//------------------------------------------------------------------------------ // GB_bitmap_assign_notM_accum_whole: assign to C bitmap //------------------------------------------------------------------------------ // SuiteSparse:GraphBLAS, Timothy A. Davis, (c) 2017-2023, All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 //------------------------------------------------------------------------------ // C += A assign // C += A subassign // C += A assign // C += A subassign //------------------------------------------------------------------------------ // C: bitmap // M: present, hypersparse or sparse (not bitmap or full) // Mask_comp: true // Mask_struct: true or false // C_replace: true or false // accum: present // A: matrix (hyper, sparse, bitmap, or full), or scalar // kind: assign or subassign (same action) // JIT: needed. #include "GB_bitmap_assign_methods.h" #include "GB_assign_shared_definitions.h" #undef GB_FREE_ALL #define GB_FREE_ALL \ { \ GB_WERK_POP (M_ek_slicing, int64_t) ; \ } GrB_Info GB_bitmap_assign_notM_accum_whole ( // input/output: GrB_Matrix C, // input/output matrix in bitmap format // inputs: const bool C_replace, // descriptor for C const GrB_Matrix M, // mask matrix // const bool Mask_comp, // true here, for !M only const bool Mask_struct, // true if M is structural, false if valued const GrB_BinaryOp accum, // present const GrB_Matrix A, // input matrix, not transposed const void *scalar, // input scalar const GrB_Type scalar_type, // type of input scalar GB_Werk Werk ) { //-------------------------------------------------------------------------- // check inputs //-------------------------------------------------------------------------- GBURBLE_BITMAP_ASSIGN ("bit7:whole", M, true, accum, GB_ALL, GB_ALL, GB_ASSIGN) ; ASSERT (GB_IS_HYPERSPARSE (M) || GB_IS_SPARSE (M)) ; ASSERT (GB_JUMBLED_OK (M)) ; ASSERT_MATRIX_OK (C, "C for bitmap assign, !M, accum", GB0) ; ASSERT_MATRIX_OK (M, "M for bitmap assign, !M, accum", GB0) ; ASSERT_MATRIX_OK_OR_NULL (A, "A for bitmap assign, !M, accum", GB0) ; //-------------------------------------------------------------------------- // get inputs //-------------------------------------------------------------------------- GB_GET_C_BITMAP ; // C must be bitmap GB_SLICE_M GB_GET_A_AND_SCALAR GB_GET_ACCUM_FOR_BITMAP //-------------------------------------------------------------------------- // scatter M //-------------------------------------------------------------------------- // Cb [pC] += 2 for each entry M(i,j) in the mask GB_bitmap_M_scatter_whole (C, M, Mask_struct, GB_BITMAP_M_SCATTER_PLUS_2, M_ek_slicing, M_ntasks, M_nthreads) ; // the bitmap of C now contains: // Cb (i,j) = 0: cij not present, mij zero // Cb (i,j) = 1: cij present, mij zero // Cb (i,j) = 2: cij not present, mij 1 // Cb (i,j) = 3: cij present, mij 1 //-------------------------------------------------------------------------- // do the assignment //-------------------------------------------------------------------------- if (A == NULL) { //---------------------------------------------------------------------- // scalar assignment: C += scalar //---------------------------------------------------------------------- if (C_replace) { //------------------------------------------------------------------ // C += scalar //------------------------------------------------------------------ #undef GB_CIJ_WORK #define GB_CIJ_WORK(pC) \ { \ switch (Cb [pC]) \ { \ case 0: /* C(i,j) not present, !M(i,j) = 1 */ \ /* Cx [pC] = scalar */ \ GB_COPY_scalar_to_C (Cx, pC, cwork) ; \ Cb [pC] = 1 ; \ task_cnvals++ ; \ break ; \ case 1: /* C(i,j) present, !M(i,j) = 1 */ \ /* Cx [pC] += scalar */ \ GB_ACCUMULATE_scalar (Cx, pC, ywork) ; \ break ; \ case 2: /* C(i,j) not present, !M(i,j) = 0 */ \ /* clear the mask from C */ \ Cb [pC] = 0 ; \ break ; \ case 3: /* C(i,j) present, !M(i,j) = 0 */ \ /* delete this entry */ \ Cb [pC] = 0 ; \ task_cnvals-- ; \ break ; \ default: ; \ } \ } #include "GB_bitmap_assign_C_whole_template.c" } else { //------------------------------------------------------------------ // C += scalar //------------------------------------------------------------------ #undef GB_CIJ_WORK #define GB_CIJ_WORK(pC) \ { \ switch (Cb [pC]) \ { \ case 0: /* C(i,j) not present, !M(i,j) = 1 */ \ /* Cx [pC] = scalar */ \ GB_COPY_scalar_to_C (Cx, pC, cwork) ; \ Cb [pC] = 1 ; \ task_cnvals++ ; \ break ; \ case 1: /* C(i,j) present, !M(i,j) = 1 */ \ /* Cx [pC] += scalar */ \ GB_ACCUMULATE_scalar (Cx, pC, ywork) ; \ break ; \ case 2: /* C(i,j) not present, !M(i,j) = 0 */ \ /* clear the mask from C */ \ Cb [pC] = 0 ; \ break ; \ case 3: /* C(i,j) present, !M(i,j) = 0 */ \ /* C(i,j) remains; clear the mask from C */ \ Cb [pC] = 1 ; \ break ; \ default: ; \ } \ } #include "GB_bitmap_assign_C_whole_template.c" } } else { //---------------------------------------------------------------------- // matrix assignment: C += A //---------------------------------------------------------------------- if (GB_IS_BITMAP (A) || GB_IS_FULL (A)) { //------------------------------------------------------------------ // C += A where A is bitmap or full //------------------------------------------------------------------ if (C_replace) { //-------------------------------------------------------------- // C += A where A is bitmap or full //-------------------------------------------------------------- #undef GB_CIJ_WORK #define GB_CIJ_WORK(pC) \ { \ switch (Cb [pC]) \ { \ case 0: /* C(i,j) not present, !M(i,j) = 1 */ \ if (GBB (Ab, pC)) \ { \ /* Cx [pC] = Ax [pC] */ \ GB_COPY_aij_to_C (Cx,pC,Ax,pC,A_iso,cwork) ; \ Cb [pC] = 1 ; \ task_cnvals++ ; \ } \ break ; \ case 1: /* C(i,j) present, !M(i,j) = 1 */ \ if (GBB (Ab, pC)) \ { \ /* Cx [pC] += Ax [pC] */ \ GB_ACCUMULATE_aij (Cx,pC,Ax,pC,A_iso,ywork) ; \ } \ break ; \ case 2: /* C(i,j) not present, !M(i,j) = 0 */ \ /* clear the mask from C */ \ Cb [pC] = 0 ; \ break ; \ case 3: /* C(i,j) present, !M(i,j) = 0 */ \ /* delete this entry */ \ Cb [pC] = 0 ; \ task_cnvals-- ; \ break ; \ default: ; \ } \ } #include "GB_bitmap_assign_C_whole_template.c" } else { //-------------------------------------------------------------- // C += A where A is bitmap or full //-------------------------------------------------------------- #undef GB_CIJ_WORK #define GB_CIJ_WORK(pC) \ { \ switch (Cb [pC]) \ { \ case 0: /* C(i,j) not present, !M(i,j) = 1 */ \ if (GBB (Ab, pC)) \ { \ /* Cx [pC] = Ax [pC] */ \ GB_COPY_aij_to_C (Cx,pC,Ax,pC,A_iso,cwork) ; \ Cb [pC] = 1 ; \ task_cnvals++ ; \ } \ break ; \ case 1: /* C(i,j) present, !M(i,j) = 1 */ \ if (GBB (Ab, pC)) \ { \ /* Cx [pC] += Ax [pC] */ \ GB_ACCUMULATE_aij (Cx,pC,Ax,pC,A_iso,ywork) ; \ } \ Cb [pC] = 1 ; \ break ; \ case 2: /* C(i,j) not present, !M(i,j) = 0 */ \ /* clear the mask from C */ \ Cb [pC] = 0 ; \ break ; \ case 3: /* C(i,j) present, !M(i,j) = 0 */ \ /* keep the entry */ \ Cb [pC] = 1 ; \ break ; \ default: ; \ } \ } #include "GB_bitmap_assign_C_whole_template.c" } } else { //------------------------------------------------------------------ // C += A where A is sparse or hyper //------------------------------------------------------------------ // assign or accumulate entries from A into C #undef GB_AIJ_WORK #define GB_AIJ_WORK(pC,pA) \ { \ int8_t cb = Cb [pC] ; \ if (cb == 0) \ { \ /* Cx [pC] = Ax [pA] */ \ GB_COPY_aij_to_C (Cx, pC, Ax, pA, A_iso, cwork) ; \ Cb [pC] = 1 ; \ task_cnvals++ ; \ } \ else if (cb == 1) \ { \ /* Cx [pC] += Ax [pA] */ \ GB_ACCUMULATE_aij (Cx, pC, Ax, pA, A_iso, ywork) ; \ } \ } #include "GB_bitmap_assign_A_whole_template.c" if (C_replace) { // clear the mask and delete entries not assigned #undef GB_MASK_WORK #define GB_MASK_WORK(pC) \ { \ int8_t cb = Cb [pC] ; \ Cb [pC] = 0 ; \ task_cnvals -= (cb == 3) ; \ } #include "GB_bitmap_assign_M_all_template.c" } else { // clear the mask // Cb [pC] -= 2 for each entry M(i,j) in the mask GB_bitmap_M_scatter_whole (C, M, Mask_struct, GB_BITMAP_M_SCATTER_MINUS_2, M_ek_slicing, M_ntasks, M_nthreads) ; } } } //-------------------------------------------------------------------------- // free workspace and return result //-------------------------------------------------------------------------- C->nvals = cnvals ; GB_FREE_ALL ; ASSERT_MATRIX_OK (C, "final C for bitmap assign, !M, accum, whole", GB0) ; return (GrB_SUCCESS) ; }