//------------------------------------------------------------------------------ // GxB_Matrix_unpack_HyperCSC: unpack a matrix in hypersparse CSC format //------------------------------------------------------------------------------ // SuiteSparse:GraphBLAS, Timothy A. Davis, (c) 2017-2023, All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 //------------------------------------------------------------------------------ #include "GB_export.h" #define GB_FREE_ALL ; GrB_Info GxB_Matrix_unpack_HyperCSC // unpack a hypersparse CSC matrix ( GrB_Matrix A, // matrix to unpack (type, nrows, ncols unchanged) GrB_Index **Ap, // column "pointers" GrB_Index **Ah, // column indices GrB_Index **Ai, // row indices void **Ax, // values GrB_Index *Ap_size, // size of Ap in bytes GrB_Index *Ah_size, // size of Ah in bytes GrB_Index *Ai_size, // size of Ai in bytes GrB_Index *Ax_size, // size of Ax in bytes bool *iso, // if true, A is iso GrB_Index *nvec, // number of columns that appear in Ah bool *jumbled, // if true, indices in each column may be unsorted const GrB_Descriptor desc ) { //-------------------------------------------------------------------------- // check inputs and get the descriptor //-------------------------------------------------------------------------- GB_WHERE1 ("GxB_Matrix_unpack_HyperCSC (A, " "&Ap, &Ah, &Ai, &Ax, &Ap_size, &Ah_size, &Ai_size, &Ax_size, " "&iso, &nvec, &jumbled, desc)") ; GB_BURBLE_START ("GxB_Matrix_unpack_HyperCSC") ; GB_RETURN_IF_NULL_OR_FAULTY (A) ; GB_GET_DESCRIPTOR (info, desc, xx1, xx2, xx3, xx4, xx5, xx6, xx7) ; //-------------------------------------------------------------------------- // ensure the matrix is in by-col format //-------------------------------------------------------------------------- if (!(A->is_csc)) { // A = A', done in-place, to put A in by-col format GBURBLE ("(transpose) ") ; GB_OK (GB_transpose_in_place (A, true, Werk)) ; } //-------------------------------------------------------------------------- // finish any pending work //-------------------------------------------------------------------------- if (jumbled == NULL) { // the unpacked matrix cannot be jumbled GB_MATRIX_WAIT (A) ; } else { // the unpacked matrix is allowed to be jumbled GB_MATRIX_WAIT_IF_PENDING_OR_ZOMBIES (A) ; } //-------------------------------------------------------------------------- // ensure the matrix is hypersparse //-------------------------------------------------------------------------- GB_OK (GB_convert_any_to_hyper (A, Werk)) ; //-------------------------------------------------------------------------- // unpack the matrix //-------------------------------------------------------------------------- ASSERT (GB_IS_HYPERSPARSE (A)) ; ASSERT (A->is_csc) ; ASSERT (!GB_ZOMBIES (A)) ; ASSERT (GB_IMPLIES (jumbled == NULL, !GB_JUMBLED (A))) ; ASSERT (!GB_PENDING (A)) ; int sparsity ; bool is_csc ; GrB_Type type ; GrB_Index vlen, vdim ; info = GB_export (true, &A, &type, &vlen, &vdim, false, Ap, Ap_size, // Ap Ah, Ah_size, // Ah NULL, NULL, // Ab Ai, Ai_size, // Ai Ax, Ax_size, // Ax NULL, jumbled, nvec, // jumbled or not &sparsity, &is_csc, // hypersparse by col iso, Werk) ; if (info == GrB_SUCCESS) { ASSERT (sparsity == GxB_HYPERSPARSE) ; ASSERT (is_csc) ; } GB_BURBLE_END ; return (info) ; }