EpetraExt Package Browser (Single Doxygen Collection)
Development
|
EpetraExt::BlockCrsMatrix: A class for constructing a distributed block matrix. More...
Classes | |
class | BlockCrsMatrix |
class | BlockMultiVector |
class | BlockUtility |
class | BlockVector |
class | MultiComm |
class | MultiMpiComm |
class | MultiPointModelEvaluator |
class | MultiSerialComm |
class | LinearProblem_BlockJacobi |
class | CrsGraph_BTF |
Block Triangular Factorization (Reordering) of Epetra_CrsGraph. More... | |
class | CrsMatrix_BTF |
class | LinearProblem_BTF |
class | CrsGraph_MapColoring |
Map Coloring of independent columns in a Graph. More... | |
class | CrsGraph_MapColoringIndex |
class | CrsGraph_MapColoringIndex64 |
class | TCrsGraph_MapColoringIndex |
Generates a std::vector of Epetra_IntVector's to be used to map perturbation contributions to a CrsGraph/CrsMatrix from a perturbed vector. More... | |
class | Directory |
Distributed Directory Tool. More... | |
class | Hash |
class | Hash< std::string > |
class | Migrate |
Data Migration Utility used by EpetraExt::Directory. More... | |
class | Migrate1 |
struct | PackTraits |
Traits for packing and unpacking of data into char buffers for communication. More... | |
struct | PackTraits< std::string > |
Full specialization of PackTraits for std::string. More... | |
struct | PackTraits< std::vector< T > > |
Partial specialization of PackTraits for std::vector<> containing a primitive type. More... | |
class | MatrixMatrix |
Collection of matrix-matrix operations. More... | |
class | CrsMatrixStruct |
class | CrsWrapper |
class | CrsWrapper_Epetra_CrsMatrix |
class | CrsWrapper_GraphBuilder |
class | LightweightMapData |
class | LightweightMap |
class | RemoteOnlyImport |
class | LightweightCrsMatrix |
class | ProductOperator |
Implements Epetra_Operator as a product of one or more Epetra_Operator objects. More... | |
class | Epetra_Timed_Operator |
Class allows for timing the action and inverse action of an Epetra_Opetator. More... | |
class | DistArray |
DistArray<T>: A class to store row-oriented multivectors of type T. More... | |
class | Exception |
class | HDF5 |
class HDF5: A class for storing Epetra objects in parallel binary files More... | |
class | Handle |
class | Epetra_Vector_Handle |
class | XMLReader |
class XMLReader: A class for reading Epetra objects stored in XML files. More... | |
class | XMLWriter |
class XMLWriter: A class for writing Trilinos objects to XML files. More... | |
class | EpetraExt_MatlabEngine |
A class which provides data and command access to Matlab from Epetra. More... | |
class | ModelEvaluator |
Base interface for evaluating a stateless "model". More... | |
class | InArgsGetterSetter_x_dot |
Class that gets and sets x_dot in an InArgs object. More... | |
class | InArgsGetterSetter_x_dotdot |
Class that gets and sets x_dotdot in an InArgs object. More... | |
class | InArgsGetterSetter_x |
Class that gets and sets x in an InArgs object. More... | |
class | InArgsGetterSetter_p |
Class that gets and sets p(l) in an InArgs object. More... | |
class | OutArgsGetterSetter_f |
Class that gets and sets f in an OutArgs object. More... | |
class | OutArgsGetterSetter_g |
Class that gets and sets g(j) in an OutArgs object. More... | |
class | CrsGraph_AMD |
EpetraExt::CrsGraph_AMD: A transform for Approximate Minimum Degree Reordering using Tim Daley's AMD Algorithm. More... | |
class | BlockAdjacencyGraph |
class | LinearProblem_CrsSingletonFilter |
Epetra_CrsSingletonFilter: A class for explicitly eliminating matrix rows and columns. More... | |
class | CrsMatrix_Dirichlet |
Given an input Epetra_LinearProblem, apply given dirichlet conditions. More... | |
class | Vector_Dirichlet |
Given an input Epetra_Vector, apply given dirichlet conditions. More... | |
class | LinearProblem_GraphTrans |
EpetraExt::LinearProblem_GraphTrans: Adaptation of a Epetra_CrsGraph Transform to a Epetra_LinearProblem Transform. More... | |
class | LinearProblem_MatrixTrans |
Adaptation of an Epetra_CrsMatrix Transform to a Epetra_LinearProblem Transform. More... | |
class | CrsGraph_Overlap |
Given an input Epetra_CrsGraph, a "overlapped" Epetra_CrsGraph is generated including rows associated with off processor contributions. More... | |
class | TPermutation |
Permutation stores and describes a permutation matrix P. More... | |
class | Permutation |
class | Permutation64 |
struct | Perm_traits |
Define some traits to make it easier to deal with template-parameters which are objects to be permuted. More... | |
struct | Perm_traits< Epetra_CrsMatrix > |
A specialization of Perm_traits for the specific type Epetra_CrsMatrix. More... | |
struct | Perm_traits< Epetra_CrsGraph > |
A specialization of Perm_traits for the specific type Epetra_CrsGraph. More... | |
struct | Perm_traits< Epetra_MultiVector > |
A specialization of Perm_traits for the specific type Epetra_MultiVector. More... | |
class | CrsMatrix_Reindex |
Given an Epetra_CrsMatrix, a "reindexed" version is returned based on the new row map. More... | |
class | LinearProblem_Reindex |
Given and input Epetra_LinearProblem, a "reindexed" version will be returned using the given NewRowMap. More... | |
class | LinearProblem_Reindex2 |
Given and input Epetra_LinearProblem, a "reindexed" version will be returned using the given NewRowMap. More... | |
class | MultiVector_Reindex |
Given an input Epetra_MultiVector, a "reindexed" view is returned. More... | |
class | LinearProblem_Scale |
Given an input Epetra_LinearProblem, recursive, left and right scaling are performed. More... | |
class | CrsMatrix_SolverMap |
Given an input Epetra_CrsMatrix, the column map is checked for missing indices associated with the local rows. More... | |
class | LinearProblem_SolverMap |
Constructs a LinearProblem with a "fixed" Column Map for the CrsMatrix. More... | |
class | LinearProblem_StaticCondensation |
class | CrsMatrix_SubCopy |
Generates a sub-block view of a Epetra_CrsMatrix. More... | |
struct | CrsGraph_SymmRCM |
Generates the symmetric RCM reordered version of a Epetra_CrsGraph. More... | |
class | Transform |
Base Class for all Epetra Transform Operators. More... | |
class | StructuralTransform |
class | SameTypeTransform |
class | StructuralSameTypeTransform |
class | InPlaceTransform |
class | ViewTransform |
class | Transform_Composite |
Composition Class for Epetra Transform SameType Operators. More... | |
class | CrsGraph_Transpose |
Transform to generate the explicit transpose of a Epetra_CrsGraph. More... | |
class | RowMatrix_Transpose |
Transform to form the explicit transpose of a Epetra_RowMatrix. More... | |
class | CrsGraph_View |
Generates a sub-block view of a Epetra_CrsGraph. More... | |
class | CrsMatrix_View |
Generates a sub-block view of a Epetra_CrsMatrix. More... | |
class | MultiVector_View |
Generates a sub-block view of a Epetra_MultiVector. More... | |
class | DiagonalQuadraticResponseOnlyModelEvaluator |
A simple quadratic parallel response-only model evaluator. More... | |
class | DiagonalTransientModel |
Simple transient diagonal model for an implicit or explicit ODE. More... | |
Functions | |
template<typename T , typename U > | |
void | SortContainer2 (T &firstContainer, U &secondContainer) |
Sorts a given container: deal with a problem with some STL impl. More... | |
template<typename T > | |
bool | IsSorted (T &container) |
Checks if data in a container is sorted. More... | |
template<int > | |
int | import_only (const Epetra_CrsMatrix &M, const Epetra_Map &targetMap, CrsMatrixStruct &Mview, const Epetra_Import *prototypeImporter) |
template<typename int_type > | |
double | sparsedot (double *u, int_type *u_ind, int u_len, double *v, int_type *v_ind, int v_len) |
Method for internal use... More... | |
template<typename int_type > | |
int | mult_A_Btrans (CrsMatrixStruct &Aview, CrsMatrixStruct &Bview, CrsWrapper &C, bool keep_all_hard_zeros) |
template<typename int_type > | |
int | mult_Atrans_B (CrsMatrixStruct &Aview, CrsMatrixStruct &Bview, CrsWrapper &C) |
template<typename int_type > | |
int | mult_Atrans_Btrans (CrsMatrixStruct &Aview, CrsMatrixStruct &Bview, CrsWrapper &C, bool keep_all_hard_zeros) |
template<typename int_type > | |
int | import_and_extract_views (const Epetra_CrsMatrix &M, const Epetra_Map &targetMap, CrsMatrixStruct &Mview, const Epetra_Import *prototypeImporter=0) |
template<typename int_type > | |
int | form_map_union (const Epetra_Map *map1, const Epetra_Map *map2, const Epetra_Map *&mapunion) |
template<typename int_type > | |
Epetra_Map * | Tfind_rows_containing_cols (const Epetra_CrsMatrix &M, const Epetra_Map &column_map) |
Epetra_Map * | find_rows_containing_cols (const Epetra_CrsMatrix &M, const Epetra_Map &column_map) |
static int | C_estimate_nnz (const Epetra_CrsMatrix &A, const Epetra_CrsMatrix &B) |
template<typename int_type > | |
int | aztecoo_and_ml_compatible_map_union (const Epetra_CrsMatrix &B, const LightweightCrsMatrix &Bimport, Epetra_Map *&unionmap, std::vector< int > &Cremotepids, std::vector< int > &Bcols2Ccols, std::vector< int > &Icols2Ccols) |
void | resize_doubles (int nold, int nnew, double *&d) |
template<typename int_type > | |
int | mult_A_B_newmatrix (const Epetra_CrsMatrix &A, const Epetra_CrsMatrix &B, const CrsMatrixStruct &Bview, std::vector< int > &Bcol2Ccol, std::vector< int > &Bimportcol2Ccol, std::vector< int > &Cremotepids, Epetra_CrsMatrix &C, bool keep_all_hard_zeros) |
template<typename int_type > | |
int | mult_A_B_reuse (const Epetra_CrsMatrix &A, const Epetra_CrsMatrix &B, CrsMatrixStruct &Bview, std::vector< int > &Bcol2Ccol, std::vector< int > &Bimportcol2Ccol, Epetra_CrsMatrix &C, bool keep_all_hard_zeros) |
template<typename int_type > | |
int | mult_A_B_general (const Epetra_CrsMatrix &A, CrsMatrixStruct &Aview, const Epetra_CrsMatrix &B, CrsMatrixStruct &Bview, Epetra_CrsMatrix &C, bool call_FillComplete_on_result, bool keep_all_hard_zeros) |
template<typename int_type > | |
int | jacobi_A_B_reuse (double omega, const Epetra_Vector &Dinv, const Epetra_CrsMatrix &A, const Epetra_CrsMatrix &B, CrsMatrixStruct &Bview, std::vector< int > &Bcol2Ccol, std::vector< int > &Bimportcol2Ccol, Epetra_CrsMatrix &C) |
template<typename int_type > | |
int | jacobi_A_B_newmatrix (double omega, const Epetra_Vector &Dinv, const Epetra_CrsMatrix &A, const Epetra_CrsMatrix &B, CrsMatrixStruct &Bview, std::vector< int > &Bcol2Ccol, std::vector< int > &Bimportcol2Ccol, std::vector< int > &Cremotepids, Epetra_CrsMatrix &C) |
void | debug_print_distor (const char *label, const Epetra_Distributor *Distor, const Epetra_Comm &Comm) |
void | debug_compare_import (const Epetra_Import *Import1, const Epetra_Import *Import2) |
int | dumpCrsMatrixStruct (const CrsMatrixStruct &M) |
template<typename int_type > | |
void | insert_matrix_locations (CrsWrapper_GraphBuilder< int_type > &graphbuilder, Epetra_CrsMatrix &C) |
template<typename int_type > | |
void | Tpack_outgoing_rows (const Epetra_CrsMatrix &mtx, const std::vector< int_type > &proc_col_ranges, std::vector< int_type > &send_rows, std::vector< int > &rows_per_send_proc) |
void | pack_outgoing_rows (const Epetra_CrsMatrix &mtx, const std::vector< int > &proc_col_ranges, std::vector< int > &send_rows, std::vector< int > &rows_per_send_proc) |
void | pack_outgoing_rows (const Epetra_CrsMatrix &mtx, const std::vector< long long > &proc_col_ranges, std::vector< long long > &send_rows, std::vector< int > &rows_per_send_proc) |
template<> | |
std::pair< int, int > | get_col_range< int > (const Epetra_Map &emap) |
template<> | |
std::pair< long long, long long > | get_col_range< long long > (const Epetra_Map &emap) |
template<typename int_type > | |
std::pair< int_type, int_type > | Tget_col_range (const Epetra_CrsMatrix &mtx) |
template<> | |
std::pair< int, int > | get_col_range< int > (const Epetra_CrsMatrix &mtx) |
template<> | |
std::pair< long long, long long > | get_col_range< long long > (const Epetra_CrsMatrix &mtx) |
template<class GO > | |
void | MakeColMapAndReindexSort (int &NumRemoteColGIDs, GO *&RemoteColindices, std::vector< int > &RemotePermuteIDs, std::vector< int > &RemoteOwningPIDs, bool SortGhostsAssociatedWithEachProcessor_) |
template<> | |
void | MakeColMapAndReindexSort< int > (int &NumRemoteColGIDs, int *&RemoteColindices, std::vector< int > &RemotePermuteIDs, std::vector< int > &RemoteOwningPIDs, bool SortGhostsAssociatedWithEachProcessor_) |
template<> | |
void | MakeColMapAndReindexSort< long long > (int &NumRemoteColGIDs, long long *&RemoteColindices, std::vector< int > &RemotePermuteIDs, std::vector< int > &RemoteOwningPIDs, bool SortGhostsAssociatedWithEachProcessor_) |
template<typename int_type > | |
void | build_type3_exports_sort (std::vector< int_type > &ExportGID3, std::vector< int > &ExportPID3, int total_length3) |
template<> | |
void | build_type3_exports_sort< int > (std::vector< int > &ExportGID3, std::vector< int > &ExportPID3, int total_length3) |
template<> | |
void | build_type3_exports_sort< long long > (std::vector< long long > &ExportGID3, std::vector< int > &ExportPID3, int total_length3) |
template<typename int_type > | |
int | build_type3_exports (int MyPID, int Nrecv, Epetra_BlockMap &DomainMap, std::vector< int > &ReverseRecvSizes, const int_type *ReverseRecvBuffer, std::vector< int > &ExportLID3, std::vector< int > &ExportPID3) |
template<typename ImportType , typename int_type > | |
int | build_type2_exports (const Epetra_CrsMatrix &SourceMatrix, ImportType &MyImporter, std::vector< int > &ExportLID2, std::vector< int > &ExportPID2) |
template<typename int_type > | |
void | build_type1_exports_sort (std::vector< int > &ExportLID1, std::vector< int > &ExportPID1, std::vector< int_type > &ExportGID1, int total_length1) |
template<> | |
void | build_type1_exports_sort< int > (std::vector< int > &ExportLID1, std::vector< int > &ExportPID1, std::vector< int > &ExportGID1, int total_length1) |
template<> | |
void | build_type1_exports_sort< long long > (std::vector< int > &ExportLID1, std::vector< int > &ExportPID1, std::vector< long long > &ExportGID1, int total_length1) |
template<typename int_type > | |
int | build_type1_exports (const Epetra_Import *Importer1, std::vector< int > &ExportLID1, std::vector< int > &ExportPID1) |
template<class TransferType > | |
void | TPrintMultiplicationStatistics (TransferType *Transfer, const std::string &label) |
void | printMultiplicationStatistics (Epetra_Import *Transfer, const std::string &label) |
void | printMultiplicationStatistics (Epetra_Export *Transfer, const std::string &label) |
template<typename int_type > | |
std::pair< int_type, int_type > | get_col_range (const Epetra_Map &emap) |
template<typename int_type > | |
std::pair< int_type, int_type > | get_col_range (const Epetra_CrsMatrix &mtx) |
template<typename int_type > | |
int | import_only (const Epetra_CrsMatrix &M, const Epetra_Map &targetMap, CrsMatrixStruct &Mview, const Epetra_Import *prototypeImporter=0, bool SortGhosts=false, const char *label=0) |
void | PrintMultiplicationStatistics (Epetra_Import *Transfer, const std::string &label) |
void | PrintMultiplicationStatistics (Epetra_Export *Transfer, const std::string &label) |
std::string | EpetraExt_Version () |
int | MatrixMarketFileToMap (const char *filename, const Epetra_Comm &comm, Epetra_Map *&map) |
Constructs an Epetra_BlockMap object from a Matrix Market format file. More... | |
int | MatrixMarketFileToMap64 (const char *filename, const Epetra_Comm &comm, Epetra_Map *&map) |
int | MatrixMarketFileToBlockMap (const char *filename, const Epetra_Comm &comm, Epetra_BlockMap *&blockMap) |
Constructs an Epetra_BlockMap object from a Matrix Market format file. More... | |
int | MatrixMarketFileToBlockMap64 (const char *filename, const Epetra_Comm &comm, Epetra_BlockMap *&map) |
int | MatrixMarketFileToRowMap (const char *filename, const Epetra_Comm &comm, Epetra_BlockMap *&rowmap) |
int | MatrixMarketFileToBlockMaps (const char *filename, const Epetra_Comm &comm, Epetra_BlockMap *&rowmap, Epetra_BlockMap *&colmap, Epetra_BlockMap *&rangemap, Epetra_BlockMap *&domainmap) |
Constructs row,col,range and domain maps from a matrix-market matrix file. More... | |
int | MatrixMarketFileToBlockMaps64 (const char *filename, const Epetra_Comm &comm, Epetra_BlockMap *&rowmap, Epetra_BlockMap *&colmap, Epetra_BlockMap *&rangemap, Epetra_BlockMap *&domainmap) |
Constructs row,col,range and domain maps from a matrix-market matrix file. More... | |
int | BlockMapToMatrixMarketFile (const char *filename, const Epetra_BlockMap &blockMap, const char *mapName=0, const char *mapDescription=0, bool writeHeader=true) |
Writes an Epetra_BlockMap or Epetra_Map object to a Matrix Market format file. More... | |
template<typename int_type > | |
int | TBlockMapToHandle (FILE *handle, const Epetra_BlockMap &map) |
int | BlockMapToHandle (FILE *handle, const Epetra_BlockMap &map) |
int | writeBlockMap (FILE *handle, long long length, const int *v1, const int *v2, bool doSizes) |
int | writeBlockMap (FILE *handle, long long length, const long long *v1, const int *v2, bool doSizes) |
int | BlockMapToHandle (std::FILE *handle, const Epetra_BlockMap &blockMap) |
Writes an Epetra_BlockMap or Epetra_Map object to a file handle. More... | |
int | writeBlockMap (std::FILE *handle, long long length, const int *v1, const int *v2, bool doSizes) |
int | writeBlockMap (std::FILE *handle, long long length, const long long *v1, const int *v2, bool doSizes) |
template<typename int_type > | |
static void | sort_three (int_type *list, int_type *parlista, double *parlistb, int start, int end) |
int | MatrixMarketFileToCrsMatrix (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A) |
int | MatrixMarketFileToCrsMatrix (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A, const bool transpose) |
int | MatrixMarketFileToCrsMatrix (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A, const bool transpose=0, const bool verbose=0) |
Constructs an Epetra_CrsMatrix object from a Matrix Market format file, simplest version: requires matrix to be square, distributes rows evenly across processors. More... | |
int | MatrixMarketFileToCrsMatrix (const char *filename, const Epetra_Map &rowMap, const Epetra_Map &rangeMap, const Epetra_Map &domainMap, Epetra_CrsMatrix *&A, const bool transpose=0, const bool verbose=0) |
Constructs an Epetra_CrsMatrix object from a Matrix Market format file, row, range and domain map specified; typically used for rectangular matrices. More... | |
int | MatrixMarketFileToCrsMatrix (const char *filename, const Epetra_Map &rowMap, Epetra_CrsMatrix *&A, const bool transpose=0, const bool verbose=0) |
Constructs an Epetra_CrsMatrix object from a Matrix Market format file, only row map specified; allows user defined distribution of matrix rows, requires square matrix. More... | |
int | MatrixMarketFileToCrsMatrix (const char *filename, const Epetra_Map &rowMap, const Epetra_Map &colMap, Epetra_CrsMatrix *&A, const bool transpose=0, const bool verbose=0) |
Constructs an Epetra_CrsMatrix object from a Matrix Market format file, both row and column map specified; this version is seldom used unless you want explicit control over column map. More... | |
int | MatrixMarketFileToCrsMatrix (const char *filename, const Epetra_Map &rowMap, const Epetra_Map &colMap, const Epetra_Map &rangeMap, const Epetra_Map &domainMap, Epetra_CrsMatrix *&A, const bool transpose=0, const bool verbose=0) |
Constructs an Epetra_CrsMatrix object from a Matrix Market format file, row, column, range and domain map specified; this version is seldom required unless you want explicit control over column map. More... | |
int | MatrixMarketFileToCrsMatrix64 (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A) |
int | MatrixMarketFileToCrsMatrix64 (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A, const bool transpose) |
int | MatrixMarketFileToCrsMatrix64 (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A, const bool transpose, const bool verbose) |
int | MatrixMarketFileToCrsMatrix64 (const char *filename, const Epetra_Map &rowMap, const Epetra_Map &rangeMap, const Epetra_Map &domainMap, Epetra_CrsMatrix *&A, const bool transpose, const bool verbose) |
int | MatrixMarketFileToCrsMatrix64 (const char *filename, const Epetra_Map &rowMap, Epetra_CrsMatrix *&A, const bool transpose, const bool verbose) |
int | MatrixMarketFileToCrsMatrix64 (const char *filename, const Epetra_Map &rowMap, const Epetra_Map &colMap, Epetra_CrsMatrix *&A, const bool transpose, const bool verbose) |
int | MatrixMarketFileToCrsMatrix64 (const char *filename, const Epetra_Map &rowMap, const Epetra_Map &colMap, const Epetra_Map &rangeMap, const Epetra_Map &domainMap, Epetra_CrsMatrix *&A, const bool transpose, const bool verbose) |
int | MatrixMarketFileToCrsMatrixHandle (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A, const Epetra_Map *rowMap, const Epetra_Map *colMap, const Epetra_Map *rangeMap, const Epetra_Map *domainMap, const bool transpose, const bool verbose) |
int | MatrixMarketFileToCrsMatrixHandle64 (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A, const Epetra_Map *rowMap, const Epetra_Map *colMap, const Epetra_Map *rangeMap, const Epetra_Map *domainMap, const bool transpose, const bool verbose) |
template<typename int_type > | |
static void | quickpart_list_inc_int (int_type *list, int_type *parlista, double *parlistb, int start, int end, int *equal, int *larger) |
int | MatlabFileToCrsMatrix (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A) |
Constructs an Epetra_CrsMatrix object from a Matlab format file, distributes rows evenly across processors. More... | |
int | MatlabFileToCrsMatrix64 (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A) |
int | HypreFileToCrsMatrix (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&A) |
Constructs an Epetra_CrsMatrix object from a Hypre Matrix Print command, the row map is specified. More... | |
int | HypreFileToCrsMatrix64 (const char *filename, const Epetra_Comm &comm, Epetra_CrsMatrix *&Matrix) |
int | mm_read_unsymmetric_sparse (const char *fname, int *M_, int *N_, int *nz_, double **val_, int **I_, int **J_) |
int | mm_is_valid (MM_typecode matcode) |
int | mm_read_banner (FILE *f, MM_typecode *matcode) |
int | mm_write_mtx_crd_size (FILE *f, long long M, long long N, long long nz) |
int | mm_read_mtx_crd_size (FILE *f, int *M, int *N, int *nz) |
int | mm_read_mtx_crd_size (FILE *f, long long *M, long long *N, long long *nz) |
int | mm_read_mtx_array_size (FILE *f, int *M, int *N) |
int | mm_write_mtx_array_size (FILE *f, long long M, long long N) |
int | mm_read_mtx_crd_data (FILE *f, int, int, int nz, int I[], int J[], double val[], MM_typecode matcode) |
int | mm_read_mtx_crd_entry (FILE *f, int *I, int *J, double *real, double *imag, MM_typecode matcode) |
int | mm_read_mtx_crd_entry (FILE *f, long long *I, long long *J, double *real, double *imag, MM_typecode matcode) |
int | mm_read_mtx_crd (char *fname, int *M, int *N, int *nz, int **I, int **J, double **val, MM_typecode *matcode) |
int | mm_write_banner (FILE *f, MM_typecode matcode) |
int | mm_write_mtx_crd (char fname[], int M, int N, int nz, int I[], int J[], double val[], MM_typecode matcode) |
void | mm_typecode_to_str (MM_typecode matcode, char *buffer) |
int | mm_read_banner (std::FILE *f, MM_typecode *matcode) |
int | mm_read_mtx_crd_size (std::FILE *f, int *M, int *N, int *nz) |
int | mm_read_mtx_crd_size (std::FILE *f, long long *M, long long *N, long long *nz) |
int | mm_read_mtx_array_size (std::FILE *f, int *M, int *N) |
int | mm_write_banner (std::FILE *f, MM_typecode matcode) |
int | mm_write_mtx_crd_size (std::FILE *f, long long M, long long N, long long nz) |
int | mm_write_mtx_array_size (std::FILE *f, long long M, long long N) |
int | mm_read_mtx_crd_data (std::FILE *f, int M, int N, int nz, int I[], int J[], double val[], MM_typecode matcode) |
int | mm_read_mtx_crd_entry (std::FILE *f, int *I, int *J, double *real, double *img, MM_typecode matcode) |
int | mm_read_mtx_crd_entry (std::FILE *f, long long *I, long long *J, double *real, double *img, MM_typecode matcode) |
int | MatrixMarketFileToMultiVector (const char *filename, const Epetra_BlockMap &map, Epetra_MultiVector *&A) |
Constructs an Epetra_MultiVector object from a Matrix Market format file. More... | |
int | MultiVectorToMatlabFile (const char *filename, const Epetra_MultiVector &A) |
Writes an Epetra_MultiVector object to a file that is compatible with Matlab. More... | |
int | MultiVectorToMatrixMarketFile (const char *filename, const Epetra_MultiVector &A, const char *matrixName=0, const char *matrixDescription=0, bool writeHeader=true) |
Writes an Epetra_MultiVector object to a Matrix Market format file. More... | |
int | MultiVectorToMatlabHandle (FILE *handle, const Epetra_MultiVector &A) |
int | MultiVectorToMatrixMarketHandle (FILE *handle, const Epetra_MultiVector &A) |
template<typename int_type > | |
int | TMultiVectorToHandle (FILE *handle, const Epetra_MultiVector &A, bool mmFormat) |
int | MultiVectorToHandle (FILE *handle, const Epetra_MultiVector &A, bool mmFormat) |
int | writeMultiVector (FILE *handle, const Epetra_MultiVector &A, bool mmFormat) |
int | MultiVectorToMatrixMarketHandle (std::FILE *handle, const Epetra_MultiVector &A) |
Writes an Epetra_MultiVector object that is compatible with Matrix Market array format to a file handle. More... | |
int | MultiVectorToMatlabHandle (std::FILE *handle, const Epetra_MultiVector &A) |
Writes an Epetra_MultiVector object that is compatible with Matlab to a file handle. More... | |
int | MultiVectorToHandle (std::FILE *handle, const Epetra_MultiVector &A, bool mmFormat) |
int | writeMultiVector (std::FILE *handle, const Epetra_MultiVector &A, bool mmFormat) |
int | OperatorToMatlabFile (const char *filename, const Epetra_Operator &A) |
Writes an Epetra_Operator object to a file that is compatible with Matlab. More... | |
int | OperatorToMatrixMarketFile (const char *filename, const Epetra_Operator &A, const char *matrixName=0, const char *matrixDescription=0, bool writeHeader=true) |
Writes an Epetra_Operator object to a Matrix Market format file, forming the coefficients by applying the operator to the e_j vectors. More... | |
int | OperatorToHandle (FILE *handle, const Epetra_Operator &A) |
int | writeOperatorStrip (FILE *handle, const Epetra_MultiVector &y, const Epetra_Map &rootDomainMap, const Epetra_Map &rootRangeMap, long long startColumn) |
int | get_nz (const Epetra_Operator &A, long long &nz) |
int | OperatorToHandle (std::FILE *handle, const Epetra_Operator &A) |
Writes an Epetra_Operator object to a format file that is compatible with Matlab. More... | |
int | writeOperatorStrip (std::FILE *handle, const Epetra_MultiVector &y, const Epetra_Map &rootDomainMap, const Epetra_Map &rootRangeMap, long long startColumn) |
void | readEpetraLinearSystem (const std::string &fileName, const Epetra_Comm &comm, Teuchos::RCP< Epetra_CrsMatrix > *A=NULL, Teuchos::RCP< Epetra_Map > *map=NULL, Teuchos::RCP< Epetra_Vector > *x=NULL, Teuchos::RCP< Epetra_Vector > *b=NULL, Teuchos::RCP< Epetra_Vector > *xExact=NULL) |
Read in an Epetra linear system from a file. More... | |
void | readEpetraLinearSystem64 (const std::string &fileName, const Epetra_Comm &comm, Teuchos::RCP< Epetra_CrsMatrix > *A=NULL, Teuchos::RCP< Epetra_Map > *map=NULL, Teuchos::RCP< Epetra_Vector > *x=NULL, Teuchos::RCP< Epetra_Vector > *b=NULL, Teuchos::RCP< Epetra_Vector > *xExact=NULL) |
int | RowMatrixToMatlabFile (const char *filename, const Epetra_RowMatrix &A) |
Writes an Epetra_RowMatrix object to a file that is compatible with Matlab. More... | |
int | RowMatrixToMatrixMarketFile (const char *filename, const Epetra_RowMatrix &A, const char *matrixName=0, const char *matrixDescription=0, bool writeHeader=true) |
Writes an Epetra_RowMatrix object to a Matrix Market format file. More... | |
template<typename int_type > | |
int | RowMatrixToHandle (FILE *handle, const Epetra_RowMatrix &A) |
int | writeRowMatrix (FILE *handle, const Epetra_RowMatrix &A) |
int | RowMatrixToHandle (std::FILE *handle, const Epetra_RowMatrix &A) |
Writes an Epetra_RowMatrix object to a format file that is compatible with Matlab. More... | |
int | writeRowMatrix (std::FILE *handle, const Epetra_RowMatrix &A) |
std::string | toString (const int &x) |
std::string | toString (const unsigned int &x) |
std::string | toString (const double &x) |
int | MatrixMarketFileToVector (const char *filename, const Epetra_BlockMap &map, Epetra_Vector *&A) |
Constructs an Epetra_Vector object from a Matrix Market format file. More... | |
int | VectorToMatlabFile (const char *filename, const Epetra_Vector &A) |
Writes an Epetra_Vector object to a file that is compatible with Matlab. More... | |
int | VectorToMatrixMarketFile (const char *filename, const Epetra_Vector &A, const char *matrixName=0, const char *matrixDescription=0, bool writeHeader=true) |
Writes an Epetra_Vector object to a Matrix Market format file. More... | |
int | VectorToHandle (FILE *handle, const Epetra_Vector &A) |
int | writeVector (FILE *handle, const Epetra_Vector &A) |
int | VectorToHandle (std::FILE *handle, const Epetra_Vector &A) |
Writes an Epetra_Vector object to a format file that is compatible with Matlab. More... | |
int | writeVector (std::FILE *handle, const Epetra_Vector &A) |
std::string | toString (ModelEvaluator::EDerivativeMultiVectorOrientation orientation) |
std::string | toString (ModelEvaluator::EInArgsMembers inArg) |
std::string | toString (ModelEvaluator::EOutArgsMembers outArg) |
Teuchos::RCP< Epetra_Operator > | getLinearOp (const std::string &modelEvalDescription, const ModelEvaluator::Derivative &deriv, const std::string &derivName) |
Teuchos::RCP< Epetra_MultiVector > | getMultiVector (const std::string &modelEvalDescription, const ModelEvaluator::Derivative &deriv, const std::string &derivName, const ModelEvaluator::EDerivativeMultiVectorOrientation mvOrientation) |
Teuchos::RCP< Epetra_Operator > | get_DfDp_op (const int l, const ModelEvaluator::OutArgs &outArgs) |
Teuchos::RCP< Epetra_MultiVector > | get_DfDp_mv (const int l, const ModelEvaluator::OutArgs &outArgs) |
Teuchos::RCP< Epetra_MultiVector > | get_DgDx_dot_mv (const int j, const ModelEvaluator::OutArgs &outArgs, const ModelEvaluator::EDerivativeMultiVectorOrientation mvOrientation) |
Teuchos::RCP< Epetra_MultiVector > | get_DgDx_dotdot_mv (const int j, const ModelEvaluator::OutArgs &outArgs, const ModelEvaluator::EDerivativeMultiVectorOrientation mvOrientation) |
Teuchos::RCP< Epetra_MultiVector > | get_DgDx_mv (const int j, const ModelEvaluator::OutArgs &outArgs, const ModelEvaluator::EDerivativeMultiVectorOrientation mvOrientation) |
Teuchos::RCP< Epetra_MultiVector > | get_DgDp_mv (const int j, const int l, const ModelEvaluator::OutArgs &outArgs, const ModelEvaluator::EDerivativeMultiVectorOrientation mvOrientation) |
void | gatherModelNominalValues (const ModelEvaluator &model, ModelEvaluator::InArgs *nominalValues) |
Gather the nominal values from a model evaluator. More... | |
void | gatherModelBounds (const ModelEvaluator &model, ModelEvaluator::InArgs *lowerBounds, ModelEvaluator::InArgs *upperBounds) |
Gather the lower and upper bounds from a model evaluator. More... | |
void | scaleModelVars (const ModelEvaluator::InArgs &origVars, const ModelEvaluator::InArgs &varScalings, ModelEvaluator::InArgs *scaledVars, Teuchos::FancyOStream *out=0, Teuchos::EVerbosityLevel verbLevel=Teuchos::VERB_LOW) |
Scale the original unscaled variables into the scaled variables. More... | |
void | scaleModelBounds (const ModelEvaluator::InArgs &origLowerBounds, const ModelEvaluator::InArgs &origUpperBounds, const double infBnd, const ModelEvaluator::InArgs &varScalings, ModelEvaluator::InArgs *scaledLowerBounds, ModelEvaluator::InArgs *scaledUpperBounds, Teuchos::FancyOStream *out=0, Teuchos::EVerbosityLevel verbLevel=Teuchos::VERB_LOW) |
Scale the lower and upper model variable bounds. More... | |
void | unscaleModelVars (const ModelEvaluator::InArgs &scaledVars, const ModelEvaluator::InArgs &varScalings, ModelEvaluator::InArgs *origVars, Teuchos::FancyOStream *out=0, Teuchos::EVerbosityLevel verbLevel=Teuchos::VERB_LOW) |
Unscale the scaled variables. More... | |
void | scaleModelFuncs (const ModelEvaluator::OutArgs &origFuncs, const ModelEvaluator::InArgs &varScalings, const ModelEvaluator::OutArgs &funcScalings, ModelEvaluator::OutArgs *scaledFuncs, bool *allFuncsWhereScaled, Teuchos::FancyOStream *out=0, Teuchos::EVerbosityLevel verbLevel=Teuchos::VERB_LOW) |
Scale the output functions and their derivative objects. More... | |
Teuchos::RCP< const Epetra_Vector > | createInverseModelScalingVector (Teuchos::RCP< const Epetra_Vector > const &scalingVector) |
Create an inverse scaling vector. More... | |
void | scaleModelVarsGivenInverseScaling (const Epetra_Vector &origVars, const Epetra_Vector &invVarScaling, Epetra_Vector *scaledVars) |
Scale a vector given its inverse scaling vector. More... | |
void | scaleModelVarBoundsGivenInverseScaling (const Epetra_Vector &origLowerBounds, const Epetra_Vector &origUpperBounds, const double infBnd, const Epetra_Vector &invVarScaling, Epetra_Vector *scaledLowerBounds, Epetra_Vector *scaledUpperBounds) |
Scale the model variable bounds. More... | |
void | unscaleModelVarsGivenInverseScaling (const Epetra_Vector &origVars, const Epetra_Vector &invVarScaling, Epetra_Vector *scaledVars) |
Unscale a vector given its inverse scaling vector. More... | |
void | scaleModelFuncGivenForwardScaling (const Epetra_Vector &fwdFuncScaling, Epetra_Vector *funcs) |
Scale (in place) an output function vector given its forward scaling vector. More... | |
void | scaleModelFuncFirstDerivOp (const Epetra_Vector *invVarScaling, const Epetra_Vector *fwdFuncScaling, Epetra_Operator *funcDerivOp, bool *didScaling) |
Scale (in place) an output first-order function derivative object represented as an Epetra_Operator given its function and variable scaling. More... | |
void | scaleModelFuncFirstDeriv (const ModelEvaluator::Derivative &origFuncDeriv, const Epetra_Vector *invVarScaling, const Epetra_Vector *fwdFuncScaling, ModelEvaluator::Derivative *scaledFuncDeriv, bool *didScaling) |
Scale (in place) an output first-order function derivative object given its function and variable scaling. More... | |
int | compare_ints (const void *a, const void *b) |
Given an Epetra_CrsGraph that has block structure, an adjacency graph is constructed representing the block connectivity of the original graph. More... | |
int | ceil31log2 (int n) |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, Construct) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, MatVec) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, BetterMatVec) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, TransposeMatVec) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, LeftScale) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, RightScale) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, ExtractDiagonalCopy) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, InvRowSums) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, InvColSums) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, NormInf) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, NormOne) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, NumGlobalNonzeros) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, NumGlobalRows) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, NumGlobalCols) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, NumGlobalDiagonals) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, NumMyNonzeros) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, NumMyRows) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, NumMyCols) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, NumMyDiagonals) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, MaxNumEntries) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, ApplyInverse) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, SameMatVec) | |
TEUCHOS_UNIT_TEST (EpetraExt_hypre, Solve) | |
TEUCHOS_UNIT_TEST (EpetraExt_HDF5, WriteReadInt) | |
TEUCHOS_UNIT_TEST (EpetraExt_HDF5, WriteReadSerialData) | |
TEUCHOS_UNIT_TEST (EpetraExt_HDF5, NestedGroups) | |
Variables | |
template<typename T > | |
Transform< T, T >::NewTypeRef Transform_Composite< T > typename Transform< T, T > ::OriginalTypeRef orig this | origObj_ = &orig |
this | newObj_ = &orig |
TransListIter | iter = transList_.begin() |
TransListIter | end = transList_.end() |
const int | N = 100 |
const int | MatType = 4 |
const double | tol = 1E-6 |
EpetraExt::BlockCrsMatrix: A class for constructing a distributed block matrix.
The EpetraExt namespace contains a variety of useful functions and class that extend Epetra capabilities.
EpetraExt::MultiSerialComm is a class for keeping track of two levels of parallelism.
Epetra-based Model Evaluator subclass for Charon!
EpetraExt::MultiMpiComm is a class for keeping track of two levels of parallelism.
EpetraExt::MultiComm is an abstract class for keeping track of two levels of parallelism.
EpetraExt::BlockVector: A class for constructing a distributed block vector.
EpetraExt::BlockUtility: A class of utilities for constructing block data structs.
EpetraExt::BlockMultiVector: A class for constructing a distributed block multivector.
The EpetraExt::BlockCrsMatrix allows construction of a block matrix made up of Epetra_CrsMatrix blocks as well as access to the full systems as a Epetra_CrsMatrix. It derives from and extends the Epetra_CrsMatrix class
Constructing EpetraExt::BlockCrsMatrix objects
The EpetraExt::BlockMultiVector allows construction of a block multivector made up of Epetra_MultiVector blocks as well as access to the full systems as a Epetra_MultiVector. It derives from and extends the Epetra_MultiVector class
Constructing EpetraExt::BlockMultiVector objects
The EpetraExt::BlockVector allows construction of a block vector made up of Epetra_Vector blocks as well as access to the full systems as a Epetra_Vector. It derives from and extends the Epetra_Vector class
Constructing EpetraExt::BlockVector objects
The class is an Epetra_Comm for the global problem and contains another Eptra_Comm of the split problem. Each processor is part of the global problem, and part of a sub-domain.
EpetraExt::MultComm: The class is an Epetra_Comm for the global problem and contains another Epetra_Comm of the split problem. Each processor is part of the global communicator, and a sub-domain communicator.
Constructing EpetraExt::MultComm objects
The class is an Epetra_MpiComm for the global problem and contains another Eptra_MpiComm of the split problem. Each processor is part of the global problem, and part of a sub-domain.
EpetraExt::MultMpiComm: The class is an Epetra_MpiComm for the global problem and contains another Epetra_MpiComm of the split problem. Each processor is part of the global communicator, and a sub-domain communicator.
Constructing EpetraExt::MultMpiComm objects
This class will support a wide number of different types of abstract problem types that will allow NOX, LOCA, Rythmos, Aristos, and MOOCHO to solve different types of problems with Charon.
ToDo: Finish documentation!
The class is an Epetra_SerialComm for the global problem and contains another Eptra_SerialComm of the split problem. Each processor is part of the global problem, and part of a sub-domain.
EpetraExt::MultSerialComm: The class is an Epetra_SerialComm for the global problem and contains another Epetra_SerialComm of the split problem. Each processor is part of the global communicator, and a sub-domain communicator.
Constructing EpetraExt::MultSerialComm objects
All EpetraExt capabilities are available from the EpetraExt package in Trilinos.
void EpetraExt::SortContainer2 | ( | T & | firstContainer, |
U & | secondContainer | ||
) |
Sorts a given container: deal with a problem with some STL impl.
's
Definition at line 171 of file EpetraExt_Directory.h.
bool EpetraExt::IsSorted | ( | T & | container | ) |
Checks if data in a container is sorted.
Definition at line 202 of file EpetraExt_Directory.h.
int EpetraExt::import_only | ( | const Epetra_CrsMatrix & | M, |
const Epetra_Map & | targetMap, | ||
CrsMatrixStruct & | Mview, | ||
const Epetra_Import * | prototypeImporter | ||
) |
double EpetraExt::sparsedot | ( | double * | u, |
int_type * | u_ind, | ||
int | u_len, | ||
double * | v, | ||
int_type * | v_ind, | ||
int | v_len | ||
) |
Method for internal use...
sparsedot forms a dot-product between two sparsely-populated 'vectors'. Important assumption: assumes the indices in u_ind and v_ind are sorted.
Definition at line 90 of file EpetraExt_MatrixMatrix.cpp.
int EpetraExt::mult_A_Btrans | ( | CrsMatrixStruct & | Aview, |
CrsMatrixStruct & | Bview, | ||
CrsWrapper & | C, | ||
bool | keep_all_hard_zeros | ||
) |
Definition at line 119 of file EpetraExt_MatrixMatrix.cpp.
int EpetraExt::mult_Atrans_B | ( | CrsMatrixStruct & | Aview, |
CrsMatrixStruct & | Bview, | ||
CrsWrapper & | C | ||
) |
Definition at line 350 of file EpetraExt_MatrixMatrix.cpp.
int EpetraExt::mult_Atrans_Btrans | ( | CrsMatrixStruct & | Aview, |
CrsMatrixStruct & | Bview, | ||
CrsWrapper & | C, | ||
bool | keep_all_hard_zeros | ||
) |
Definition at line 513 of file EpetraExt_MatrixMatrix.cpp.
int EpetraExt::import_and_extract_views | ( | const Epetra_CrsMatrix & | M, |
const Epetra_Map & | targetMap, | ||
CrsMatrixStruct & | Mview, | ||
const Epetra_Import * | prototypeImporter = 0 |
||
) |
Definition at line 678 of file EpetraExt_MatrixMatrix.cpp.
int EpetraExt::form_map_union | ( | const Epetra_Map * | map1, |
const Epetra_Map * | map2, | ||
const Epetra_Map *& | mapunion | ||
) |
Definition at line 905 of file EpetraExt_MatrixMatrix.cpp.
Epetra_Map* EpetraExt::Tfind_rows_containing_cols | ( | const Epetra_CrsMatrix & | M, |
const Epetra_Map & | column_map | ||
) |
Definition at line 970 of file EpetraExt_MatrixMatrix.cpp.
Epetra_Map * EpetraExt::find_rows_containing_cols | ( | const Epetra_CrsMatrix & | M, |
const Epetra_Map & | column_map | ||
) |
Definition at line 1062 of file EpetraExt_MatrixMatrix.cpp.
|
inlinestatic |
Definition at line 77 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.
int EpetraExt::aztecoo_and_ml_compatible_map_union | ( | const Epetra_CrsMatrix & | B, |
const LightweightCrsMatrix & | Bimport, | ||
Epetra_Map *& | unionmap, | ||
std::vector< int > & | Cremotepids, | ||
std::vector< int > & | Bcols2Ccols, | ||
std::vector< int > & | Icols2Ccols | ||
) |
Definition at line 104 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.
|
inline |
Definition at line 369 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.
int EpetraExt::mult_A_B_newmatrix | ( | const Epetra_CrsMatrix & | A, |
const Epetra_CrsMatrix & | B, | ||
const CrsMatrixStruct & | Bview, | ||
std::vector< int > & | Bcol2Ccol, | ||
std::vector< int > & | Bimportcol2Ccol, | ||
std::vector< int > & | Cremotepids, | ||
Epetra_CrsMatrix & | C, | ||
bool | keep_all_hard_zeros | ||
) |
Definition at line 384 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.
int EpetraExt::mult_A_B_reuse | ( | const Epetra_CrsMatrix & | A, |
const Epetra_CrsMatrix & | B, | ||
CrsMatrixStruct & | Bview, | ||
std::vector< int > & | Bcol2Ccol, | ||
std::vector< int > & | Bimportcol2Ccol, | ||
Epetra_CrsMatrix & | C, | ||
bool | keep_all_hard_zeros | ||
) |
Definition at line 567 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.
int EpetraExt::mult_A_B_general | ( | const Epetra_CrsMatrix & | A, |
CrsMatrixStruct & | Aview, | ||
const Epetra_CrsMatrix & | B, | ||
CrsMatrixStruct & | Bview, | ||
Epetra_CrsMatrix & | C, | ||
bool | call_FillComplete_on_result, | ||
bool | keep_all_hard_zeros | ||
) |
Definition at line 687 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.
int EpetraExt::jacobi_A_B_reuse | ( | double | omega, |
const Epetra_Vector & | Dinv, | ||
const Epetra_CrsMatrix & | A, | ||
const Epetra_CrsMatrix & | B, | ||
CrsMatrixStruct & | Bview, | ||
std::vector< int > & | Bcol2Ccol, | ||
std::vector< int > & | Bimportcol2Ccol, | ||
Epetra_CrsMatrix & | C | ||
) |
Definition at line 1069 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.
int EpetraExt::jacobi_A_B_newmatrix | ( | double | omega, |
const Epetra_Vector & | Dinv, | ||
const Epetra_CrsMatrix & | A, | ||
const Epetra_CrsMatrix & | B, | ||
CrsMatrixStruct & | Bview, | ||
std::vector< int > & | Bcol2Ccol, | ||
std::vector< int > & | Bimportcol2Ccol, | ||
std::vector< int > & | Cremotepids, | ||
Epetra_CrsMatrix & | C | ||
) |
Definition at line 1207 of file EpetraExt_MatrixMatrix_mult_A_B.cpp.
void EpetraExt::debug_print_distor | ( | const char * | label, |
const Epetra_Distributor * | Distor, | ||
const Epetra_Comm & | Comm | ||
) |
Definition at line 69 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::debug_compare_import | ( | const Epetra_Import * | Import1, |
const Epetra_Import * | Import2 | ||
) |
Definition at line 87 of file EpetraExt_MMHelpers.cpp.
int EpetraExt::dumpCrsMatrixStruct | ( | const CrsMatrixStruct & | M | ) |
Definition at line 148 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::insert_matrix_locations | ( | CrsWrapper_GraphBuilder< int_type > & | graphbuilder, |
Epetra_CrsMatrix & | C | ||
) |
Definition at line 287 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::Tpack_outgoing_rows | ( | const Epetra_CrsMatrix & | mtx, |
const std::vector< int_type > & | proc_col_ranges, | ||
std::vector< int_type > & | send_rows, | ||
std::vector< int > & | rows_per_send_proc | ||
) |
Definition at line 319 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::pack_outgoing_rows | ( | const Epetra_CrsMatrix & | mtx, |
const std::vector< int > & | proc_col_ranges, | ||
std::vector< int > & | send_rows, | ||
std::vector< int > & | rows_per_send_proc | ||
) |
Definition at line 367 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::pack_outgoing_rows | ( | const Epetra_CrsMatrix & | mtx, |
const std::vector< long long > & | proc_col_ranges, | ||
std::vector< long long > & | send_rows, | ||
std::vector< int > & | rows_per_send_proc | ||
) |
Definition at line 382 of file EpetraExt_MMHelpers.cpp.
std::pair<int,int> EpetraExt::get_col_range< int > | ( | const Epetra_Map & | emap | ) |
Definition at line 398 of file EpetraExt_MMHelpers.cpp.
std::pair<long long,long long> EpetraExt::get_col_range< long long > | ( | const Epetra_Map & | emap | ) |
Definition at line 409 of file EpetraExt_MMHelpers.cpp.
std::pair<int_type,int_type> EpetraExt::Tget_col_range | ( | const Epetra_CrsMatrix & | mtx | ) |
Definition at line 419 of file EpetraExt_MMHelpers.cpp.
std::pair<int,int> EpetraExt::get_col_range< int > | ( | const Epetra_CrsMatrix & | mtx | ) |
Definition at line 446 of file EpetraExt_MMHelpers.cpp.
std::pair<long long,long long> EpetraExt::get_col_range< long long > | ( | const Epetra_CrsMatrix & | mtx | ) |
Definition at line 457 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::MakeColMapAndReindexSort | ( | int & | NumRemoteColGIDs, |
GO *& | RemoteColindices, | ||
std::vector< int > & | RemotePermuteIDs, | ||
std::vector< int > & | RemoteOwningPIDs, | ||
bool | SortGhostsAssociatedWithEachProcessor_ | ||
) |
void EpetraExt::MakeColMapAndReindexSort< int > | ( | int & | NumRemoteColGIDs, |
int *& | RemoteColindices, | ||
std::vector< int > & | RemotePermuteIDs, | ||
std::vector< int > & | RemoteOwningPIDs, | ||
bool | SortGhostsAssociatedWithEachProcessor_ | ||
) |
Definition at line 866 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::MakeColMapAndReindexSort< long long > | ( | int & | NumRemoteColGIDs, |
long long *& | RemoteColindices, | ||
std::vector< int > & | RemotePermuteIDs, | ||
std::vector< int > & | RemoteOwningPIDs, | ||
bool | SortGhostsAssociatedWithEachProcessor_ | ||
) |
Definition at line 902 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::build_type3_exports_sort | ( | std::vector< int_type > & | ExportGID3, |
std::vector< int > & | ExportPID3, | ||
int | total_length3 | ||
) |
void EpetraExt::build_type3_exports_sort< int > | ( | std::vector< int > & | ExportGID3, |
std::vector< int > & | ExportPID3, | ||
int | total_length3 | ||
) |
Definition at line 1202 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::build_type3_exports_sort< long long > | ( | std::vector< long long > & | ExportGID3, |
std::vector< int > & | ExportPID3, | ||
int | total_length3 | ||
) |
Definition at line 1209 of file EpetraExt_MMHelpers.cpp.
int EpetraExt::build_type3_exports | ( | int | MyPID, |
int | Nrecv, | ||
Epetra_BlockMap & | DomainMap, | ||
std::vector< int > & | ReverseRecvSizes, | ||
const int_type * | ReverseRecvBuffer, | ||
std::vector< int > & | ExportLID3, | ||
std::vector< int > & | ExportPID3 | ||
) |
Definition at line 1216 of file EpetraExt_MMHelpers.cpp.
int EpetraExt::build_type2_exports | ( | const Epetra_CrsMatrix & | SourceMatrix, |
ImportType & | MyImporter, | ||
std::vector< int > & | ExportLID2, | ||
std::vector< int > & | ExportPID2 | ||
) |
Definition at line 1299 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::build_type1_exports_sort | ( | std::vector< int > & | ExportLID1, |
std::vector< int > & | ExportPID1, | ||
std::vector< int_type > & | ExportGID1, | ||
int | total_length1 | ||
) |
void EpetraExt::build_type1_exports_sort< int > | ( | std::vector< int > & | ExportLID1, |
std::vector< int > & | ExportPID1, | ||
std::vector< int > & | ExportGID1, | ||
int | total_length1 | ||
) |
Definition at line 1391 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::build_type1_exports_sort< long long > | ( | std::vector< int > & | ExportLID1, |
std::vector< int > & | ExportPID1, | ||
std::vector< long long > & | ExportGID1, | ||
int | total_length1 | ||
) |
Definition at line 1397 of file EpetraExt_MMHelpers.cpp.
int EpetraExt::build_type1_exports | ( | const Epetra_Import * | Importer1, |
std::vector< int > & | ExportLID1, | ||
std::vector< int > & | ExportPID1 | ||
) |
Definition at line 1404 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::TPrintMultiplicationStatistics | ( | TransferType * | Transfer, |
const std::string & | label | ||
) |
Definition at line 1927 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::printMultiplicationStatistics | ( | Epetra_Import * | Transfer, |
const std::string & | label | ||
) |
Definition at line 1975 of file EpetraExt_MMHelpers.cpp.
void EpetraExt::printMultiplicationStatistics | ( | Epetra_Export * | Transfer, |
const std::string & | label | ||
) |
Definition at line 1979 of file EpetraExt_MMHelpers.cpp.
std::pair<int_type,int_type> EpetraExt::get_col_range | ( | const Epetra_Map & | emap | ) |
std::pair<int_type,int_type> EpetraExt::get_col_range | ( | const Epetra_CrsMatrix & | mtx | ) |
int EpetraExt::import_only | ( | const Epetra_CrsMatrix & | M, |
const Epetra_Map & | targetMap, | ||
CrsMatrixStruct & | Mview, | ||
const Epetra_Import * | prototypeImporter = 0 , |
||
bool | SortGhosts = false , |
||
const char * | label = 0 |
||
) |
Definition at line 406 of file EpetraExt_MMHelpers.h.
void EpetraExt::PrintMultiplicationStatistics | ( | Epetra_Import * | Transfer, |
const std::string & | label | ||
) |
void EpetraExt::PrintMultiplicationStatistics | ( | Epetra_Export * | Transfer, |
const std::string & | label | ||
) |
std::string EpetraExt::EpetraExt_Version | ( | ) |
Definition at line 50 of file EpetraExt_Version.h.
int EpetraExt::MatrixMarketFileToMap | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_Map *& | map | ||
) |
Constructs an Epetra_BlockMap object from a Matrix Market format file.
This function constructs an Epetra_BlockMap or Epetra_Map object by reading a Matrix Market file. If the file was created using the EpetraExt::BlockMapOut functions, special information was encoded in the comment field of this map that allows for identical reproduction of the map, including distribution across processors and element size information. If the same of processors is being used to create the object as were used to write it, the object will be an exact reproduction of the original. Otherwise, a uniform distribution of the GIDs will be created.
The first column of the input file will must be the list of GIDs in the map. If the block map has non-uniform sizes, a second column must contain the element sizes.
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contained any requested header information followed by the map GIDs. A second column may be present if the BlockMap has nonuniform sizes. |
comm | (In) An Epetra_Comm object describing the parallel machine. |
map | (Out) An Epetra_Map object constructed from file contents. |
Definition at line 56 of file EpetraExt_BlockMapIn.cpp.
int EpetraExt::MatrixMarketFileToMap64 | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_Map *& | map | ||
) |
Definition at line 66 of file EpetraExt_BlockMapIn.cpp.
int EpetraExt::MatrixMarketFileToBlockMap | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_BlockMap *& | blockMap | ||
) |
Constructs an Epetra_BlockMap object from a Matrix Market format file.
This function constructs an Epetra_BlockMap or Epetra_Map object by reading a Matrix Market file. If the file was created using the EpetraExt::BlockMapOut functions, special information was encoded in the comment field of this map that allows for identical reproduction of the map, including distribution across processors and element size information. If the same of processors is being used to create the object as were used to write it, the object will be an exact reproduction of the original. Otherwise, a uniform distribution of the GIDs will be created.
The first column of the input file will must be the list of GIDs in the map. If the block map has non-uniform sizes, a second column must contain the element sizes.
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contained any requested header information followed by the map GIDs. A second column may be present if the BlockMap has nonuniform sizes. |
comm | (In) An Epetra_Comm object describing the parallel machine. |
blockMap | (Out) An Epetra_BlockMap object constructed from file contents. |
Definition at line 76 of file EpetraExt_BlockMapIn.cpp.
int EpetraExt::MatrixMarketFileToBlockMap64 | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_BlockMap *& | map | ||
) |
Definition at line 186 of file EpetraExt_BlockMapIn.cpp.
int EpetraExt::MatrixMarketFileToRowMap | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_BlockMap *& | rowmap | ||
) |
Definition at line 297 of file EpetraExt_BlockMapIn.cpp.
int EpetraExt::MatrixMarketFileToBlockMaps | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_BlockMap *& | rowmap, | ||
Epetra_BlockMap *& | colmap, | ||
Epetra_BlockMap *& | rangemap, | ||
Epetra_BlockMap *& | domainmap | ||
) |
Constructs row,col,range and domain maps from a matrix-market matrix file.
Definition at line 324 of file EpetraExt_BlockMapIn.cpp.
int EpetraExt::MatrixMarketFileToBlockMaps64 | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_BlockMap *& | rowmap, | ||
Epetra_BlockMap *& | colmap, | ||
Epetra_BlockMap *& | rangemap, | ||
Epetra_BlockMap *& | domainmap | ||
) |
Constructs row,col,range and domain maps from a matrix-market matrix file.
Definition at line 399 of file EpetraExt_BlockMapIn.cpp.
int EpetraExt::BlockMapToMatrixMarketFile | ( | const char * | filename, |
const Epetra_BlockMap & | blockMap, | ||
const char * | mapName = 0 , |
||
const char * | mapDescription = 0 , |
||
bool | writeHeader = true |
||
) |
Writes an Epetra_BlockMap or Epetra_Map object to a Matrix Market format file.
This function takes an Epetra_BlockMap or Epetra_Map object and writes it to the specified file. The map can be distributed or serial. The user can provide a strings containing the object name, a description, and specify that header information should or should not be printed to the file.
Special information is encoded in the comment field of this map that allows for identical reproduction of the map, including distribution across processors and element size information.
The first column of the output file will be the list of GIDs in the map. If the block map has non-uniform sizes, a second column will be generated containing the element sizes.
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contained any requested header information followed by the map GIDs. A second column may be present if the BlockMap has nonuniform sizes. |
blockMap | (In) An Epetra_BlockMap Object containing the user map to be dumped to file. |
mapName | (In) A C-style string pointer to a name that will be stored in the comment field of the file. This is not a required argument. Note that it is possible to pass in the method A.Label(). |
mapDescription | (In) A C-style string pointer to a map description that will be stored in the comment field of the file. |
writeHeader | (In) If true, the header will be written, otherwise only the map entries will be written. |
Definition at line 58 of file EpetraExt_BlockMapOut.cpp.
int EpetraExt::TBlockMapToHandle | ( | FILE * | handle, |
const Epetra_BlockMap & | map | ||
) |
Definition at line 130 of file EpetraExt_BlockMapOut.cpp.
int EpetraExt::BlockMapToHandle | ( | FILE * | handle, |
const Epetra_BlockMap & | map | ||
) |
Definition at line 194 of file EpetraExt_BlockMapOut.cpp.
int EpetraExt::writeBlockMap | ( | FILE * | handle, |
long long | length, | ||
const int * | v1, | ||
const int * | v2, | ||
bool | doSizes | ||
) |
Definition at line 210 of file EpetraExt_BlockMapOut.cpp.
int EpetraExt::writeBlockMap | ( | FILE * | handle, |
long long | length, | ||
const long long * | v1, | ||
const int * | v2, | ||
bool | doSizes | ||
) |
Definition at line 220 of file EpetraExt_BlockMapOut.cpp.
int EpetraExt::BlockMapToHandle | ( | std::FILE * | handle, |
const Epetra_BlockMap & | blockMap | ||
) |
Writes an Epetra_BlockMap or Epetra_Map object to a file handle.
This function takes an Epetra_BlockMap or Epetra_Map object and writes it to the specified file handle.
handle | (In) A C-style file handle, already opened. On exit, the file associated with this handle will have appended to it a row for each multivector row. |
blockMap | (In) An Epetra_BlockMap object containing the user object to be dumped to file. |
int EpetraExt::writeBlockMap | ( | std::FILE * | handle, |
long long | length, | ||
const int * | v1, | ||
const int * | v2, | ||
bool | doSizes | ||
) |
int EpetraExt::writeBlockMap | ( | std::FILE * | handle, |
long long | length, | ||
const long long * | v1, | ||
const int * | v2, | ||
bool | doSizes | ||
) |
|
static |
Definition at line 864 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A | ||
) |
Definition at line 86 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose | ||
) |
Definition at line 94 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose = 0 , |
||
const bool | verbose = 0 |
||
) |
Constructs an Epetra_CrsMatrix object from a Matrix Market format file, simplest version: requires matrix to be square, distributes rows evenly across processors.
This function constructs an Epetra_CrsMatrix object by reading a Matrix Market file. \param filename (In) A filename, including path if desired. The matrix to be read should be in this file in Matrix Market coordinate format. \param comm (In) An Epetra_Comm object. \param transpose (In) A boolean value indicating whether the reader should transpose the matrix as it is read into matrix A. (default = 0). \param verbose (In) A boolean value indicating whether the reader should print diagnostic statements to stdout. (default = 0). \param A (Out) An Epetra_CrsMatrix object constructed from file contents. \warning User must delete!!. \return Returns 0 if no error, -1 if any problems with file system.(See the Matrix Market home page for details.)
Definition at line 103 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix | ( | const char * | filename, |
const Epetra_Map & | rowMap, | ||
const Epetra_Map & | rangeMap, | ||
const Epetra_Map & | domainMap, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose = 0 , |
||
const bool | verbose = 0 |
||
) |
Constructs an Epetra_CrsMatrix object from a Matrix Market format file, row, range and domain map specified; typically used for rectangular matrices.
Reads an Epetra_CrsMatrix object from a matrix-market file, but uses the specified maps for constructing and 'FillComplete()'ing the matrix. Successfully creates rectangular matrices. \param filename (In) A filename, including path if desired. The matrix to be read should be in this file in Matrix Market coordinate format. \param rowMap (In) An Epetra_Map object describing the desired row distribution of the matrix. \param rangeMap (In) An Epetra_Map object describing the distribution of range vectors that will be used with this matrix, must be 1-to-1. \param domainMap (In) An Epetra_Map object describing the distribution of domain vectors that will be used with this matrix, must be 1-to-1. \param transpose (In) A boolean value indicating whether the reader should transpose the matrix as it is read into matrix A. (default = 0). \param verbose (In) A boolean value indicating whether the reader should print diagnostic statements to stdout. (default = 0). \param A (Out) An Epetra_CrsMatrix object constructed from file contents. \warning User must delete!!. \return Returns 0 if no error, -1 if any problems with file system.(See the Matrix Market home page for details.)
Definition at line 114 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix | ( | const char * | filename, |
const Epetra_Map & | rowMap, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose = 0 , |
||
const bool | verbose = 0 |
||
) |
Constructs an Epetra_CrsMatrix object from a Matrix Market format file, only row map specified; allows user defined distribution of matrix rows, requires square matrix.
This function constructs an Epetra_CrsMatrix object by reading a Matrix Market file. \param filename (In) A filename, including path if desired. The matrix to be read should be in this file in Matrix Market coordinate format. \param rowMap (In) An Epetra_Map object describing the desired row distribution of the matrix. \param transpose (In) A boolean value indicating whether the reader should transpose the matrix as it is read into matrix A. (default = 0). \param verbose (In) A boolean value indicating whether the reader should print diagnostic statements to stdout. (default = 0). \param A (Out) An Epetra_CrsMatrix object constructed from file contents. \warning User must delete!!. \return Returns 0 if no error, -1 if any problems with file system.(See the Matrix Market home page for details.)
Definition at line 128 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix | ( | const char * | filename, |
const Epetra_Map & | rowMap, | ||
const Epetra_Map & | colMap, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose = 0 , |
||
const bool | verbose = 0 |
||
) |
Constructs an Epetra_CrsMatrix object from a Matrix Market format file, both row and column map specified; this version is seldom used unless you want explicit control over column map.
This function constructs an Epetra_CrsMatrix object by reading a Matrix Market file. \param filename (In) A filename, including path if desired. The matrix to be read should be in this file in Matrix Market coordinate format. \param rowMap (In) An Epetra_Map object describing the desired row distribution of the matrix. \param colMap (In) An Epetra_Map object describing the desired column distribution of the matrix. \param transpose (In) A boolean value indicating whether the reader should transpose the matrix as it is read into matrix A. (default = 0). \param verbose (In) A boolean value indicating whether the reader should print diagnostic statements to stdout. (default = 0). \param A (Out) An Epetra_CrsMatrix object constructed from file contents. \warning User must delete!!. \return Returns 0 if no error, -1 if any problems with file system.(See the Matrix Market home page for details.)
Definition at line 140 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix | ( | const char * | filename, |
const Epetra_Map & | rowMap, | ||
const Epetra_Map & | colMap, | ||
const Epetra_Map & | rangeMap, | ||
const Epetra_Map & | domainMap, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose = 0 , |
||
const bool | verbose = 0 |
||
) |
Constructs an Epetra_CrsMatrix object from a Matrix Market format file, row, column, range and domain map specified; this version is seldom required unless you want explicit control over column map.
Reads an Epetra_CrsMatrix object from a matrix-market file, but uses the specified maps for constructing and 'FillComplete()'ing the matrix. Successfully creates rectangular matrices. \param filename (In) A filename, including path if desired. The matrix to be read should be in this file in Matrix Market coordinate format. \param rowMap (In) An Epetra_Map object describing the desired row distribution of the matrix. \param colMap (In) An Epetra_Map object describing the desired column distribution of the matrix. \param rangeMap (In) An Epetra_Map object describing the distribution of range vectors that will be used with this matrix, must be 1-to-1. \param domainMap (In) An Epetra_Map object describing the distribution of domain vectors that will be used with this matrix, must be 1-to-1. \param transpose (In) A boolean value indicating whether the reader should transpose the matrix as it is read into matrix A. (default = 0). \param verbose (In) A boolean value indicating whether the reader should print diagnostic statements to stdout. (default = 0). \param A (Out) An Epetra_CrsMatrix object constructed from file contents. \warning User must delete!!. \return Returns 0 if no error, -1 if any problems with file system.(See the Matrix Market home page for details.)
Definition at line 153 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix64 | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A | ||
) |
Definition at line 169 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix64 | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose | ||
) |
Definition at line 177 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix64 | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose, | ||
const bool | verbose | ||
) |
Definition at line 186 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix64 | ( | const char * | filename, |
const Epetra_Map & | rowMap, | ||
const Epetra_Map & | rangeMap, | ||
const Epetra_Map & | domainMap, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose, | ||
const bool | verbose | ||
) |
Definition at line 197 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix64 | ( | const char * | filename, |
const Epetra_Map & | rowMap, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose, | ||
const bool | verbose | ||
) |
Definition at line 211 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix64 | ( | const char * | filename, |
const Epetra_Map & | rowMap, | ||
const Epetra_Map & | colMap, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose, | ||
const bool | verbose | ||
) |
Definition at line 223 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrix64 | ( | const char * | filename, |
const Epetra_Map & | rowMap, | ||
const Epetra_Map & | colMap, | ||
const Epetra_Map & | rangeMap, | ||
const Epetra_Map & | domainMap, | ||
Epetra_CrsMatrix *& | A, | ||
const bool | transpose, | ||
const bool | verbose | ||
) |
Definition at line 236 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrixHandle | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A, | ||
const Epetra_Map * | rowMap, | ||
const Epetra_Map * | colMap, | ||
const Epetra_Map * | rangeMap, | ||
const Epetra_Map * | domainMap, | ||
const bool | transpose, | ||
const bool | verbose | ||
) |
Definition at line 253 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatrixMarketFileToCrsMatrixHandle64 | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A, | ||
const Epetra_Map * | rowMap, | ||
const Epetra_Map * | colMap, | ||
const Epetra_Map * | rangeMap, | ||
const Epetra_Map * | domainMap, | ||
const bool | transpose, | ||
const bool | verbose | ||
) |
Definition at line 533 of file EpetraExt_CrsMatrixIn.cpp.
|
static |
Definition at line 824 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatlabFileToCrsMatrix | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A | ||
) |
Constructs an Epetra_CrsMatrix object from a Matlab format file, distributes rows evenly across processors.
This function constructs an Epetra_CrsMatrix object by reading a Matlab (i,j,value) format file. \param filename (In) A filename, including path if desired. The matrix to be read should be in this file in Matlab coordinate format. \param comm (In) An Epetra_Comm object. The matrix will have its rows distributed evenly by row-count across the parallel machine. \param A (Out) An Epetra_CrsMatrix object constructed from file contents. The input matrix can be any dimension, square or rectangular. \warning User must delete matrix A!!. \return Returns 0 if no error, -1 if any problems with file system. Notes:
The format expected for the input file is a list of nonzero entries with one entry per row. Each row will have the row index, column index and value listed with space in between each item. The number of lines in the file should be exactly the number of entries of the matrix. For example, consider the following matrix where only the nonzero values are stored:
A Matlab format file for this matrix would be:
1 1 5.0 1 2 7.0 2 1 3.0 2 2 2.0 2 4 1.0 4 4 4.0
Note that the entries can be listed in any order and that the matrix does not need to be square. Values in the first and second columns must be integer values and in those in the third column must be floating point format.
(See the Matlab home page for details.)Definition at line 879 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::MatlabFileToCrsMatrix64 | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A | ||
) |
Definition at line 933 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::HypreFileToCrsMatrix | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | A | ||
) |
Constructs an Epetra_CrsMatrix object from a Hypre Matrix Print command, the row map is specified.
Reads an Epetra_CrsMatrix object from a Hypre Matrix Printout, the matrix should be square.
filename | (In) A filename not including the processor id extension, including path if desired. |
comm | (In) An Epetra_Comm object describing the communication among processors. |
A | (Out) An Epetra_CrsMatrix object constructed from file contents. |
Definition at line 987 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::HypreFileToCrsMatrix64 | ( | const char * | filename, |
const Epetra_Comm & | comm, | ||
Epetra_CrsMatrix *& | Matrix | ||
) |
Definition at line 1053 of file EpetraExt_CrsMatrixIn.cpp.
int EpetraExt::mm_read_unsymmetric_sparse | ( | const char * | fname, |
int * | M_, | ||
int * | N_, | ||
int * | nz_, | ||
double ** | val_, | ||
int ** | I_, | ||
int ** | J_ | ||
) |
Definition at line 66 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_is_valid | ( | MM_typecode | matcode | ) |
Definition at line 140 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_read_banner | ( | FILE * | f, |
MM_typecode * | matcode | ||
) |
Definition at line 150 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_write_mtx_crd_size | ( | FILE * | f, |
long long | M, | ||
long long | N, | ||
long long | nz | ||
) |
Definition at line 235 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_read_mtx_crd_size | ( | FILE * | f, |
int * | M, | ||
int * | N, | ||
int * | nz | ||
) |
Definition at line 241 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_read_mtx_crd_size | ( | FILE * | f, |
long long * | M, | ||
long long * | N, | ||
long long * | nz | ||
) |
Definition at line 271 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_read_mtx_array_size | ( | FILE * | f, |
int * | M, | ||
int * | N | ||
) |
Definition at line 301 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_write_mtx_array_size | ( | FILE * | f, |
long long | M, | ||
long long | N | ||
) |
Definition at line 330 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_read_mtx_crd_data | ( | FILE * | f, |
int | , | ||
int | , | ||
int | nz, | ||
int | I[], | ||
int | J[], | ||
double | val[], | ||
MM_typecode | matcode | ||
) |
Definition at line 344 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_read_mtx_crd_entry | ( | FILE * | f, |
int * | I, | ||
int * | J, | ||
double * | real, | ||
double * | imag, | ||
MM_typecode | matcode | ||
) |
Definition at line 377 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_read_mtx_crd_entry | ( | FILE * | f, |
long long * | I, | ||
long long * | J, | ||
double * | real, | ||
double * | imag, | ||
MM_typecode | matcode | ||
) |
Definition at line 403 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_read_mtx_crd | ( | char * | fname, |
int * | M, | ||
int * | N, | ||
int * | nz, | ||
int ** | I, | ||
int ** | J, | ||
double ** | val, | ||
MM_typecode * | matcode | ||
) |
Definition at line 437 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_write_banner | ( | FILE * | f, |
MM_typecode | matcode | ||
) |
Definition at line 496 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_write_mtx_crd | ( | char | fname[], |
int | M, | ||
int | N, | ||
int | nz, | ||
int | I[], | ||
int | J[], | ||
double | val[], | ||
MM_typecode | matcode | ||
) |
Definition at line 510 of file EpetraExt_mmio.cpp.
void EpetraExt::mm_typecode_to_str | ( | MM_typecode | matcode, |
char * | buffer | ||
) |
Definition at line 556 of file EpetraExt_mmio.cpp.
int EpetraExt::mm_read_banner | ( | std::FILE * | f, |
MM_typecode * | matcode | ||
) |
int EpetraExt::mm_read_mtx_crd_size | ( | std::FILE * | f, |
int * | M, | ||
int * | N, | ||
int * | nz | ||
) |
int EpetraExt::mm_read_mtx_crd_size | ( | std::FILE * | f, |
long long * | M, | ||
long long * | N, | ||
long long * | nz | ||
) |
int EpetraExt::mm_read_mtx_array_size | ( | std::FILE * | f, |
int * | M, | ||
int * | N | ||
) |
int EpetraExt::mm_write_banner | ( | std::FILE * | f, |
MM_typecode | matcode | ||
) |
int EpetraExt::mm_write_mtx_crd_size | ( | std::FILE * | f, |
long long | M, | ||
long long | N, | ||
long long | nz | ||
) |
int EpetraExt::mm_write_mtx_array_size | ( | std::FILE * | f, |
long long | M, | ||
long long | N | ||
) |
int EpetraExt::mm_read_mtx_crd_data | ( | std::FILE * | f, |
int | M, | ||
int | N, | ||
int | nz, | ||
int | I[], | ||
int | J[], | ||
double | val[], | ||
MM_typecode | matcode | ||
) |
int EpetraExt::mm_read_mtx_crd_entry | ( | std::FILE * | f, |
int * | I, | ||
int * | J, | ||
double * | real, | ||
double * | img, | ||
MM_typecode | matcode | ||
) |
int EpetraExt::mm_read_mtx_crd_entry | ( | std::FILE * | f, |
long long * | I, | ||
long long * | J, | ||
double * | real, | ||
double * | img, | ||
MM_typecode | matcode | ||
) |
int EpetraExt::MatrixMarketFileToMultiVector | ( | const char * | filename, |
const Epetra_BlockMap & | map, | ||
Epetra_MultiVector *& | A | ||
) |
Constructs an Epetra_MultiVector object from a Matrix Market format file.
This function constructs an Epetra_MultiVector object by reading a Matrix Market file.
filename | (In) A filename, including path if desired. The multivector to be read should be in this file in Matrix Market array format. |
map | (In) An Epetra_Map or Epetra_BlockMap object describing the desired distribution of the multivector. |
A | (Out) An Epetra_MultiVector object constructed from file contents. |
Definition at line 50 of file EpetraExt_MultiVectorIn.cpp.
int EpetraExt::MultiVectorToMatlabFile | ( | const char * | filename, |
const Epetra_MultiVector & | A | ||
) |
Writes an Epetra_MultiVector object to a file that is compatible with Matlab.
This function takes any matrix that implements the Epetra_MultiVector interface and writes it to the specified file. The matrix can be distributed or serial. This function is a convenience wrapper around MultiVectorToMatrixMarketFile. The following Matlab commands can be used to read the resulting file and convert to it to a Matlab sparse matrix:
For example:
The above produces a dense matrix A with each vector in the multivector as a column in A.
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contain a row for each row of the multivector. |
A | (In) An Epetra_MultiVector Object containing the user matrix to be dumped to file. |
Definition at line 60 of file EpetraExt_MultiVectorOut.cpp.
int EpetraExt::MultiVectorToMatrixMarketFile | ( | const char * | filename, |
const Epetra_MultiVector & | A, | ||
const char * | matrixName = 0 , |
||
const char * | matrixDescription = 0 , |
||
bool | writeHeader = true |
||
) |
Writes an Epetra_MultiVector object to a Matrix Market format file.
This function takes an Epetra_MultiVector object and writes it to the specified file. The multivector can be distributed or serial. The user can provide a strings containing the object name, a description, and specify that header information should or should not be printed to the file.
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contained any requested header information followed by the matrix coefficients. The file will contain a row for each entry. All entries for a column are listed before going to the next column. |
A | (In) An Epetra_MultiVector Object containing the user matrix to be dumped to file. |
matrixName | (In) A C-style string pointer to a name that will be stored in the comment field of the file. This is not a required argument. Note that it is possible to pass in the method A.Label(). |
matrixDescription | (In) A C-style string pointer to a matrix description that will be stored in the comment field of the file. |
writeHeader | (In) If true, the header will be written, otherwise only the matrix entries will be written. |
Definition at line 74 of file EpetraExt_MultiVectorOut.cpp.
int EpetraExt::MultiVectorToMatlabHandle | ( | FILE * | handle, |
const Epetra_MultiVector & | A | ||
) |
Definition at line 111 of file EpetraExt_MultiVectorOut.cpp.
int EpetraExt::MultiVectorToMatrixMarketHandle | ( | FILE * | handle, |
const Epetra_MultiVector & | A | ||
) |
Definition at line 114 of file EpetraExt_MultiVectorOut.cpp.
int EpetraExt::TMultiVectorToHandle | ( | FILE * | handle, |
const Epetra_MultiVector & | A, | ||
bool | mmFormat | ||
) |
Definition at line 119 of file EpetraExt_MultiVectorOut.cpp.
int EpetraExt::MultiVectorToHandle | ( | FILE * | handle, |
const Epetra_MultiVector & | A, | ||
bool | mmFormat | ||
) |
Definition at line 187 of file EpetraExt_MultiVectorOut.cpp.
int EpetraExt::writeMultiVector | ( | FILE * | handle, |
const Epetra_MultiVector & | A, | ||
bool | mmFormat | ||
) |
Definition at line 203 of file EpetraExt_MultiVectorOut.cpp.
int EpetraExt::MultiVectorToMatrixMarketHandle | ( | std::FILE * | handle, |
const Epetra_MultiVector & | A | ||
) |
Writes an Epetra_MultiVector object that is compatible with Matrix Market array format to a file handle.
This function takes an Epetra_MultiVector and writes it to the specified file handle.
handle | (In) A C-style file handle, already opened. On exit, the file associated with this handle will have appended to it a row for each multivector row. |
A | (In) An Epetra_MultiVector Object containing the user object to be dumped to file. |
int EpetraExt::MultiVectorToMatlabHandle | ( | std::FILE * | handle, |
const Epetra_MultiVector & | A | ||
) |
Writes an Epetra_MultiVector object that is compatible with Matlab to a file handle.
This function takes an Epetra_MultiVector and writes it to the specified file handle.
handle | (In) A C-style file handle, already opened. On exit, the file associated with this handle will have appended to it a row for each multivector row. |
A | (In) An Epetra_MultiVector Object containing the user object to be dumped to file. |
int EpetraExt::MultiVectorToHandle | ( | std::FILE * | handle, |
const Epetra_MultiVector & | A, | ||
bool | mmFormat | ||
) |
int EpetraExt::writeMultiVector | ( | std::FILE * | handle, |
const Epetra_MultiVector & | A, | ||
bool | mmFormat | ||
) |
int EpetraExt::OperatorToMatlabFile | ( | const char * | filename, |
const Epetra_Operator & | A | ||
) |
Writes an Epetra_Operator object to a file that is compatible with Matlab.
This function takes any matrix that implements the Epetra_Operator interface and writes it to the specified file. The matrix can be distributed or serial. This function is a convenience wrapper around OperatorToMatrixMarketFile. The following Matlab commands can be used to read the resulting file and convert to it to a Matlab sparse matrix:
For example:
The above produces a sparse matrix A.
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contain a row for each matrix entry The first column is the global row index, using base 1, the second column is the global column index of the entry, the third value is the matrix value for that entry. |
A | (In) An Epetra_Operator Object containing the implicit user matrix to be dumped to file. Any object that implements the Epetra_Operator interface can be passed in. In particular, the Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix and Epetra_MsrMatrix classes are compatible with this interface, as is AztecOO_Operator, all Ifpack and ML preconditioners. |
Definition at line 56 of file EpetraExt_OperatorOut.cpp.
int EpetraExt::OperatorToMatrixMarketFile | ( | const char * | filename, |
const Epetra_Operator & | A, | ||
const char * | matrixName = 0 , |
||
const char * | matrixDescription = 0 , |
||
bool | writeHeader = true |
||
) |
Writes an Epetra_Operator object to a Matrix Market format file, forming the coefficients by applying the operator to the e_j vectors.
This function takes any linear operator that implements the Epetra_Operator interface and writes it to the specified file. The operator can be distributed or serial. The user can provide a strings containing the matrix name, a matrix description, and specify that header information should or should not be printed to the file.
The coeffients are formed by applying the operator to the canonical vectors
where the value 1 appears in the the jth entry. The number of canonical vectors used is determined by the size of the OperatorDomainMap() and the lengths by the size of OperatorRangeMap().
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contained any requested header information followed by the matrix coefficients. The file will contain a row for each matrix entry The first column is the global row index, using base 1, the second column is the global column index of the entry, the third value is the matrix value for that entry. |
A | (In) An Epetra_Operator Object containing the implicit user matrix to be dumped to file. Any object that implements the Epetra_Operator interface can be passed in. In particular, the Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix and Epetra_MsrMatrix classes are compatible with this interface, as is AztecOO_Operator, all Ifpack and ML preconditioners. |
matrixName | (In) A C-style string pointer to a name that will be stored in the comment field of the file. This is not a required argument. Note that it is possible to pass in the method A.Label(). |
matrixDescription | (In) A C-style string pointer to a matrix description that will be stored in the comment field of the file. |
writeHeader | (In) If true, the header will be written, otherwise only the matrix entries will be written. |
Definition at line 63 of file EpetraExt_OperatorOut.cpp.
int EpetraExt::OperatorToHandle | ( | FILE * | handle, |
const Epetra_Operator & | A | ||
) |
Definition at line 111 of file EpetraExt_OperatorOut.cpp.
int EpetraExt::writeOperatorStrip | ( | FILE * | handle, |
const Epetra_MultiVector & | y, | ||
const Epetra_Map & | rootDomainMap, | ||
const Epetra_Map & | rootRangeMap, | ||
long long | startColumn | ||
) |
Definition at line 174 of file EpetraExt_OperatorOut.cpp.
int EpetraExt::get_nz | ( | const Epetra_Operator & | A, |
long long & | nz | ||
) |
Definition at line 198 of file EpetraExt_OperatorOut.cpp.
int EpetraExt::OperatorToHandle | ( | std::FILE * | handle, |
const Epetra_Operator & | A | ||
) |
Writes an Epetra_Operator object to a format file that is compatible with Matlab.
This function takes any matrix that implements the Epetra_Operator interface and writes it to the specified file handle. The matrix can be distributed or serial. This function is a convenience wrapper around OperatorToMatrixMarketFile.
handle | (In) A C-style file handle, already opened. On exit, the file associated with this handle will have appended to it a row for each matrix entry The first column is the global row index, using base 1, the second column is the global column index of the entry, the third value is the matrix value for that entry. |
A | (In) An Epetra_Operator Object containing the user matrix to be dumped to file. Any object that implements the Epetra_Operator interface can be passed in. In particular, the Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix and Epetra_MsrMatrix classes are compatible with this interface, as is AztecOO_Operator, all Ifpack and ML preconditioners. |
int EpetraExt::writeOperatorStrip | ( | std::FILE * | handle, |
const Epetra_MultiVector & | y, | ||
const Epetra_Map & | rootDomainMap, | ||
const Epetra_Map & | rootRangeMap, | ||
long long | startColumn | ||
) |
void EpetraExt::readEpetraLinearSystem | ( | const std::string & | fileName, |
const Epetra_Comm & | comm, | ||
Teuchos::RCP< Epetra_CrsMatrix > * | A = NULL , |
||
Teuchos::RCP< Epetra_Map > * | map = NULL , |
||
Teuchos::RCP< Epetra_Vector > * | x = NULL , |
||
Teuchos::RCP< Epetra_Vector > * | b = NULL , |
||
Teuchos::RCP< Epetra_Vector > * | xExact = NULL |
||
) |
Read in an Epetra linear system from a file.
fileName | [in] Name of the file to read in the linear system (see file formats below). |
comm | [in] The communicator |
map | [out] The createe map. map==NULL is allowed on input in which case this will not be returned. |
A | [out] The created matrix. A==NULL is allowed on input in which case this will not be returned. |
x | [out] The created LHS vector. x==NULL is allowed on input in which case this will not be returned. |
b | [out] The created RHS vector. b==NULL is allowed on input in which case this will not be returned. |
xExact | [out] The created exact LHS vector (if known). xExact==NULL is allowed on input in which case this will not be returned. |
This function reads from a number file formats (*.triU, *.triS, *.mtx, *.hb)
ToDo: Finish documentation!
ToDo: Put this in EpetraExt after the release is finished.
Definition at line 47 of file EpetraExt_readEpetraLinearSystem.cpp.
void EpetraExt::readEpetraLinearSystem64 | ( | const std::string & | fileName, |
const Epetra_Comm & | comm, | ||
Teuchos::RCP< Epetra_CrsMatrix > * | A = NULL , |
||
Teuchos::RCP< Epetra_Map > * | map = NULL , |
||
Teuchos::RCP< Epetra_Vector > * | x = NULL , |
||
Teuchos::RCP< Epetra_Vector > * | b = NULL , |
||
Teuchos::RCP< Epetra_Vector > * | xExact = NULL |
||
) |
Definition at line 127 of file EpetraExt_readEpetraLinearSystem.cpp.
int EpetraExt::RowMatrixToMatlabFile | ( | const char * | filename, |
const Epetra_RowMatrix & | A | ||
) |
Writes an Epetra_RowMatrix object to a file that is compatible with Matlab.
This function takes any matrix that implements the Epetra_RowMatrix interface and writes it to the specified file. The matrix can be distributed or serial. This function is a convenience wrapper around RowMatrixToMatrixMarketFile. The following Matlab commands can be used to read the resulting file and convert to it to a Matlab sparse matrix:
For example:
The above produces a sparse matrix A.
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contain a row for each matrix entry The first column is the global row index, using base 1, the second column is the global column index of the entry, the third value is the matrix value for that entry. |
A | (In) An Epetra_RowMatrix Object containing the user matrix to be dumped to file. Any object that implements the Epetra_RowMatrix interface can be passed in. In particular, the Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix and Epetra_MsrMatrix classes are compatible with this interface. |
Definition at line 60 of file EpetraExt_RowMatrixOut.cpp.
int EpetraExt::RowMatrixToMatrixMarketFile | ( | const char * | filename, |
const Epetra_RowMatrix & | A, | ||
const char * | matrixName = 0 , |
||
const char * | matrixDescription = 0 , |
||
bool | writeHeader = true |
||
) |
Writes an Epetra_RowMatrix object to a Matrix Market format file.
This function takes any matrix that implements the Epetra_RowMatrix interface and writes it to the specified file. The matrix can be distributed or serial. The user can provide a strings containing the matrix name, a matrix description, and specify that header information should or should not be printed to the file.
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contained any requested header information followed by the matrix coefficients. The file will contain a row for each matrix entry The first column is the global row index, using base 1, the second column is the global column index of the entry, the third value is the matrix value for that entry. |
A | (In) An Epetra_RowMatrix Object containing the user matrix to be dumped to file. Any object that implements the Epetra_RowMatrix interface can be passed in. In particular, the Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix and Epetra_MsrMatrix classes are compatible with this interface. |
matrixName | (In) A C-style std::string pointer to a name that will be stored in the comment field of the file. This is not a required argument. Note that it is possible to pass in the method A.Label() if the matrix is one of the four types: Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix. |
matrixDescription | (In) A C-style std::string pointer to a matrix description that will be stored in the comment field of the file. |
writeHeader | (In) If true, the header will be written, otherwise only the matrix entries will be written. |
Definition at line 66 of file EpetraExt_RowMatrixOut.cpp.
int EpetraExt::RowMatrixToHandle | ( | FILE * | handle, |
const Epetra_RowMatrix & | A | ||
) |
Definition at line 105 of file EpetraExt_RowMatrixOut.cpp.
int EpetraExt::writeRowMatrix | ( | FILE * | handle, |
const Epetra_RowMatrix & | A | ||
) |
Definition at line 177 of file EpetraExt_RowMatrixOut.cpp.
int EpetraExt::RowMatrixToHandle | ( | std::FILE * | handle, |
const Epetra_RowMatrix & | A | ||
) |
Writes an Epetra_RowMatrix object to a format file that is compatible with Matlab.
This function takes any matrix that implements the Epetra_RowMatrix interface and writes it to the specified file handle. The matrix can be distributed or serial. This function is a convenience wrapper around RowMatrixToMatrixMarketFile.
handle | (In) A C-style file handle, already opened. On exit, the file associated with this handle will have appended to it a row for each matrix entry The first column is the global row index, using base 1, the second column is the global column index of the entry, the third value is the matrix value for that entry. |
A | (In) An Epetra_RowMatrix Object containing the user matrix to be dumped to file. Any object that implements the Epetra_RowMatrix interface can be passed in. In particular, the Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix and Epetra_MsrMatrix classes are compatible with this interface. |
int EpetraExt::writeRowMatrix | ( | std::FILE * | handle, |
const Epetra_RowMatrix & | A | ||
) |
std::string EpetraExt::toString | ( | const int & | x | ) |
Definition at line 48 of file EpetraExt_Utils.cpp.
std::string EpetraExt::toString | ( | const unsigned int & | x | ) |
Definition at line 56 of file EpetraExt_Utils.cpp.
std::string EpetraExt::toString | ( | const double & | x | ) |
Definition at line 63 of file EpetraExt_Utils.cpp.
int EpetraExt::MatrixMarketFileToVector | ( | const char * | filename, |
const Epetra_BlockMap & | map, | ||
Epetra_Vector *& | A | ||
) |
Constructs an Epetra_Vector object from a Matrix Market format file.
This function constructs an Epetra_Vector object by reading a Matrix Market file.
filename | (In) A filename, including path if desired. The matrix to be read should be in this file in Matrix Market array format. |
map | (In) An Epetra_Map or Epetra_BlockMap object describing the desired distribution of the vector. |
A | (Out) An Epetra_Vector object constructed from file contents. |
Definition at line 50 of file EpetraExt_VectorIn.cpp.
int EpetraExt::VectorToMatlabFile | ( | const char * | filename, |
const Epetra_Vector & | A | ||
) |
Writes an Epetra_Vector object to a file that is compatible with Matlab.
This function takes any matrix that implements the Epetra_Vector interface and writes it to the specified file. The matrix can be distributed or serial. This function is a convenience wrapper around VectorToMatrixMarketFile. The following Matlab commands can be used to read the resulting file and convert to it to a Matlab sparse matrix:
For example:
The above produces a sparse matrix A.
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contain a row for each matrix entry The first column is the global row index, using base 1, the second column is the global column index of the entry, the third value is the matrix value for that entry. |
A | (In) An Epetra_Vector Object containing the user matrix to be dumped to file. Any object that implements the Epetra_Vector interface can be passed in. In particular, the Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix and Epetra_MsrMatrix classes are compatible with this interface. |
Definition at line 57 of file EpetraExt_VectorOut.cpp.
int EpetraExt::VectorToMatrixMarketFile | ( | const char * | filename, |
const Epetra_Vector & | A, | ||
const char * | matrixName = 0 , |
||
const char * | matrixDescription = 0 , |
||
bool | writeHeader = true |
||
) |
Writes an Epetra_Vector object to a Matrix Market format file.
This function takes any matrix that implements the Epetra_Vector interface and writes it to the specified file. The matrix can be distributed or serial. The user can provide a strings containing the matrix name, a matrix description, and specify that header information should or should not be printed to the file.
filename | (In) A filename, including path if desired. If a file with this name already exists, it will be deleted. On exit, this file will contained any requested header information followed by the matrix coefficients. The file will contain a row for each matrix entry The first column is the global row index, using base 1, the second column is the global column index of the entry, the third value is the matrix value for that entry. |
A | (In) An Epetra_Vector Object containing the user matrix to be dumped to file. Any object that implements the Epetra_Vector interface can be passed in. In particular, the Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix and Epetra_MsrMatrix classes are compatible with this interface. |
matrixName | (In) A C-style string pointer to a name that will be stored in the comment field of the file. This is not a required argument. Note that it is possible to pass in the method A.Label() if the matrix is one of the four types: Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix. |
matrixDescription | (In) A C-style string pointer to a matrix description that will be stored in the comment field of the file. |
writeHeader | (In) If true, the header will be written, otherwise only the matrix entries will be written. |
Definition at line 61 of file EpetraExt_VectorOut.cpp.
int EpetraExt::VectorToHandle | ( | FILE * | handle, |
const Epetra_Vector & | A | ||
) |
Definition at line 68 of file EpetraExt_VectorOut.cpp.
int EpetraExt::writeVector | ( | FILE * | handle, |
const Epetra_Vector & | A | ||
) |
Definition at line 72 of file EpetraExt_VectorOut.cpp.
int EpetraExt::VectorToHandle | ( | std::FILE * | handle, |
const Epetra_Vector & | A | ||
) |
Writes an Epetra_Vector object to a format file that is compatible with Matlab.
This function takes any matrix that implements the Epetra_Vector interface and writes it to the specified file handle. The matrix can be distributed or serial. This function is a convenience wrapper around VectorToMatrixMarketFile.
handle | (In) A C-style file handle, already opened. On exit, the file associated with this handle will have appended to it a row for each matrix entry The first column is the global row index, using base 1, the second column is the global column index of the entry, the third value is the matrix value for that entry. |
A | (In) An Epetra_Vector Object containing the user matrix to be dumped to file. Any object that implements the Epetra_Vector interface can be passed in. In particular, the Epetra_CrsMatrix, Epetra_VbrMatrix, Epetra_FECrsMatrix, Epetra_FEVbrMatrix and Epetra_MsrMatrix classes are compatible with this interface. |
int EpetraExt::writeVector | ( | std::FILE * | handle, |
const Epetra_Vector & | A | ||
) |
std::string EpetraExt::toString | ( | ModelEvaluator::EDerivativeMultiVectorOrientation | orientation | ) |
Definition at line 1046 of file EpetraExt_ModelEvaluator.cpp.
std::string EpetraExt::toString | ( | ModelEvaluator::EInArgsMembers | inArg | ) |
Definition at line 1062 of file EpetraExt_ModelEvaluator.cpp.
std::string EpetraExt::toString | ( | ModelEvaluator::EOutArgsMembers | outArg | ) |
Definition at line 1108 of file EpetraExt_ModelEvaluator.cpp.
Teuchos::RCP< Epetra_Operator > EpetraExt::getLinearOp | ( | const std::string & | modelEvalDescription, |
const ModelEvaluator::Derivative & | deriv, | ||
const std::string & | derivName | ||
) |
Definition at line 1135 of file EpetraExt_ModelEvaluator.cpp.
Teuchos::RCP< Epetra_MultiVector > EpetraExt::getMultiVector | ( | const std::string & | modelEvalDescription, |
const ModelEvaluator::Derivative & | deriv, | ||
const std::string & | derivName, | ||
const ModelEvaluator::EDerivativeMultiVectorOrientation | mvOrientation | ||
) |
Definition at line 1151 of file EpetraExt_ModelEvaluator.cpp.
Teuchos::RCP< Epetra_Operator > EpetraExt::get_DfDp_op | ( | const int | l, |
const ModelEvaluator::OutArgs & | outArgs | ||
) |
Definition at line 1178 of file EpetraExt_ModelEvaluator.cpp.
Teuchos::RCP< Epetra_MultiVector > EpetraExt::get_DfDp_mv | ( | const int | l, |
const ModelEvaluator::OutArgs & | outArgs | ||
) |
Definition at line 1193 of file EpetraExt_ModelEvaluator.cpp.
Teuchos::RCP< Epetra_MultiVector > EpetraExt::get_DgDx_dot_mv | ( | const int | j, |
const ModelEvaluator::OutArgs & | outArgs, | ||
const ModelEvaluator::EDerivativeMultiVectorOrientation | mvOrientation | ||
) |
Definition at line 1209 of file EpetraExt_ModelEvaluator.cpp.
Teuchos::RCP< Epetra_MultiVector > EpetraExt::get_DgDx_dotdot_mv | ( | const int | j, |
const ModelEvaluator::OutArgs & | outArgs, | ||
const ModelEvaluator::EDerivativeMultiVectorOrientation | mvOrientation | ||
) |
Definition at line 1226 of file EpetraExt_ModelEvaluator.cpp.
Teuchos::RCP< Epetra_MultiVector > EpetraExt::get_DgDx_mv | ( | const int | j, |
const ModelEvaluator::OutArgs & | outArgs, | ||
const ModelEvaluator::EDerivativeMultiVectorOrientation | mvOrientation | ||
) |
Definition at line 1243 of file EpetraExt_ModelEvaluator.cpp.
Teuchos::RCP< Epetra_MultiVector > EpetraExt::get_DgDp_mv | ( | const int | j, |
const int | l, | ||
const ModelEvaluator::OutArgs & | outArgs, | ||
const ModelEvaluator::EDerivativeMultiVectorOrientation | mvOrientation | ||
) |
Definition at line 1260 of file EpetraExt_ModelEvaluator.cpp.
int EpetraExt::compare_ints | ( | const void * | a, |
const void * | b | ||
) |
Given an Epetra_CrsGraph that has block structure, an adjacency graph is constructed representing the block connectivity of the original graph.
Definition at line 54 of file EpetraExt_BlockAdjacencyGraph.cpp.
int EpetraExt::ceil31log2 | ( | int | n | ) |
Definition at line 59 of file EpetraExt_BlockAdjacencyGraph.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
Construct | |||
) |
Definition at line 74 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
MatVec | |||
) |
Definition at line 99 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
BetterMatVec | |||
) |
Definition at line 115 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
TransposeMatVec | |||
) |
Definition at line 146 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
LeftScale | |||
) |
Definition at line 168 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
RightScale | |||
) |
Definition at line 185 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
ExtractDiagonalCopy | |||
) |
Definition at line 203 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
InvRowSums | |||
) |
Definition at line 221 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
InvColSums | |||
) |
Definition at line 239 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
NormInf | |||
) |
Definition at line 257 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
NormOne | |||
) |
Definition at line 269 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
NumGlobalNonzeros | |||
) |
Definition at line 282 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
NumGlobalRows | |||
) |
Definition at line 295 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
NumGlobalCols | |||
) |
Definition at line 308 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
NumGlobalDiagonals | |||
) |
Definition at line 321 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
NumMyNonzeros | |||
) |
Definition at line 334 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
NumMyRows | |||
) |
Definition at line 347 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
NumMyCols | |||
) |
Definition at line 360 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
NumMyDiagonals | |||
) |
Definition at line 373 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
MaxNumEntries | |||
) |
Definition at line 386 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
ApplyInverse | |||
) |
Definition at line 399 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
SameMatVec | |||
) |
Definition at line 417 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_hypre | , |
Solve | |||
) |
Definition at line 435 of file hypre_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_HDF5 | , |
WriteReadInt | |||
) |
Definition at line 56 of file EpetraExt_HDF5_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_HDF5 | , |
WriteReadSerialData | |||
) |
Definition at line 81 of file EpetraExt_HDF5_UnitTest.cpp.
EpetraExt::TEUCHOS_UNIT_TEST | ( | EpetraExt_HDF5 | , |
NestedGroups | |||
) |
Definition at line 107 of file EpetraExt_HDF5_UnitTest.cpp.
Transform<T,T>::NewTypeRef Transform_Composite<T>typename Transform<T,T>::OriginalTypeRef orig this EpetraExt::origObj_ = &orig |
Definition at line 139 of file EpetraExt_Transform_Composite.h.
return *this EpetraExt::newObj_ = &orig |
Definition at line 140 of file EpetraExt_Transform_Composite.h.
TransListIter EpetraExt::iter = transList_.begin() |
Definition at line 142 of file EpetraExt_Transform_Composite.h.
TransListIter EpetraExt::end = transList_.end() |
Definition at line 143 of file EpetraExt_Transform_Composite.h.
const int EpetraExt::N = 100 |
Definition at line 70 of file hypre_UnitTest.cpp.
const int EpetraExt::MatType = 4 |
Definition at line 71 of file hypre_UnitTest.cpp.
const double EpetraExt::tol = 1E-6 |
Definition at line 72 of file hypre_UnitTest.cpp.