#include <../src/mat/impls/baij/mpi/mpibaij.h> PetscErrorCode MatGetMultiProcBlock_MPIBAIJ(Mat mat, MPI_Comm subComm, MatReuse scall, Mat *subMat) { Mat_MPIBAIJ *aij = (Mat_MPIBAIJ *)mat->data; Mat_SeqBAIJ *aijB = (Mat_SeqBAIJ *)aij->B->data; PetscMPIInt commRank, subCommSize, subCommRank; PetscMPIInt *commRankMap, subRank, rank, commsize; PetscInt *garrayCMap, col, i, j, *nnz, newRow, newCol, *newbRow, *newbCol, k, k1; PetscInt bs = mat->rmap->bs; PetscScalar *vals, *aijBvals; PetscFunctionBegin; PetscCallMPI(MPI_Comm_size(PetscObjectComm((PetscObject)mat), &commsize)); PetscCallMPI(MPI_Comm_size(subComm, &subCommSize)); /* create subMat object with the relevant layout */ if (scall == MAT_INITIAL_MATRIX) { PetscCall(MatCreate(subComm, subMat)); PetscCall(MatSetType(*subMat, MATMPIBAIJ)); PetscCall(MatSetSizes(*subMat, mat->rmap->n, mat->cmap->n, PETSC_DECIDE, PETSC_DECIDE)); PetscCall(MatSetBlockSizes(*subMat, mat->rmap->bs, mat->cmap->bs)); /* need to setup rmap and cmap before Preallocation */ PetscCall(PetscLayoutSetBlockSize((*subMat)->rmap, mat->rmap->bs)); PetscCall(PetscLayoutSetBlockSize((*subMat)->cmap, mat->cmap->bs)); PetscCall(PetscLayoutSetUp((*subMat)->rmap)); PetscCall(PetscLayoutSetUp((*subMat)->cmap)); } /* create a map of comm_rank from subComm to comm - should commRankMap and garrayCMap be kept for reused? */ PetscCallMPI(MPI_Comm_rank(PetscObjectComm((PetscObject)mat), &commRank)); PetscCallMPI(MPI_Comm_rank(subComm, &subCommRank)); PetscCall(PetscMalloc1(subCommSize, &commRankMap)); PetscCallMPI(MPI_Allgather(&commRank, 1, MPI_INT, commRankMap, 1, MPI_INT, subComm)); /* Traverse garray and identify blocked column indices [of offdiag mat] that should be discarded. For the ones not discarded, store the newCol+1 value in garrayCMap */ PetscCall(PetscCalloc1(aij->B->cmap->n / bs, &garrayCMap)); for (i = 0; i < aij->B->cmap->n / bs; i++) { col = aij->garray[i]; /* blocked column index */ for (subRank = 0; subRank < subCommSize; subRank++) { rank = commRankMap[subRank]; if ((col >= mat->cmap->range[rank] / bs) && (col < mat->cmap->range[rank + 1] / bs)) { garrayCMap[i] = (((*subMat)->cmap->range[subRank] - mat->cmap->range[rank]) / bs + col + 1); break; } } } if (scall == MAT_INITIAL_MATRIX) { /* Now compute preallocation for the offdiag mat */ PetscCall(PetscCalloc1(aij->B->rmap->n / bs, &nnz)); for (i = 0; i < aij->B->rmap->n / bs; i++) { for (j = aijB->i[i]; j < aijB->i[i + 1]; j++) { if (garrayCMap[aijB->j[j]]) nnz[i]++; } } PetscCall(MatMPIBAIJSetPreallocation(*(subMat), bs, 0, NULL, 0, nnz)); /* reuse diag block with the new submat */ PetscCall(MatDestroy(&((Mat_MPIBAIJ *)((*subMat)->data))->A)); ((Mat_MPIBAIJ *)((*subMat)->data))->A = aij->A; PetscCall(PetscObjectReference((PetscObject)aij->A)); } else if (((Mat_MPIBAIJ *)(*subMat)->data)->A != aij->A) { PetscObject obj = (PetscObject)((Mat_MPIBAIJ *)((*subMat)->data))->A; PetscCall(PetscObjectReference(obj)); ((Mat_MPIBAIJ *)((*subMat)->data))->A = aij->A; PetscCall(PetscObjectReference((PetscObject)aij->A)); } /* Now traverse aij->B and insert values into subMat */ /* Does not need PetscShmgetAllocateArray() since temporary */ PetscCall(PetscMalloc3(bs, &newbRow, bs, &newbCol, bs * bs, &vals)); for (i = 0; i < aij->B->rmap->n / bs; i++) { newRow = (*subMat)->rmap->range[subCommRank] + i * bs; for (j = aijB->i[i]; j < aijB->i[i + 1]; j++) { newCol = garrayCMap[aijB->j[j]]; if (newCol) { newCol--; /* remove the increment */ newCol *= bs; for (k = 0; k < bs; k++) { newbRow[k] = newRow + k; newbCol[k] = newCol + k; } /* copy column-oriented aijB->a into row-oriented vals */ aijBvals = aijB->a + j * bs * bs; for (k1 = 0; k1 < bs; k1++) { for (k = 0; k < bs; k++) vals[k1 + k * bs] = *aijBvals++; } PetscCall(MatSetValues(*subMat, bs, newbRow, bs, newbCol, vals, INSERT_VALUES)); } } } PetscCall(MatAssemblyBegin(*subMat, MAT_FINAL_ASSEMBLY)); PetscCall(MatAssemblyEnd(*subMat, MAT_FINAL_ASSEMBLY)); /* deallocate temporary data */ PetscCall(PetscFree3(newbRow, newbCol, vals)); PetscCall(PetscFree(commRankMap)); PetscCall(PetscFree(garrayCMap)); if (scall == MAT_INITIAL_MATRIX) PetscCall(PetscFree(nnz)); PetscFunctionReturn(PETSC_SUCCESS); }