C++ (Cpp) get_metis Examples

Example #1

File: get_perm_c.c Project: yasharca/SuperLU

/*! \brief
 *
 * <pre>
 * Purpose
 * =======
 *
 * GET_PERM_C_DIST obtains a permutation matrix Pc, by applying the multiple
 * minimum degree ordering code by Joseph Liu to matrix A'*A or A+A',
 * or using approximate minimum degree column ordering by Davis et. al.
 * The LU factorization of A*Pc tends to have less fill than the LU 
 * factorization of A.
 *
 * Arguments
 * =========
 *
 * ispec   (input) colperm_t
 *         Specifies what type of column permutation to use to reduce fill.
 *         = NATURAL: natural ordering (i.e., Pc = I)
 *         = MMD_AT_PLUS_A: minimum degree ordering on structure of A'+A
 *         = MMD_ATA: minimum degree ordering on structure of A'*A
 *         = METIS_AT_PLUS_A: MeTis on A'+A
 * 
 * A       (input) SuperMatrix*
 *         Matrix A in A*X=B, of dimension (A->nrow, A->ncol). The number
 *         of the linear equations is A->nrow. Currently, the type of A 
 *         can be: Stype = SLU_NC; Dtype = SLU_D; Mtype = SLU_GE.
 *         In the future, more general A can be handled.
 *
 * perm_c  (output) int*
 *	   Column permutation vector of size A->ncol, which defines the 
 *         permutation matrix Pc; perm_c[i] = j means column i of A is 
 *         in position j in A*Pc.
 * </pre>
 */
void
get_perm_c_dist(int_t pnum, int_t ispec, SuperMatrix *A, int_t *perm_c)

{
    NCformat *Astore = A->Store;
    int_t m, n, bnz = 0, *b_colptr, *b_rowind, i;
    int_t delta, maxint, nofsub, *invp;
    int_t *dhead, *qsize, *llist, *marker;
    double t, SuperLU_timer_();

#if ( DEBUGlevel>=1 )
    CHECK_MALLOC(pnum, "Enter get_perm_c_dist()");
#endif

    m = A->nrow;
    n = A->ncol;

    t = SuperLU_timer_();

    switch ( ispec ) {

        case NATURAL: /* Natural ordering */
	      for (i = 0; i < n; ++i) perm_c[i] = i;
#if ( PRNTlevel>=1 )
	      if ( !pnum ) printf(".. Use natural column ordering\n");
#endif
	      return;

        case MMD_AT_PLUS_A: /* Minimum degree ordering on A'+A */
	      if ( m != n ) ABORT("Matrix is not square");
	      at_plus_a_dist(n, Astore->nnz, Astore->colptr, Astore->rowind,
			     &bnz, &b_colptr, &b_rowind);
	      t = SuperLU_timer_() - t;
	      /*printf("Form A'+A time = %8.3f\n", t);*/
#if ( PRNTlevel>=1 )
	      if ( !pnum ) printf(".. Use minimum degree ordering on A'+A.\n");
#endif
	      break;

        case MMD_ATA: /* Minimum degree ordering on A'*A */
	      getata_dist(m, n, Astore->nnz, Astore->colptr, Astore->rowind,
			  &bnz, &b_colptr, &b_rowind);
	      t = SuperLU_timer_() - t;
	      /*printf("Form A'*A time = %8.3f\n", t);*/
#if ( PRNTlevel>=1 )
	      if ( !pnum ) printf(".. Use minimum degree ordering on A'*A\n");
#endif
	      break;

        case METIS_AT_PLUS_A: /* METIS ordering on A'+A */
	      if ( m != n ) ABORT("Matrix is not square");
	      at_plus_a_dist(n, Astore->nnz, Astore->colptr, Astore->rowind,
			     &bnz, &b_colptr, &b_rowind);

	      if ( bnz ) { /* non-empty adjacency structure */
		  get_metis(n, bnz, b_colptr, b_rowind, perm_c);
	      } else { /* e.g., diagonal matrix */
		  for (i = 0; i < n; ++i) perm_c[i] = i;
		  SUPERLU_FREE(b_colptr);
		  /* b_rowind is not allocated in this case */
	      }

#if ( PRNTlevel>=1 )
	      if ( !pnum ) printf(".. Use METIS ordering on A'+A\n");
#endif
	      return;

        default:
	      ABORT("Invalid ISPEC");
    }

    if ( bnz ) {
	t = SuperLU_timer_();

	/* Initialize and allocate storage for GENMMD. */
	delta = 0; /* DELTA is a parameter to allow the choice of nodes
		      whose degree <= min-degree + DELTA. */
	maxint = 2147483647; /* 2**31 - 1 */
	invp = (int_t *) SUPERLU_MALLOC((n+delta)*sizeof(int_t));
	if ( !invp ) ABORT("SUPERLU_MALLOC fails for invp.");
	dhead = (int_t *) SUPERLU_MALLOC((n+delta)*sizeof(int_t));
	if ( !dhead ) ABORT("SUPERLU_MALLOC fails for dhead.");
	qsize = (int_t *) SUPERLU_MALLOC((n+delta)*sizeof(int_t));
	if ( !qsize ) ABORT("SUPERLU_MALLOC fails for qsize.");
	llist = (int_t *) SUPERLU_MALLOC(n*sizeof(int_t));
	if ( !llist ) ABORT("SUPERLU_MALLOC fails for llist.");
	marker = (int_t *) SUPERLU_MALLOC(n*sizeof(int_t));
	if ( !marker ) ABORT("SUPERLU_MALLOC fails for marker.");
	
	/* Transform adjacency list into 1-based indexing required by GENMMD.*/
	for (i = 0; i <= n; ++i) ++b_colptr[i];
	for (i = 0; i < bnz; ++i) ++b_rowind[i];
	
	genmmd_dist_(&n, b_colptr, b_rowind, perm_c, invp, &delta, dhead, 
		     qsize, llist, marker, &maxint, &nofsub);

	/* Transform perm_c into 0-based indexing. */
	for (i = 0; i < n; ++i) --perm_c[i];

	SUPERLU_FREE(invp);
	SUPERLU_FREE(dhead);
	SUPERLU_FREE(qsize);
	SUPERLU_FREE(llist);
	SUPERLU_FREE(marker);
	SUPERLU_FREE(b_rowind);

	t = SuperLU_timer_() - t;
	/*    printf("call GENMMD time = %8.3f\n", t);*/

    } else { /* Empty adjacency structure */
	for (i = 0; i < n; ++i) perm_c[i] = i;
    }

    SUPERLU_FREE(b_colptr);

#if ( DEBUGlevel>=1 )
    CHECK_MALLOC(pnum, "Exit get_perm_c_dist()");
#endif
} /* get_perm_c_dist */

Example #2

File: get_perm_c.c Project: Chang-Liu-0520/hypre

void
get_perm_c_dist(int_t pnum, int_t ispec, SuperMatrix *A, int_t *perm_c)
/*
 * Purpose
 * =======
 *
 * GET_PERM_C_DIST obtains a permutation matrix Pc, by applying the multiple
 * minimum degree ordering code by Joseph Liu to matrix A'*A or A+A',
 * or using approximate minimum degree column ordering by Davis et. al.
 * The LU factorization of A*Pc tends to have less fill than the LU 
 * factorization of A.
 *
 * Arguments
 * =========
 *
 * ispec   (input) colperm_t
 *         Specifies what type of column permutation to use to reduce fill.
 *         = NATURAL: natural ordering (i.e., Pc = I)
 *         = MMD_AT_PLUS_A: minimum degree ordering on structure of A'+A
 *         = MMD_ATA: minimum degree ordering on structure of A'*A
 *         = METIS_AT_PLUS_A: MeTis on A'+A
 * 
 * A       (input) SuperMatrix*
 *         Matrix A in A*X=B, of dimension (A->nrow, A->ncol). The number
 *         of the linear equations is A->nrow. Currently, the type of A 
 *         can be: Stype = SLU_NC; Dtype = SLU_D; Mtype = SLU_GE.
 *         In the future, more general A can be handled.
 *
 * perm_c  (output) int*
 *	   Column permutation vector of size A->ncol, which defines the 
 *         permutation matrix Pc; perm_c[i] = j means column i of A is 
 *         in position j in A*Pc.
 *
 */
{
    NCformat *Astore = A->Store;
    int_t m, n, bnz = 0, *b_colptr, *b_rowind, i;
    int_t delta, maxint, nofsub, *invp;
    int_t *dhead, *qsize, *llist, *marker;
    double t, SuperLU_timer_();

#if ( DEBUGlevel>=1 )
    CHECK_MALLOC(pnum, "Enter get_perm_c_dist()");
#endif

    m = A->nrow;
    n = A->ncol;

    t = SuperLU_timer_();

    switch ( ispec ) {

        case NATURAL: /* Natural ordering */
	      for (i = 0; i < n; ++i) perm_c[i] = i;
#if ( PRNTlevel>=1 )
	      if ( !pnum ) printf(".. Use natural column ordering\n");
#endif
	      return;

        case MMD_AT_PLUS_A: /* Minimum degree ordering on A'+A */
	      if ( m != n ) ABORT("Matrix is not square");
	      at_plus_a_dist(n, Astore->nnz, Astore->colptr, Astore->rowind,
			     &bnz, &b_colptr, &b_rowind);
	      t = SuperLU_timer_() - t;
	      /*printf("Form A'+A time = %8.3f\n", t);*/
#if ( PRNTlevel>=1 )
	      if ( !pnum ) printf(".. Use minimum degree ordering on A'+A.\n");
#endif
	      break;

        case MMD_ATA: /* Minimum degree ordering on A'*A */
	      getata_dist(m, n, Astore->nnz, Astore->colptr, Astore->rowind,
			  &bnz, &b_colptr, &b_rowind);
	      t = SuperLU_timer_() - t;
	      /*printf("Form A'*A time = %8.3f\n", t);*/
#if ( PRNTlevel>=1 )
	      if ( !pnum ) printf(".. Use minimum degree ordering on A'*A\n");
#endif
	      break;

        case METIS_AT_PLUS_A: /* METIS ordering on A'+A */
	      if ( m != n ) ABORT("Matrix is not square");
	      at_plus_a_dist(n, Astore->nnz, Astore->colptr, Astore->rowind,
			     &bnz, &b_colptr, &b_rowind);
	      get_metis(n, bnz, b_colptr, b_rowind, perm_c);
#if ( PRNTlevel>=1 )
	      if ( !pnum ) printf(".. Use METIS ordering on A'+A\n");
#endif
	      return;

        default:
	      ABORT("Invalid ISPEC");
    }

    if ( bnz ) {
	t = SuperLU_timer_();

	/* Initialize and allocate storage for GENMMD. */
	delta = 0; /* DELTA is a parameter to allow the choice of nodes
		      whose degree <= min-degree + DELTA. */
	maxint = 2147483647; /* 2**31 - 1 */
	invp = (int_t *) SUPERLU_MALLOC((n+delta)*sizeof(int_t));
	if ( !invp ) ABORT("SUPERLU_MALLOC fails for invp.");
	dhead = (int_t *) SUPERLU_MALLOC((n+delta)*sizeof(int_t));
	if ( !dhead ) ABORT("SUPERLU_MALLOC fails for dhead.");
	qsize = (int_t *) SUPERLU_MALLOC((n+delta)*sizeof(int_t));
	if ( !qsize ) ABORT("SUPERLU_MALLOC fails for qsize.");
	llist = (int_t *) SUPERLU_MALLOC(n*sizeof(int_t));
	if ( !llist ) ABORT("SUPERLU_MALLOC fails for llist.");
	marker = (int_t *) SUPERLU_MALLOC(n*sizeof(int_t));
	if ( !marker ) ABORT("SUPERLU_MALLOC fails for marker.");
	
	/* Transform adjacency list into 1-based indexing required by GENMMD.*/
	for (i = 0; i <= n; ++i) ++b_colptr[i];
	for (i = 0; i < bnz; ++i) ++b_rowind[i];
	
	genmmd_dist_(&n, b_colptr, b_rowind, perm_c, invp, &delta, dhead, 
		     qsize, llist, marker, &maxint, &nofsub);

	/* Transform perm_c into 0-based indexing. */
	for (i = 0; i < n; ++i) --perm_c[i];

	SUPERLU_FREE(invp);
	SUPERLU_FREE(dhead);
	SUPERLU_FREE(qsize);
	SUPERLU_FREE(llist);
	SUPERLU_FREE(marker);
	SUPERLU_FREE(b_rowind);

	t = SuperLU_timer_() - t;
	/*    printf("call GENMMD time = %8.3f\n", t);*/

    } else { /* Empty adjacency structure */
	for (i = 0; i < n; ++i) perm_c[i] = i;
    }

    SUPERLU_FREE(b_colptr);

#if ( DEBUGlevel>=1 )
    CHECK_MALLOC(pnum, "Exit get_perm_c_dist()");
#endif
} /* get_perm_c_dist */