1*ca161407SBarry Smith /* $Id: mat.h,v 1.148 1997/10/28 14:26:00 bsmith Exp bsmith $ */ 22eac72dbSBarry Smith /* 32eac72dbSBarry Smith Include file for the matrix component of PETSc 4f1d1b154SWilliam Gropp 5f1d1b154SWilliam Gropp Any change to this file must also be made to FINCLUDE/mat.h 62eac72dbSBarry Smith */ 71eb62cbbSBarry Smith #ifndef __MAT_PACKAGE 81eb62cbbSBarry Smith #define __MAT_PACKAGE 98ed539a5SBarry Smith #include "vec.h" 102eac72dbSBarry Smith 119cd28387SBarry Smith #define MAT_COOKIE PETSC_COOKIE+5 12f0479e8cSBarry Smith 13e2a1c21fSSatish Balay typedef struct _p_Mat* Mat; 142eac72dbSBarry Smith 15f1d1b154SWilliam Gropp #define MAX_MATRIX_TYPES 14 16639f9d9dSBarry Smith /* 17639f9d9dSBarry Smith The default matrix data storage formats and routines to create them. 18f1d1b154SWilliam Gropp 19f1d1b154SWilliam Gropp MATLASTTYPE is "end-of-list" marker that can be used to check that 20f1d1b154SWilliam Gropp MAX_MATRIX_TYPES is large enough. The rule is 21f1d1b154SWilliam Gropp MAX_MATRIX_TYPES >= MATLASTTYPE . 22f1d1b154SWilliam Gropp 23f1d1b154SWilliam Gropp To do: add a test program that checks the consistency of these values. 24639f9d9dSBarry Smith */ 254ac9ca07SLois Curfman McInnes typedef enum { MATSAME=-1, MATSEQDENSE, MATSEQAIJ, MATMPIAIJ, MATSHELL, 2684cb2905SBarry Smith MATMPIROWBS, MATSEQBDIAG, MATMPIBDIAG, MATMPIDENSE, MATSEQBAIJ, 27f1d1b154SWilliam Gropp MATMPIBAIJ, MATMPICSN, MATSEQCSN, MATSEQADJ, MATMPIADJ, 28f1d1b154SWilliam Gropp MATLASTTYPE } MatType; 2928988994SBarry Smith 300e998a85SBarry Smith extern int MatCreate(MPI_Comm,int,int,Mat*); 31df6e0191SLois Curfman McInnes extern int MatCreateSeqDense(MPI_Comm,int,int,Scalar*,Mat*); 32d5bc1036SLois Curfman McInnes extern int MatCreateMPIDense(MPI_Comm,int,int,int,int,Scalar*,Mat*); 33de7da479SBarry Smith extern int MatCreateSeqAIJ(MPI_Comm,int,int,int,int*,Mat*); 349717bf64SBarry Smith extern int MatCreateMPIAIJ(MPI_Comm,int,int,int,int,int,int*,int,int*,Mat*); 35cfe223acSLois Curfman McInnes extern int MatCreateMPIRowbs(MPI_Comm,int,int,int,int*,void*,Mat*); 36f26ada1bSBarry Smith extern int MatCreateSeqBDiag(MPI_Comm,int,int,int,int,int*,Scalar**,Mat*); 37f26ada1bSBarry Smith extern int MatCreateMPIBDiag(MPI_Comm,int,int,int,int,int,int*,Scalar**,Mat*); 38df8a92d1SBarry Smith extern int MatCreateSeqBAIJ(MPI_Comm,int,int,int,int,int*,Mat*); 39eba03b66SLois Curfman McInnes extern int MatCreateMPIBAIJ(MPI_Comm,int,int,int,int,int,int,int*,int,int*,Mat*); 4082c9921cSBarry Smith extern int MatCreateSeqAdj(MPI_Comm,int,int,int*,int*,Mat *); 410752156aSBarry Smith extern int MatCreateMPIAdj(MPI_Comm,int,int,int*,int*,Mat*); 429717bf64SBarry Smith 437b80b807SBarry Smith extern int MatDestroy(Mat); 447b80b807SBarry Smith 457ddc982cSLois Curfman McInnes extern int MatCreateShell(MPI_Comm,int,int,int,int,void *,Mat*); 4617116c71SBarry Smith extern int MatShellGetContext(Mat,void **); 4721c89e3eSBarry Smith 48ec0117caSBarry Smith extern int MatPrintHelp(Mat); 49ec0117caSBarry Smith 508ed539a5SBarry Smith /* ------------------------------------------------------------*/ 51ee50ffe9SBarry Smith extern int MatSetValues(Mat,int,int*,int,int*,Scalar*,InsertMode); 5295e63191SSatish Balay extern int MatSetValuesBlocked(Mat,int,int*,int,int*,Scalar*,InsertMode); 5384cb2905SBarry Smith 546d4a8577SBarry Smith typedef enum {MAT_FLUSH_ASSEMBLY=1,MAT_FINAL_ASSEMBLY=0} MatAssemblyType; 55ee50ffe9SBarry Smith extern int MatAssemblyBegin(Mat,MatAssemblyType); 56ee50ffe9SBarry Smith extern int MatAssemblyEnd(Mat,MatAssemblyType); 57b951964fSBarry Smith #define MatSetValue(v,i,j,va,mode) \ 58b951964fSBarry Smith {int _ierr,_row = i,_col = j; Scalar _va = va; \ 59b951964fSBarry Smith _ierr = MatSetValues(v,1,&_row,1,&_col,&_va,mode);CHKERRQ(_ierr); \ 60b951964fSBarry Smith } 61ee50ffe9SBarry Smith 626d4a8577SBarry Smith typedef enum {MAT_ROW_ORIENTED=1,MAT_COLUMN_ORIENTED=2,MAT_ROWS_SORTED=4, 636d4a8577SBarry Smith MAT_COLUMNS_SORTED=8,MAT_NO_NEW_NONZERO_LOCATIONS=16, 646d4a8577SBarry Smith MAT_YES_NEW_NONZERO_LOCATIONS=32,MAT_SYMMETRIC=64, 656d4a8577SBarry Smith MAT_STRUCTURALLY_SYMMETRIC,MAT_NO_NEW_DIAGONALS, 666d4a8577SBarry Smith MAT_YES_NEW_DIAGONALS,MAT_INODE_LIMIT_1,MAT_INODE_LIMIT_2, 6790f02eecSBarry Smith MAT_INODE_LIMIT_3,MAT_INODE_LIMIT_4,MAT_INODE_LIMIT_5, 682b362799SSatish Balay MAT_IGNORE_OFF_PROC_ENTRIES,MAT_ROWS_UNSORTED, 6996854ed6SLois Curfman McInnes MAT_COLUMNS_UNSORTED,MAT_NEW_NONZERO_LOCATION_ERROR, 7096854ed6SLois Curfman McInnes MAT_NEW_NONZERO_ALLOCATION_ERROR} MatOption; 71ee50ffe9SBarry Smith extern int MatSetOption(Mat,MatOption); 724b0e389bSBarry Smith extern int MatGetType(Mat,MatType*,char**); 7356cd22aeSBarry Smith extern int MatGetTypeFromOptions(MPI_Comm,char*,MatType*,PetscTruth*); 7484cb2905SBarry Smith 75ee50ffe9SBarry Smith extern int MatGetValues(Mat,int,int*,int,int*,Scalar*); 768ed539a5SBarry Smith extern int MatGetRow(Mat,int,int *,int **,Scalar**); 778ed539a5SBarry Smith extern int MatRestoreRow(Mat,int,int *,int **,Scalar**); 7877c4ece6SBarry Smith extern int MatGetColumn(Mat,int,int *,int **,Scalar**); 7977c4ece6SBarry Smith extern int MatRestoreColumn(Mat,int,int *,int **,Scalar**); 8064e87e97SBarry Smith extern int MatGetArray(Mat,Scalar **); 8109883261SBarry Smith extern int MatRestoreArray(Mat,Scalar **); 82870582ebSSatish Balay extern int MatGetBlockSize(Mat,int *); 837b80b807SBarry Smith 848ed539a5SBarry Smith extern int MatMult(Mat,Vec,Vec); 858ed539a5SBarry Smith extern int MatMultAdd(Mat,Vec,Vec,Vec); 868ed539a5SBarry Smith extern int MatMultTrans(Mat,Vec,Vec); 878ed539a5SBarry Smith extern int MatMultTransAdd(Mat,Vec,Vec,Vec); 882eac72dbSBarry Smith 897b80b807SBarry Smith extern int MatConvert(Mat,MatType,Mat*); 903a40ed3dSBarry Smith extern int MatDuplicate(Mat,Mat*); 9194a9d846SBarry Smith extern int MatConvertRegister(MatType,MatType,int (*)(Mat,MatType,Mat*)); 9294a9d846SBarry Smith extern int MatConvertRegisterAll(); 9394a9d846SBarry Smith 947b80b807SBarry Smith extern int MatCopy(Mat,Mat); 957b80b807SBarry Smith extern int MatView(Mat,Viewer); 967b80b807SBarry Smith extern int MatLoad(Viewer,MatType,Mat*); 9794a9d846SBarry Smith extern int MatLoadRegister(MatType,int (*)(Viewer,MatType,Mat*)); 9894a9d846SBarry Smith extern int MatLoadRegisterAll(); 997b80b807SBarry Smith 100d4fbbf0eSBarry Smith extern int MatGetRowIJ(Mat,int,PetscTruth,int*,int **,int **,PetscTruth *); 101d4fbbf0eSBarry Smith extern int MatRestoreRowIJ(Mat,int,PetscTruth,int *,int **,int **,PetscTruth *); 102d4fbbf0eSBarry Smith extern int MatGetColumnIJ(Mat,int,PetscTruth,int*,int **,int **,PetscTruth *); 103d4fbbf0eSBarry Smith extern int MatRestoreColumnIJ(Mat,int,PetscTruth,int *,int **,int **,PetscTruth *); 104d4fbbf0eSBarry Smith 1051d607229SLois Curfman McInnes /* 1061d607229SLois Curfman McInnes Context of matrix information, used with MatGetInfo() 1071d607229SLois Curfman McInnes Note: If any entries are added to this context, be sure 1081d607229SLois Curfman McInnes to adjust MAT_INFO_SIZE in FINCLUDE/mat.h 1091d607229SLois Curfman McInnes */ 1104e220ebcSLois Curfman McInnes typedef struct { 11137f753daSBarry Smith PLogDouble rows_global, columns_global; /* number of global rows and columns */ 11237f753daSBarry Smith PLogDouble rows_local, columns_local; /* number of local rows and columns */ 11337f753daSBarry Smith PLogDouble block_size; /* block size */ 11437f753daSBarry Smith PLogDouble nz_allocated, nz_used, nz_unneeded; /* number of nonzeros */ 11537f753daSBarry Smith PLogDouble memory; /* memory allocated */ 11637f753daSBarry Smith PLogDouble assemblies; /* number of matrix assemblies */ 11737f753daSBarry Smith PLogDouble mallocs; /* number of mallocs during MatSetValues() */ 11837f753daSBarry Smith PLogDouble fill_ratio_given, fill_ratio_needed; /* fill ratio for LU/ILU */ 11937f753daSBarry Smith PLogDouble factor_mallocs; /* number of mallocs during factorization */ 1204e220ebcSLois Curfman McInnes } MatInfo; 1214e220ebcSLois Curfman McInnes 1227b80b807SBarry Smith typedef enum {MAT_LOCAL=1,MAT_GLOBAL_MAX=2,MAT_GLOBAL_SUM=3} MatInfoType; 1234e220ebcSLois Curfman McInnes extern int MatGetInfo(Mat,MatInfoType,MatInfo*); 12477c4ece6SBarry Smith extern int MatValid(Mat,PetscTruth*); 1257b80b807SBarry Smith extern int MatGetDiagonal(Mat,Vec); 126cd8486b4SBarry Smith extern int MatTranspose(Mat,Mat*); 1270513a670SBarry Smith extern int MatPermute(Mat,IS,IS,Mat *); 128f4c33d5aSBarry Smith extern int MatDiagonalScale(Mat,Vec,Vec); 1298b3e568eSBarry Smith extern int MatDiagonalShift(Mat,Vec); 13077c4ece6SBarry Smith extern int MatEqual(Mat,Mat, PetscTruth*); 1317b80b807SBarry Smith 1327b80b807SBarry Smith extern int MatNorm(Mat,NormType,double *); 1337b80b807SBarry Smith extern int MatZeroEntries(Mat); 1347b80b807SBarry Smith extern int MatZeroRows(Mat,IS,Scalar*); 1357b80b807SBarry Smith extern int MatZeroColumns(Mat,IS,Scalar*); 1367b80b807SBarry Smith 1377b80b807SBarry Smith extern int MatGetSize(Mat,int*,int*); 1387b80b807SBarry Smith extern int MatGetLocalSize(Mat,int*,int*); 1397b80b807SBarry Smith extern int MatGetOwnershipRange(Mat,int*,int*); 1407b80b807SBarry Smith 1417b80b807SBarry Smith typedef enum {MAT_INITIAL_MATRIX, MAT_REUSE_MATRIX} MatGetSubMatrixCall; 1427b80b807SBarry Smith extern int MatGetSubMatrices(Mat,int,IS *,IS *,MatGetSubMatrixCall,Mat **); 143905e6a2fSBarry Smith extern int MatDestroyMatrices(int, Mat **); 144d64ed03dSBarry Smith extern int MatGetSubMatrix(Mat,IS,IS,MatGetSubMatrixCall,Mat *); 1458efafbd8SBarry Smith 1467b80b807SBarry Smith extern int MatIncreaseOverlap(Mat,int,IS *,int); 1477b80b807SBarry Smith 1487b80b807SBarry Smith extern int MatAXPY(Scalar *,Mat,Mat); 14986787d2cSSatish Balay extern int MatAYPX(Scalar *,Mat,Mat); 1507b80b807SBarry Smith extern int MatCompress(Mat); 1517b80b807SBarry Smith 152052efed2SBarry Smith extern int MatScale(Scalar *,Mat); 153052efed2SBarry Smith extern int MatShift(Scalar *,Mat); 154052efed2SBarry Smith 155d4bb536fSBarry Smith extern int MatSetLocalToGlobalMapping(Mat, ISLocalToGlobalMapping); 156d4bb536fSBarry Smith extern int MatSetLocalToGlobalMappingBlocked(Mat, ISLocalToGlobalMapping); 15790f02eecSBarry Smith extern int MatZeroRowsLocal(Mat,IS,Scalar*); 15890f02eecSBarry Smith extern int MatSetValuesLocal(Mat,int,int*,int,int*,Scalar*,InsertMode); 1594a387fc0SSatish Balay extern int MatSetValuesBlockedLocal(Mat,int,int*,int,int*,Scalar*,InsertMode); 16090f02eecSBarry Smith 1617b80b807SBarry Smith /* Routines unique to particular data structures */ 1627b80b807SBarry Smith extern int MatBDiagGetData(Mat,int*,int*,int**,int**,Scalar***); 1637b80b807SBarry Smith 1647b80b807SBarry Smith /* 1657b80b807SBarry Smith These routines are not usually accessed directly, rather solving is 1667b80b807SBarry Smith done through the SLES, KSP and PC interfaces. 1677b80b807SBarry Smith */ 1687b80b807SBarry Smith 16984cb2905SBarry Smith typedef enum {ORDER_NATURAL=0,ORDER_ND=1,ORDER_1WD=2,ORDER_RCM=3, 170*ca161407SBarry Smith ORDER_QMD=4,ORDER_ROWLENGTH=5,ORDER_FLOW,ORDER_NEW} MatReorderingType; 171*ca161407SBarry Smith extern int MatGetReordering(Mat,MatReorderingType,IS*,IS*); 172*ca161407SBarry Smith extern int MatGetReorderingTypeFromOptions(char *,MatReorderingType*); 173*ca161407SBarry Smith extern int MatReorderingRegister(MatReorderingType,MatReorderingType*,char*, 174*ca161407SBarry Smith int(*)(Mat,MatReorderingType,IS*,IS*)); 175*ca161407SBarry Smith extern int MatReorderingGetName(MatReorderingType,char **); 17684cb2905SBarry Smith extern int MatReorderingRegisterDestroy(); 17784cb2905SBarry Smith extern int MatReorderingRegisterAll(); 17884cb2905SBarry Smith extern int MatReorderingRegisterAllCalled; 179d4fbbf0eSBarry Smith 180a2ce50c7SBarry Smith extern int MatReorderForNonzeroDiagonal(Mat,double,IS,IS); 181a2ce50c7SBarry Smith 182a2ce50c7SBarry Smith extern int MatCholeskyFactor(Mat,IS,double); 183a2ce50c7SBarry Smith extern int MatCholeskyFactorSymbolic(Mat,IS,double,Mat*); 184a2ce50c7SBarry Smith extern int MatCholeskyFactorNumeric(Mat,Mat*); 185a2ce50c7SBarry Smith 18649d8b64dSBarry Smith extern int MatLUFactor(Mat,IS,IS,double); 187d7b056bfSBarry Smith extern int MatILUFactor(Mat,IS,IS,double,int); 18864051cb3SBarry Smith extern int MatLUFactorSymbolic(Mat,IS,IS,double,Mat*); 18964051cb3SBarry Smith extern int MatILUFactorSymbolic(Mat,IS,IS,double,int,Mat*); 19064051cb3SBarry Smith extern int MatIncompleteCholeskyFactorSymbolic(Mat,IS,double,int,Mat*); 19120563c6bSBarry Smith extern int MatLUFactorNumeric(Mat,Mat*); 192a2ce50c7SBarry Smith extern int MatILUDTFactor(Mat,double,int,IS,IS,Mat *); 193a2ce50c7SBarry Smith 1948ed539a5SBarry Smith extern int MatSolve(Mat,Vec,Vec); 19522169318SLois Curfman McInnes extern int MatForwardSolve(Mat,Vec,Vec); 19622169318SLois Curfman McInnes extern int MatBackwardSolve(Mat,Vec,Vec); 1978ed539a5SBarry Smith extern int MatSolveAdd(Mat,Vec,Vec,Vec); 19828988994SBarry Smith extern int MatSolveTrans(Mat,Vec,Vec); 19928988994SBarry Smith extern int MatSolveTransAdd(Mat,Vec,Vec,Vec); 2008ed539a5SBarry Smith 201bb5a7306SBarry Smith extern int MatSetUnfactored(Mat); 202bb5a7306SBarry Smith 203ee50ffe9SBarry Smith typedef enum {SOR_FORWARD_SWEEP=1,SOR_BACKWARD_SWEEP=2,SOR_SYMMETRIC_SWEEP=3, 204ee50ffe9SBarry Smith SOR_LOCAL_FORWARD_SWEEP=4,SOR_LOCAL_BACKWARD_SWEEP=8, 205ee50ffe9SBarry Smith SOR_LOCAL_SYMMETRIC_SWEEP=12,SOR_ZERO_INITIAL_GUESS=16, 20684cb2905SBarry Smith SOR_EISENSTAT=32,SOR_APPLY_UPPER=64,SOR_APPLY_LOWER=128} MatSORType; 207ca9b4cbeSLois Curfman McInnes extern int MatRelax(Mat,Vec,double,MatSORType,double,int,Vec); 2088ed539a5SBarry Smith 209005c665bSBarry Smith typedef enum {SAME_NONZERO_PATTERN,DIFFERENT_NONZERO_PATTERN,SAME_PRECONDITIONER} MatStructure; 210005c665bSBarry Smith 211d4fbbf0eSBarry Smith /* 212639f9d9dSBarry Smith These routines are for efficiently computing Jacobians via finite differences. 213639f9d9dSBarry Smith */ 214639f9d9dSBarry Smith typedef enum {COLORING_NATURAL, COLORING_SL, COLORING_LF, COLORING_ID, 21584cb2905SBarry Smith COLORING_NEW} MatColoring; 216639f9d9dSBarry Smith extern int MatGetColoring(Mat,MatColoring,ISColoring*); 217639f9d9dSBarry Smith extern int MatGetColoringTypeFromOptions(char *,MatColoring*); 21884cb2905SBarry Smith extern int MatColoringRegister(MatColoring,MatColoring*,char*,int(*)(Mat,MatColoring,ISColoring *)); 219639f9d9dSBarry Smith extern int MatColoringRegisterAll(); 22084cb2905SBarry Smith extern int MatColoringRegisterAllCalled; 221639f9d9dSBarry Smith extern int MatColoringRegisterDestroy(); 222639f9d9dSBarry Smith extern int MatColoringPatch(Mat,int,int *,ISColoring*); 223639f9d9dSBarry Smith 22484cb2905SBarry Smith /* 22584cb2905SBarry Smith Data structures used to compute Jacobian vector products 22684cb2905SBarry Smith efficiently using finite differences. 22784cb2905SBarry Smith */ 228639f9d9dSBarry Smith #define MAT_FDCOLORING_COOKIE PETSC_COOKIE + 22 229639f9d9dSBarry Smith 230e2a1c21fSSatish Balay typedef struct _p_MatFDColoring *MatFDColoring; 231639f9d9dSBarry Smith 232639f9d9dSBarry Smith extern int MatFDColoringCreate(Mat,ISColoring,MatFDColoring *); 233639f9d9dSBarry Smith extern int MatFDColoringDestroy(MatFDColoring); 234639f9d9dSBarry Smith extern int MatFDColoringView(MatFDColoring,Viewer); 2356eb013d7SBarry Smith extern int MatFDColoringSetFunction(MatFDColoring,int (*)(void),void*); 236639f9d9dSBarry Smith extern int MatFDColoringSetParameters(MatFDColoring,double,double); 237005c665bSBarry Smith extern int MatFDColoringSetFrequency(MatFDColoring,int); 2388bba8e72SBarry Smith extern int MatFDColoringGetFrequency(MatFDColoring,int*); 239639f9d9dSBarry Smith extern int MatFDColoringSetFromOptions(MatFDColoring); 240639f9d9dSBarry Smith extern int MatFDColoringPrintHelp(MatFDColoring); 241005c665bSBarry Smith extern int MatFDColoringApply(Mat,MatFDColoring,Vec,MatStructure*,void *); 2426eb013d7SBarry Smith extern int MatFDColoringApplyTS(Mat,MatFDColoring,double,Vec,MatStructure*,void *); 243639f9d9dSBarry Smith 244639f9d9dSBarry Smith /* 2450752156aSBarry Smith These routines are for partitioning matrices: currently used only 2460752156aSBarry Smith for adjacency matrix, MatCreateSeqAdj() or MatCreateMPIAdj(). 2470752156aSBarry Smith */ 248*ca161407SBarry Smith #define PARTITIONING_COOKIE PETSC_COOKIE + 25 249*ca161407SBarry Smith 250*ca161407SBarry Smith typedef struct _p_Partitioning *Partitioning; 251*ca161407SBarry Smith 252*ca161407SBarry Smith typedef enum {PARTITIONING_CURRENT,PARTITIONING_PARMETIS,PARTITIONING_NEW} PartitioningType; 253*ca161407SBarry Smith 254*ca161407SBarry Smith extern int PartitioningCreate(MPI_Comm,Partitioning*); 255*ca161407SBarry Smith extern int PartitioningSetType(Partitioning,PartitioningType); 256*ca161407SBarry Smith extern int PartitioningSetAdjacency(Partitioning,Mat); 257*ca161407SBarry Smith extern int PartitioningSetVertexWeights(Partitioning,double*); 258*ca161407SBarry Smith extern int PartitioningApply(Partitioning,IS*); 259*ca161407SBarry Smith extern int PartitioningDestroy(Partitioning); 260*ca161407SBarry Smith extern int PartitioningRegister(PartitioningType,PartitioningType *,char*,int(*)(Partitioning)); 261*ca161407SBarry Smith extern int PartitioningRegisterAll(); 262*ca161407SBarry Smith extern int PartitioningRegisterAllCalled; 263*ca161407SBarry Smith extern int PartitioningRegisterDestroy(); 264*ca161407SBarry Smith extern int PartitioningView(Partitioning,Viewer); 265*ca161407SBarry Smith extern int PartitioningSetFromOptions(Partitioning); 266*ca161407SBarry Smith extern int PartitioningPrintHelp(Partitioning); 267*ca161407SBarry Smith extern int PartitioningGetType(Partitioning,PartitioningType*,char**); 268*ca161407SBarry Smith 269*ca161407SBarry Smith extern int PartitioningParmetisSetCoarseSequential(Partitioning); 2700752156aSBarry Smith 2710752156aSBarry Smith /* 272d4fbbf0eSBarry Smith If you add entries here you must also add them to FINCLUDE/mat.h 273d4fbbf0eSBarry Smith */ 2741c1c02c0SLois Curfman McInnes typedef enum { MATOP_SET_VALUES=0, 2751c1c02c0SLois Curfman McInnes MATOP_GET_ROW=1, 2761c1c02c0SLois Curfman McInnes MATOP_RESTORE_ROW=2, 2771c1c02c0SLois Curfman McInnes MATOP_MULT=3, 2781c1c02c0SLois Curfman McInnes MATOP_MULT_ADD=4, 2791c1c02c0SLois Curfman McInnes MATOP_MULT_TRANS=5, 2801c1c02c0SLois Curfman McInnes MATOP_MULT_TRANS_ADD=6, 2811c1c02c0SLois Curfman McInnes MATOP_SOLVE=7, 2821c1c02c0SLois Curfman McInnes MATOP_SOLVE_ADD=8, 2831c1c02c0SLois Curfman McInnes MATOP_SOLVE_TRANS=9, 2841c1c02c0SLois Curfman McInnes MATOP_SOLVE_TRANS_ADD=10, 2851c1c02c0SLois Curfman McInnes MATOP_LUFACTOR=11, 2861c1c02c0SLois Curfman McInnes MATOP_CHOLESKYFACTOR=12, 2871c1c02c0SLois Curfman McInnes MATOP_RELAX=13, 2881c1c02c0SLois Curfman McInnes MATOP_TRANSPOSE=14, 2891c1c02c0SLois Curfman McInnes MATOP_GETINFO=15, 2901c1c02c0SLois Curfman McInnes MATOP_EQUAL=16, 2911c1c02c0SLois Curfman McInnes MATOP_GET_DIAGONAL=17, 2921c1c02c0SLois Curfman McInnes MATOP_DIAGONAL_SCALE=18, 2931c1c02c0SLois Curfman McInnes MATOP_NORM=19, 2941c1c02c0SLois Curfman McInnes MATOP_ASSEMBLY_BEGIN=20, 2951c1c02c0SLois Curfman McInnes MATOP_ASSEMBLY_END=21, 2961c1c02c0SLois Curfman McInnes MATOP_COMPRESS=22, 2971c1c02c0SLois Curfman McInnes MATOP_SET_OPTION=23, 2981c1c02c0SLois Curfman McInnes MATOP_ZERO_ENTRIES=24, 2991c1c02c0SLois Curfman McInnes MATOP_ZERO_ROWS=25, 3001c1c02c0SLois Curfman McInnes MATOP_LUFACTOR_SYMBOLIC=26, 3011c1c02c0SLois Curfman McInnes MATOP_LUFACTOR_NUMERIC=27, 3021c1c02c0SLois Curfman McInnes MATOP_CHOLESKY_FACTOR_SYMBOLIC=28, 3031c1c02c0SLois Curfman McInnes MATOP_CHOLESKY_FACTOR_NUMERIC=29, 3041c1c02c0SLois Curfman McInnes MATOP_GET_SIZE=30, 3051c1c02c0SLois Curfman McInnes MATOP_GET_LOCAL_SIZE=31, 3061c1c02c0SLois Curfman McInnes MATOP_GET_OWNERSHIP_RANGE=32, 3071c1c02c0SLois Curfman McInnes MATOP_ILUFACTOR_SYMBOLIC=33, 3081c1c02c0SLois Curfman McInnes MATOP_INCOMPLETECHOLESKYFACTOR_SYMBOLIC=34, 3091c1c02c0SLois Curfman McInnes MATOP_GET_ARRAY=35, 3101c1c02c0SLois Curfman McInnes MATOP_RESTORE_ARRAY=36, 3117bf97ca4SSatish Balay 312005c665bSBarry Smith MATOP_CONVERT_SAME_TYPE=37, 313005c665bSBarry Smith MATOP_FORWARD_SOLVE=38, 314005c665bSBarry Smith MATOP_BACKWARD_SOLVE=39, 315005c665bSBarry Smith MATOP_ILUFACTOR=40, 316005c665bSBarry Smith MATOP_INCOMPLETECHOLESKYFACTOR=41, 317005c665bSBarry Smith MATOP_AXPY=42, 318005c665bSBarry Smith MATOP_GET_SUBMATRICES=43, 319005c665bSBarry Smith MATOP_INCREASE_OVERLAP=44, 320005c665bSBarry Smith MATOP_GET_VALUES=45, 321005c665bSBarry Smith MATOP_COPY=46, 322005c665bSBarry Smith MATOP_PRINT_HELP=47, 323005c665bSBarry Smith MATOP_SCALE=48, 324005c665bSBarry Smith MATOP_SHIFT=49, 325005c665bSBarry Smith MATOP_DIAGONAL_SHIFT=50, 326005c665bSBarry Smith MATOP_ILUDT_FACTOR=51, 327005c665bSBarry Smith MATOP_GET_BLOCK_SIZE=52, 328005c665bSBarry Smith MATOP_GET_ROW_IJ=53, 329005c665bSBarry Smith MATOP_RESTORE_ROW_IJ=54, 330005c665bSBarry Smith MATOP_GET_COLUMN_IJ=55, 331005c665bSBarry Smith MATOP_RESTORE_COLUMN_IJ=56, 332005c665bSBarry Smith MATOP_FDCOLORING_CREATE=57, 333005c665bSBarry Smith MATOP_COLORING_PATCH=58, 334005c665bSBarry Smith MATOP_SET_UNFACTORED=59, 335005c665bSBarry Smith MATOP_PERMUTE=60, 336005c665bSBarry Smith MATOP_SET_VALUES_BLOCKED=61, 3371c1c02c0SLois Curfman McInnes MATOP_DESTROY=250, 3381c1c02c0SLois Curfman McInnes MATOP_VIEW=251 339fae171e0SBarry Smith } MatOperation; 340112a2221SBarry Smith extern int MatHasOperation(Mat,MatOperation,PetscTruth*); 341fae171e0SBarry Smith extern int MatShellSetOperation(Mat,MatOperation,void *); 342d4bb536fSBarry Smith extern int MatShellGetOperation(Mat,MatOperation,void **); 343112a2221SBarry Smith 34490ace30eSBarry Smith /* 34590ace30eSBarry Smith Codes for matrices stored on disk. By default they are 34690ace30eSBarry Smith stored in a universal format. By changing the format with 347639f9d9dSBarry Smith ViewerSetFormat(viewer,VIEWER_FORMAT_BINARY_NATIVE); the matrices will 34890ace30eSBarry Smith be stored in a way natural for the matrix, for example dense matrices 34990ace30eSBarry Smith would be stored as dense. Matrices stored this way may only be 35090ace30eSBarry Smith read into matrices of the same time. 35190ace30eSBarry Smith */ 35290ace30eSBarry Smith #define MATRIX_BINARY_FORMAT_DENSE -1 35390ace30eSBarry Smith 3543f1d51d7SBarry Smith /* 3553f1d51d7SBarry Smith New matrix classes not yet distributed 3563f1d51d7SBarry Smith */ 3573f1d51d7SBarry Smith /* 3583f1d51d7SBarry Smith MatAIJIndices is a data structure for storing the nonzero location information 3593f1d51d7SBarry Smith for sparse matrices. Several matrices with identical nonzero structure can share 3603f1d51d7SBarry Smith the same MatAIJIndices. 3613f1d51d7SBarry Smith */ 362e2a1c21fSSatish Balay typedef struct _p_MatAIJIndices* MatAIJIndices; 3633f1d51d7SBarry Smith 3643f1d51d7SBarry Smith extern int MatCreateAIJIndices(int,int,int*,int*,PetscTruth,MatAIJIndices*); 3653f1d51d7SBarry Smith extern int MatCreateAIJIndicesEmpty(int,int,int*,PetscTruth,MatAIJIndices*); 3663f1d51d7SBarry Smith extern int MatAttachAIJIndices(MatAIJIndices,MatAIJIndices*); 3673f1d51d7SBarry Smith extern int MatDestroyAIJIndices(MatAIJIndices); 3683f1d51d7SBarry Smith extern int MatCopyAIJIndices(MatAIJIndices,MatAIJIndices*); 3693f1d51d7SBarry Smith extern int MatValidateAIJIndices(int,MatAIJIndices); 3703f1d51d7SBarry Smith extern int MatShiftAIJIndices(MatAIJIndices); 3713f1d51d7SBarry Smith extern int MatShrinkAIJIndices(MatAIJIndices); 3723f1d51d7SBarry Smith extern int MatTransposeAIJIndices(MatAIJIndices, MatAIJIndices*); 3733f1d51d7SBarry Smith 3743f1d51d7SBarry Smith extern int MatCreateSeqCSN(MPI_Comm,int,int,int*,int,Mat*); 3753f1d51d7SBarry Smith extern int MatCreateSeqCSN_Single(MPI_Comm,int,int,int*,int,Mat*); 3763f1d51d7SBarry Smith extern int MatCreateSeqCSNWithPrecision(MPI_Comm,int,int,int*,int,ScalarPrecision,Mat*); 3773f1d51d7SBarry Smith 3783f1d51d7SBarry Smith extern int MatCreateSeqCSNIndices(MPI_Comm,MatAIJIndices,int,Mat *); 3793f1d51d7SBarry Smith extern int MatCreateSeqCSNIndices_Single(MPI_Comm,MatAIJIndices,int,Mat *); 3803f1d51d7SBarry Smith extern int MatCreateSeqCSNIndicesWithPrecision(MPI_Comm,MatAIJIndices,int,ScalarPrecision,Mat *); 3813f1d51d7SBarry Smith 3823f1d51d7SBarry Smith 3832eac72dbSBarry Smith #endif 3842eac72dbSBarry Smith 3852eac72dbSBarry Smith 3869d00d63dSBarry Smith 387