexVector > getConnections(bool includeShared=false) const
returns occupied matrix column indices for all matrix rows
Definition: ripley/src/Rectangle.cpp:2024
virtual void writeBinaryGrid(const escript::Data &in, std::string filename, int byteOrder, int dataType) const
writes a Data object to a file in raw binary format
Definition: ripley/src/Rectangle.cpp:786
int getTypeCode() const
Returns the function space type code.
Definition: FunctionSpace.cpp:93
virtual dim_t getNumFaceElements() const
returns the number of face elements on current MPI rank
Definition: ripley/src/Rectangle.h:418
IndexVector m_nodeDistribution
Definition: ripley/src/Rectangle.h:351
FunctionSpace function(const AbstractDomain &domain)
Return a function FunctionSpace.
Definition: FunctionSpaceFactory.cpp:53
IndexVector m_nodeId
Definition: ripley/src/Rectangle.h:346
Data Vector(double value, const FunctionSpace &what, bool expanded)
Return a Data object containing vector data-points. ie: rank 1 data-points.
Definition: DataFactory.cpp:96
double m_length[2]
side lengths of domain
Definition: ripley/src/Rectangle.h:317
unsigned int m_subdivisions
Definition: MultiRectangle.h:171
void interpolateNodesToNodesFinerWorker(const escript::Data &source, escript::Data &target, const MultiRectangle &other, S sentinel) const
Definition: MultiRectangle.cpp:139
boost::shared_ptr< Pattern > Pattern_ptr
Definition: Pattern.h:48
double m_origin[2]
origin of domain
Definition: ripley/src/Rectangle.h:314
virtual dim_t getNumNodes() const
returns the number of nodes per MPI rank
Definition: ripley/src/Rectangle.h:406
Base class for all escript domains.
Definition: AbstractDomain.h:56
void interpolateReducedToReducedFinerWorker(const escript::Data &source, escript::Data &target, const MultiRectangle &other, S sentinel) const
Definition: MultiRectangle.cpp:236
void interpolateElementsToElementsFinerWorker(const escript::Data &source, escript::Data &target, const MultiRectangle &other, S sentinel) const
Definition: MultiRectangle.cpp:406
#define S(_J_, _I_)
Definition: ShapeFunctions.cpp:134
void dump(const std::string &filename) const
dumps the mesh to a file with the given name
Definition: ripley/src/Rectangle.cpp:882
virtual void readNcGrid(escript::Data &out, std::string filename, std::string varname, const ReaderParameters ¶ms) const
reads grid data from a netCDF file into a Data object
Definition: ripley/src/Rectangle.cpp:401
virtual void readBinaryGridFromZipped(escript::Data &out, std::string filename, const ReaderParameters ¶ms) const
reads grid data from a compressed raw binary file into a Data object
Definition: ripley/src/Rectangle.cpp:544
std::vector< IndexVector > m_colIndices
Definition: MultiRectangle.h:169
std::complex< real_t > cplx_t
complex data type
Definition: DataTypes.h:76
std::vector< DiracPoint > m_diracPoints
Definition: ripley/src/RipleyDomain.h:775
virtual void interpolateNodesOnElements(escript::Data &out, const escript::Data &in, bool reduced) const
interpolates data on nodes in 'in' onto (reduced) elements in 'out'
Definition: ripley/src/Rectangle.cpp:2252
Rectangle is the 2-dimensional implementation of a RipleyDomain.
Definition: MultiRectangle.h:39
#define ESYS_ASSERT(a, b)
EsysAssert is a MACRO that will throw an exception if the boolean condition specified is false.
Definition: Assert.h:77
virtual void readBinaryGrid(escript::Data &out, std::string filename, const ReaderParameters ¶ms) const
reads grid data from a raw binary file into a Data object
Definition: MultiRectangle.cpp:556
virtual void interpolateReducedToReducedFiner(const escript::Data &source, escript::Data &target, const MultiRectangle &other) const
Definition: MultiRectangle.cpp:218
#define MATRIX_FORMAT_DEFAULT
Definition: Paso.h:60
void dump(const std::string &filename) const
dumps the mesh to a file with the given name
Definition: MultiRectangle.cpp:580