#include <../src/mat/impls/baij/seq/baij.h> #include /* Special case where the matrix was ILU(0) factored in the natural ordering. This eliminates the need for the column and row permutation. */ PetscErrorCode MatSolve_SeqBAIJ_4_NaturalOrdering_inplace(Mat A, Vec bb, Vec xx) { Mat_SeqBAIJ *a = (Mat_SeqBAIJ *)A->data; PetscInt n = a->mbs; const PetscInt *ai = a->i, *aj = a->j; const PetscInt *diag = a->diag; const MatScalar *aa = a->a; PetscScalar *x; const PetscScalar *b; PetscFunctionBegin; PetscCall(VecGetArrayRead(bb, &b)); PetscCall(VecGetArray(xx, &x)); #if defined(PETSC_USE_FORTRAN_KERNEL_SOLVEBAIJ) { static PetscScalar w[2000]; /* very BAD need to fix */ fortransolvebaij4_(&n, x, ai, aj, diag, aa, b, w); } #elif defined(PETSC_USE_FORTRAN_KERNEL_SOLVEBAIJUNROLL) fortransolvebaij4unroll_(&n, x, ai, aj, diag, aa, b); #else { PetscScalar s1, s2, s3, s4, x1, x2, x3, x4; const MatScalar *v; PetscInt jdx, idt, idx, nz, i, ai16; const PetscInt *vi; /* forward solve the lower triangular */ idx = 0; x[0] = b[0]; x[1] = b[1]; x[2] = b[2]; x[3] = b[3]; for (i = 1; i < n; i++) { v = aa + 16 * ai[i]; vi = aj + ai[i]; nz = diag[i] - ai[i]; idx += 4; s1 = b[idx]; s2 = b[1 + idx]; s3 = b[2 + idx]; s4 = b[3 + idx]; while (nz--) { jdx = 4 * (*vi++); x1 = x[jdx]; x2 = x[1 + jdx]; x3 = x[2 + jdx]; x4 = x[3 + jdx]; s1 -= v[0] * x1 + v[4] * x2 + v[8] * x3 + v[12] * x4; s2 -= v[1] * x1 + v[5] * x2 + v[9] * x3 + v[13] * x4; s3 -= v[2] * x1 + v[6] * x2 + v[10] * x3 + v[14] * x4; s4 -= v[3] * x1 + v[7] * x2 + v[11] * x3 + v[15] * x4; v += 16; } x[idx] = s1; x[1 + idx] = s2; x[2 + idx] = s3; x[3 + idx] = s4; } /* backward solve the upper triangular */ idt = 4 * (n - 1); for (i = n - 1; i >= 0; i--) { ai16 = 16 * diag[i]; v = aa + ai16 + 16; vi = aj + diag[i] + 1; nz = ai[i + 1] - diag[i] - 1; s1 = x[idt]; s2 = x[1 + idt]; s3 = x[2 + idt]; s4 = x[3 + idt]; while (nz--) { idx = 4 * (*vi++); x1 = x[idx]; x2 = x[1 + idx]; x3 = x[2 + idx]; x4 = x[3 + idx]; s1 -= v[0] * x1 + v[4] * x2 + v[8] * x3 + v[12] * x4; s2 -= v[1] * x1 + v[5] * x2 + v[9] * x3 + v[13] * x4; s3 -= v[2] * x1 + v[6] * x2 + v[10] * x3 + v[14] * x4; s4 -= v[3] * x1 + v[7] * x2 + v[11] * x3 + v[15] * x4; v += 16; } v = aa + ai16; x[idt] = v[0] * s1 + v[4] * s2 + v[8] * s3 + v[12] * s4; x[1 + idt] = v[1] * s1 + v[5] * s2 + v[9] * s3 + v[13] * s4; x[2 + idt] = v[2] * s1 + v[6] * s2 + v[10] * s3 + v[14] * s4; x[3 + idt] = v[3] * s1 + v[7] * s2 + v[11] * s3 + v[15] * s4; idt -= 4; } } #endif PetscCall(VecRestoreArrayRead(bb, &b)); PetscCall(VecRestoreArray(xx, &x)); PetscCall(PetscLogFlops(2.0 * 16 * (a->nz) - 4.0 * A->cmap->n)); PetscFunctionReturn(PETSC_SUCCESS); } PetscErrorCode MatSolve_SeqBAIJ_4_NaturalOrdering(Mat A, Vec bb, Vec xx) { Mat_SeqBAIJ *a = (Mat_SeqBAIJ *)A->data; const PetscInt n = a->mbs, *vi, *ai = a->i, *aj = a->j, *adiag = a->diag; PetscInt i, k, nz, idx, jdx, idt; const PetscInt bs = A->rmap->bs, bs2 = a->bs2; const MatScalar *aa = a->a, *v; PetscScalar *x; const PetscScalar *b; PetscScalar s1, s2, s3, s4, x1, x2, x3, x4; PetscFunctionBegin; PetscCall(VecGetArrayRead(bb, &b)); PetscCall(VecGetArray(xx, &x)); /* forward solve the lower triangular */ idx = 0; x[0] = b[idx]; x[1] = b[1 + idx]; x[2] = b[2 + idx]; x[3] = b[3 + idx]; for (i = 1; i < n; i++) { v = aa + bs2 * ai[i]; vi = aj + ai[i]; nz = ai[i + 1] - ai[i]; idx = bs * i; s1 = b[idx]; s2 = b[1 + idx]; s3 = b[2 + idx]; s4 = b[3 + idx]; for (k = 0; k < nz; k++) { jdx = bs * vi[k]; x1 = x[jdx]; x2 = x[1 + jdx]; x3 = x[2 + jdx]; x4 = x[3 + jdx]; s1 -= v[0] * x1 + v[4] * x2 + v[8] * x3 + v[12] * x4; s2 -= v[1] * x1 + v[5] * x2 + v[9] * x3 + v[13] * x4; s3 -= v[2] * x1 + v[6] * x2 + v[10] * x3 + v[14] * x4; s4 -= v[3] * x1 + v[7] * x2 + v[11] * x3 + v[15] * x4; v += bs2; } x[idx] = s1; x[1 + idx] = s2; x[2 + idx] = s3; x[3 + idx] = s4; } /* backward solve the upper triangular */ for (i = n - 1; i >= 0; i--) { v = aa + bs2 * (adiag[i + 1] + 1); vi = aj + adiag[i + 1] + 1; nz = adiag[i] - adiag[i + 1] - 1; idt = bs * i; s1 = x[idt]; s2 = x[1 + idt]; s3 = x[2 + idt]; s4 = x[3 + idt]; for (k = 0; k < nz; k++) { idx = bs * vi[k]; x1 = x[idx]; x2 = x[1 + idx]; x3 = x[2 + idx]; x4 = x[3 + idx]; s1 -= v[0] * x1 + v[4] * x2 + v[8] * x3 + v[12] * x4; s2 -= v[1] * x1 + v[5] * x2 + v[9] * x3 + v[13] * x4; s3 -= v[2] * x1 + v[6] * x2 + v[10] * x3 + v[14] * x4; s4 -= v[3] * x1 + v[7] * x2 + v[11] * x3 + v[15] * x4; v += bs2; } /* x = inv_diagonal*x */ x[idt] = v[0] * s1 + v[4] * s2 + v[8] * s3 + v[12] * s4; x[1 + idt] = v[1] * s1 + v[5] * s2 + v[9] * s3 + v[13] * s4; x[2 + idt] = v[2] * s1 + v[6] * s2 + v[10] * s3 + v[14] * s4; x[3 + idt] = v[3] * s1 + v[7] * s2 + v[11] * s3 + v[15] * s4; } PetscCall(VecRestoreArrayRead(bb, &b)); PetscCall(VecRestoreArray(xx, &x)); PetscCall(PetscLogFlops(2.0 * bs2 * (a->nz) - bs * A->cmap->n)); PetscFunctionReturn(PETSC_SUCCESS); }