int hypre_SMGRelaxSetupTempVec( void *relax_vdata, hypre_StructMatrix *A, hypre_StructVector *b, hypre_StructVector *x ) { hypre_SMGRelaxData *relax_data = relax_vdata; hypre_StructVector *temp_vec = (relax_data -> temp_vec); int ierr = 0; /*---------------------------------------------------------- * Set up data *----------------------------------------------------------*/ if ((relax_data -> temp_vec) == NULL) { temp_vec = hypre_StructVectorCreate(hypre_StructVectorComm(b), hypre_StructVectorGrid(b)); hypre_StructVectorSetNumGhost(temp_vec, hypre_StructVectorNumGhost(b)); hypre_StructVectorInitialize(temp_vec); hypre_StructVectorAssemble(temp_vec); (relax_data -> temp_vec) = temp_vec; } (relax_data -> setup_temp_vec) = 0; return ierr; }
void * hypre_StructKrylovCreateVector( void *vvector ) { hypre_StructVector *vector = vvector; hypre_StructVector *new_vector; new_vector = hypre_StructVectorCreate( hypre_StructVectorComm(vector), hypre_StructVectorGrid(vector) ); hypre_StructVectorInitialize(new_vector); hypre_StructVectorAssemble(new_vector); return ( (void *) new_vector ); }
void * hypre_StructKrylovCreateVector( void *vvector ) { hypre_StructVector *vector = vvector; hypre_StructVector *new_vector; HYPRE_Int *num_ghost= hypre_StructVectorNumGhost(vector); new_vector = hypre_StructVectorCreate( hypre_StructVectorComm(vector), hypre_StructVectorGrid(vector) ); hypre_StructVectorSetNumGhost(new_vector, num_ghost); hypre_StructVectorInitialize(new_vector); hypre_StructVectorAssemble(new_vector); return ( (void *) new_vector ); }
int hypre_PointRelaxSetup( void *relax_vdata, hypre_StructMatrix *A, hypre_StructVector *b, hypre_StructVector *x ) { hypre_PointRelaxData *relax_data = (hypre_PointRelaxData *)relax_vdata; int num_pointsets = (relax_data -> num_pointsets); int *pointset_sizes = (relax_data -> pointset_sizes); hypre_Index *pointset_strides = (relax_data -> pointset_strides); hypre_Index **pointset_indices = (relax_data -> pointset_indices); hypre_StructVector *t; int diag_rank; hypre_ComputePkg **compute_pkgs; hypre_Index unit_stride; hypre_Index diag_index; hypre_IndexRef stride; hypre_IndexRef index; hypre_StructGrid *grid; hypre_StructStencil *stencil; hypre_BoxArrayArray *send_boxes; hypre_BoxArrayArray *recv_boxes; int **send_processes; int **recv_processes; hypre_BoxArrayArray *indt_boxes; hypre_BoxArrayArray *dept_boxes; hypre_BoxArrayArray *orig_indt_boxes; hypre_BoxArrayArray *orig_dept_boxes; hypre_BoxArrayArray *box_aa; hypre_BoxArray *box_a; hypre_Box *box; int box_aa_size; int box_a_size; hypre_BoxArrayArray *new_box_aa; hypre_BoxArray *new_box_a; hypre_Box *new_box; double scale; int frac; int i, j, k, p, m, compute_i; int ierr = 0; /*---------------------------------------------------------- * Set up the temp vector *----------------------------------------------------------*/ if ((relax_data -> t) == NULL) { t = hypre_StructVectorCreate(hypre_StructVectorComm(b), hypre_StructVectorGrid(b)); hypre_StructVectorSetNumGhost(t, hypre_StructVectorNumGhost(b)); hypre_StructVectorInitialize(t); hypre_StructVectorAssemble(t); (relax_data -> t) = t; } /*---------------------------------------------------------- * Find the matrix diagonal *----------------------------------------------------------*/ grid = hypre_StructMatrixGrid(A); stencil = hypre_StructMatrixStencil(A); hypre_SetIndex(diag_index, 0, 0, 0); diag_rank = hypre_StructStencilElementRank(stencil, diag_index); /*---------------------------------------------------------- * Set up the compute packages *----------------------------------------------------------*/ hypre_SetIndex(unit_stride, 1, 1, 1); compute_pkgs = hypre_CTAlloc(hypre_ComputePkg *, num_pointsets); for (p = 0; p < num_pointsets; p++) { hypre_CreateComputeInfo(grid, stencil, &send_boxes, &recv_boxes, &send_processes, &recv_processes, &orig_indt_boxes, &orig_dept_boxes); stride = pointset_strides[p]; for (compute_i = 0; compute_i < 2; compute_i++) { switch(compute_i) { case 0: box_aa = orig_indt_boxes; break; case 1: box_aa = orig_dept_boxes; break; } box_aa_size = hypre_BoxArrayArraySize(box_aa); new_box_aa = hypre_BoxArrayArrayCreate(box_aa_size); for (i = 0; i < box_aa_size; i++) { box_a = hypre_BoxArrayArrayBoxArray(box_aa, i); box_a_size = hypre_BoxArraySize(box_a); new_box_a = hypre_BoxArrayArrayBoxArray(new_box_aa, i); hypre_BoxArraySetSize(new_box_a, box_a_size * pointset_sizes[p]); k = 0; for (m = 0; m < pointset_sizes[p]; m++) { index = pointset_indices[p][m]; for (j = 0; j < box_a_size; j++) { box = hypre_BoxArrayBox(box_a, j); new_box = hypre_BoxArrayBox(new_box_a, k); hypre_CopyBox(box, new_box); hypre_ProjectBox(new_box, index, stride); k++; } } } switch(compute_i) { case 0: indt_boxes = new_box_aa; break; case 1: dept_boxes = new_box_aa; break; } } hypre_ComputePkgCreate(send_boxes, recv_boxes, unit_stride, unit_stride, send_processes, recv_processes, indt_boxes, dept_boxes, stride, grid, hypre_StructVectorDataSpace(x), 1, &compute_pkgs[p]); hypre_BoxArrayArrayDestroy(orig_indt_boxes); hypre_BoxArrayArrayDestroy(orig_dept_boxes); } /*---------------------------------------------------------- * Set up the relax data structure *----------------------------------------------------------*/ (relax_data -> A) = hypre_StructMatrixRef(A); (relax_data -> x) = hypre_StructVectorRef(x); (relax_data -> b) = hypre_StructVectorRef(b); (relax_data -> diag_rank) = diag_rank; (relax_data -> compute_pkgs) = compute_pkgs; /*----------------------------------------------------- * Compute flops *-----------------------------------------------------*/ scale = 0.0; for (p = 0; p < num_pointsets; p++) { stride = pointset_strides[p]; frac = hypre_IndexX(stride); frac *= hypre_IndexY(stride); frac *= hypre_IndexZ(stride); scale += (pointset_sizes[p] / frac); } (relax_data -> flops) = scale * (hypre_StructMatrixGlobalSize(A) + hypre_StructVectorGlobalSize(x)); return ierr; }
int HYPRE_StructVectorInitialize( HYPRE_StructVector vector ) { return ( hypre_StructVectorInitialize(vector) ); }