xref: /petsc/src/mat/impls/sbaij/mpi/mpiaijsbaij.c (revision d2522c19e8fa9bca20aaca277941d9a63e71db6a)

#include <../src/mat/impls/sbaij/mpi/mpisbaij.h> /*I "petscmat.h" I*/
#include <../src/mat/impls/aij/mpi/mpiaij.h>
#include <petsc/private/matimpl.h>
#include <petscmat.h>

PETSC_INTERN PetscErrorCode MatConvert_MPIAIJ_MPISBAIJ(Mat A, MatType newtype, MatReuse reuse, Mat *newmat) {
  Mat                M;
  Mat_MPIAIJ        *mpimat = (Mat_MPIAIJ *)A->data;
  Mat_SeqAIJ        *Aa = (Mat_SeqAIJ *)mpimat->A->data, *Ba = (Mat_SeqAIJ *)mpimat->B->data;
  PetscInt          *d_nnz, *o_nnz;
  PetscInt           i, j, nz;
  PetscInt           m, n, lm, ln;
  PetscInt           rstart, rend, bs = PetscAbs(A->rmap->bs);
  const PetscScalar *vwork;
  const PetscInt    *cwork;

  PetscFunctionBegin;
  PetscCheck(A->symmetric == PETSC_BOOL3_TRUE || A->hermitian == PETSC_BOOL3_TRUE, PetscObjectComm((PetscObject)A), PETSC_ERR_USER, "Matrix must be symmetric or Hermitian. Call MatSetOption(mat,MAT_SYMMETRIC,PETSC_TRUE) or MatSetOption(mat,MAT_HERMITIAN,PETSC_TRUE)");
  if (reuse != MAT_REUSE_MATRIX) {
    PetscCall(MatGetSize(A, &m, &n));
    PetscCall(MatGetLocalSize(A, &lm, &ln));
    PetscCall(PetscMalloc2(lm / bs, &d_nnz, lm / bs, &o_nnz));

    PetscCall(MatMarkDiagonal_SeqAIJ(mpimat->A));
    for (i = 0; i < lm / bs; i++) {
      if (Aa->i[i * bs + 1] == Aa->diag[i * bs]) { /* misses diagonal entry */
        d_nnz[i] = (Aa->i[i * bs + 1] - Aa->i[i * bs]) / bs;
      } else {
        d_nnz[i] = (Aa->i[i * bs + 1] - Aa->diag[i * bs]) / bs;
      }
      o_nnz[i] = (Ba->i[i * bs + 1] - Ba->i[i * bs]) / bs;
    }

    PetscCall(MatCreate(PetscObjectComm((PetscObject)A), &M));
    PetscCall(MatSetSizes(M, lm, ln, m, n));
    PetscCall(MatSetType(M, MATMPISBAIJ));
    PetscCall(MatSeqSBAIJSetPreallocation(M, bs, 0, d_nnz));
    PetscCall(MatMPISBAIJSetPreallocation(M, bs, 0, d_nnz, 0, o_nnz));
    PetscCall(PetscFree2(d_nnz, o_nnz));
  } else M = *newmat;

  if (bs == 1) {
    PetscCall(MatGetOwnershipRange(A, &rstart, &rend));
    for (i = rstart; i < rend; i++) {
      PetscCall(MatGetRow(A, i, &nz, &cwork, &vwork));
      if (nz) {
        j = 0;
        while (cwork[j] < i) {
          j++;
          nz--;
        }
        PetscCall(MatSetValues(M, 1, &i, nz, cwork + j, vwork + j, INSERT_VALUES));
      }
      PetscCall(MatRestoreRow(A, i, &nz, &cwork, &vwork));
    }
    PetscCall(MatAssemblyBegin(M, MAT_FINAL_ASSEMBLY));
    PetscCall(MatAssemblyEnd(M, MAT_FINAL_ASSEMBLY));
  } else {
    PetscCall(MatSetOption(M, MAT_IGNORE_LOWER_TRIANGULAR, PETSC_TRUE));
    /* reuse may not be equal to MAT_REUSE_MATRIX, but the basic converter will reallocate or replace newmat if this value is not used */
    /* if reuse is equal to MAT_INITIAL_MATRIX, it has been appropriately preallocated before                                          */
    /*                      MAT_INPLACE_MATRIX, it will be replaced with MatHeaderReplace below                                        */
    PetscCall(MatConvert_Basic(A, newtype, MAT_REUSE_MATRIX, &M));
  }

  if (reuse == MAT_INPLACE_MATRIX) {
    PetscCall(MatHeaderReplace(A, &M));
  } else *newmat = M;
  PetscFunctionReturn(0);
}
/* contributed by Dahai Guo <dhguo@ncsa.uiuc.edu> April 2011 */
PETSC_INTERN PetscErrorCode MatConvert_MPIBAIJ_MPISBAIJ(Mat A, MatType newtype, MatReuse reuse, Mat *newmat) {
  Mat                M;
  Mat_MPIBAIJ       *mpimat = (Mat_MPIBAIJ *)A->data;
  Mat_SeqBAIJ       *Aa = (Mat_SeqBAIJ *)mpimat->A->data, *Ba = (Mat_SeqBAIJ *)mpimat->B->data;
  PetscInt          *d_nnz, *o_nnz;
  PetscInt           i, nz;
  PetscInt           m, n, lm, ln;
  PetscInt           rstart, rend;
  const PetscScalar *vwork;
  const PetscInt    *cwork;
  PetscInt           bs = A->rmap->bs;

  PetscFunctionBegin;
  if (reuse != MAT_REUSE_MATRIX) {
    PetscCall(MatGetSize(A, &m, &n));
    PetscCall(MatGetLocalSize(A, &lm, &ln));
    PetscCall(PetscMalloc2(lm / bs, &d_nnz, lm / bs, &o_nnz));

    PetscCall(MatMarkDiagonal_SeqBAIJ(mpimat->A));
    for (i = 0; i < lm / bs; i++) {
      d_nnz[i] = Aa->i[i + 1] - Aa->diag[i];
      o_nnz[i] = Ba->i[i + 1] - Ba->i[i];
    }

    PetscCall(MatCreate(PetscObjectComm((PetscObject)A), &M));
    PetscCall(MatSetSizes(M, lm, ln, m, n));
    PetscCall(MatSetType(M, MATMPISBAIJ));
    PetscCall(MatSeqSBAIJSetPreallocation(M, bs, 0, d_nnz));
    PetscCall(MatMPISBAIJSetPreallocation(M, bs, 0, d_nnz, 0, o_nnz));

    PetscCall(PetscFree2(d_nnz, o_nnz));
  } else M = *newmat;

  PetscCall(MatGetOwnershipRange(A, &rstart, &rend));
  PetscCall(MatSetOption(M, MAT_IGNORE_LOWER_TRIANGULAR, PETSC_TRUE));
  for (i = rstart; i < rend; i++) {
    PetscCall(MatGetRow(A, i, &nz, &cwork, &vwork));
    PetscCall(MatSetValues(M, 1, &i, nz, cwork, vwork, INSERT_VALUES));
    PetscCall(MatRestoreRow(A, i, &nz, &cwork, &vwork));
  }
  PetscCall(MatAssemblyBegin(M, MAT_FINAL_ASSEMBLY));
  PetscCall(MatAssemblyEnd(M, MAT_FINAL_ASSEMBLY));

  if (reuse == MAT_INPLACE_MATRIX) {
    PetscCall(MatHeaderReplace(A, &M));
  } else *newmat = M;
  PetscFunctionReturn(0);
}