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//------------------------------------------------------------------------------
// GB_mex_mxm_generic: C<Mask> = accum(C,A*B)
//------------------------------------------------------------------------------
// SuiteSparse:GraphBLAS, Timothy A. Davis, (c) 2017-2022, All Rights Reserved.
// SPDX-License-Identifier: Apache-2.0
//------------------------------------------------------------------------------
#include "GB_mex.h"
#define USAGE "C = GB_mex_mxm_generic (C, Mask, accum, semiring, A, B, desc)"
#define FREE_ALL \
{ \
GrB_Matrix_free_(&A) ; \
GrB_Matrix_free_(&B) ; \
GrB_Matrix_free_(&C) ; \
GrB_Matrix_free_(&Mask) ; \
GrB_Monoid_free_(&myplus_monoid) ; \
GrB_BinaryOp_free_(&myplus) ; \
if (semiring != Complex_plus_times) \
{ \
GrB_Semiring_free_(&semiring) ; \
} \
GrB_Descriptor_free_(&desc) ; \
GB_mx_put_global (true) ; \
}
void My_Plus_int64 (void *z, const void *x, const void *y) ;
void My_Plus_int32 (void *z, const void *x, const void *y) ;
void My_Plus_fp64 (void *z, const void *x, const void *y) ;
void My_Plus_int64 (void *z, const void *x, const void *y)
{
int64_t a = (*((int64_t *) x)) ;
int64_t b = (*((int64_t *) y)) ;
int64_t c = a + b ;
(*((int64_t *) z)) = c ;
}
#define MY_PLUS_INT64 \
" void My_Plus_int64 (void *z, const void *x, const void *y) \n" \
" { \n" \
" int64_t a = (*((int64_t *) x)) ; \n" \
" int64_t b = (*((int64_t *) y)) ; \n" \
" int64_t c = a + b ; \n" \
" (*((int64_t *) z)) = c ; \n" \
" }"
void My_Plus_int32 (void *z, const void *x, const void *y)
{
int32_t a = (*((int32_t *) x)) ;
int32_t b = (*((int32_t *) y)) ;
int32_t c = a + b ;
(*((int32_t *) z)) = c ;
}
#define MY_PLUS_INT32 \
" void My_Plus_int32 (void *z, const void *x, const void *y) \n" \
" { \n" \
" int32_t a = (*((int32_t *) x)) ; \n" \
" int32_t b = (*((int32_t *) y)) ; \n" \
" int32_t c = a + b ; \n" \
" (*((int32_t *) z)) = c ; \n" \
" }"
void My_Plus_fp64 (void *z, const void *x, const void *y)
{
double a = (*((double *) x)) ;
double b = (*((double *) y)) ;
double c = a + b ;
(*((double *) z)) = c ;
}
#define MY_PLUS_FP64 \
" void My_Plus_fp64 (void *z, const void *x, const void *y) \n" \
" { \n" \
" double a = (*((double *) x)) ; \n" \
" double b = (*((double *) y)) ; \n" \
" double c = a + b ; \n" \
" (*((double *) z)) = c ; \n" \
" }"
void mexFunction
(
int nargout,
mxArray *pargout [ ],
int nargin,
const mxArray *pargin [ ]
)
{
bool malloc_debug = GB_mx_get_global (true) ;
GrB_Matrix A = NULL ;
GrB_Matrix B = NULL ;
GrB_Matrix C = NULL ;
GrB_Matrix Mask = NULL ;
GrB_Semiring semiring = NULL ;
GrB_Descriptor desc = NULL ;
GrB_BinaryOp myplus = NULL ;
GrB_Monoid myplus_monoid = NULL ;
// check inputs
if (nargout > 1 || nargin < 6 || nargin > 7)
{
mexErrMsgTxt ("Usage: " USAGE) ;
}
// get C (make a deep copy)
#define GET_DEEP_COPY \
C = GB_mx_mxArray_to_Matrix (pargin [0], "C input", true, true) ;
#define FREE_DEEP_COPY GrB_Matrix_free_(&C) ;
GET_DEEP_COPY ;
if (C == NULL)
{
FREE_ALL ;
mexErrMsgTxt ("C failed") ;
}
// get Mask (shallow copy)
Mask = GB_mx_mxArray_to_Matrix (pargin [1], "Mask", false, false) ;
if (Mask == NULL && !mxIsEmpty (pargin [1]))
{
FREE_ALL ;
mexErrMsgTxt ("Mask failed") ;
}
// get A (shallow copy)
A = GB_mx_mxArray_to_Matrix (pargin [4], "A input", false, true) ;
if (A == NULL)
{
FREE_ALL ;
mexErrMsgTxt ("A failed") ;
}
// get B (shallow copy)
B = GB_mx_mxArray_to_Matrix (pargin [5], "B input", false, true) ;
if (B == NULL)
{
FREE_ALL ;
mexErrMsgTxt ("B failed") ;
}
bool user_complex = (Complex != GxB_FC64) && (C->type == Complex) ;
// get semiring
if (!GB_mx_mxArray_to_Semiring (&semiring, pargin [3], "semiring",
C->type, user_complex))
{
FREE_ALL ;
mexErrMsgTxt ("semiring failed") ;
}
if (semiring != NULL && semiring->add == GrB_PLUS_MONOID_INT64)
{
// replace the semiring with a user-defined monoid
GrB_BinaryOp mult = semiring->multiply ;
GrB_Monoid_free_(&(semiring->add)) ;
GrB_Semiring_free_(&semiring) ;
// GrB_BinaryOp_new (&myplus, My_Plus_int64,
// GrB_INT64, GrB_INT64, GrB_INT64) ;
GxB_BinaryOp_new (&myplus, My_Plus_int64,
GrB_INT64, GrB_INT64, GrB_INT64,
"My_Plus_int64", MY_PLUS_INT64) ;
// add a spurious terminal value
GxB_Monoid_terminal_new_INT64 (&myplus_monoid, myplus,
(int64_t) 0, (int64_t) -111) ;
GrB_Semiring_new (&semiring, myplus_monoid, mult) ;
}
else if (semiring != NULL && semiring->add == GrB_PLUS_MONOID_INT32)
{
// replace the semiring with a user-defined monoid
GrB_BinaryOp mult = semiring->multiply ;
GrB_Monoid_free_(&(semiring->add)) ;
GrB_Semiring_free_(&semiring) ;
// GrB_BinaryOp_new (&myplus, My_Plus_int32,
// GrB_INT32, GrB_INT32, GrB_INT32) ;
GxB_BinaryOp_new (&myplus, My_Plus_int32,
GrB_INT32, GrB_INT32, GrB_INT32,
"My_Plus_int32", MY_PLUS_INT32) ;
// add a spurious terminal value
GxB_Monoid_terminal_new_INT32 (&myplus_monoid, myplus,
(int32_t) 0, (int32_t) -111) ;
GrB_Semiring_new (&semiring, myplus_monoid, mult) ;
}
else if (semiring != NULL && semiring->add == GrB_PLUS_MONOID_FP64)
{
// replace the semiring with a user-defined monoid
GrB_BinaryOp mult = semiring->multiply ;
GrB_Monoid_free_(&(semiring->add)) ;
GrB_Semiring_free_(&semiring) ;
// GrB_BinaryOp_new (&myplus, My_Plus_fp64,
// GrB_FP64, GrB_FP64, GrB_FP64) ;
GxB_BinaryOp_new (&myplus, My_Plus_fp64,
GrB_FP64, GrB_FP64, GrB_FP64,
"My_Plus_fp64", MY_PLUS_FP64) ;
GrB_Monoid_new_FP64 (&myplus_monoid, myplus, (double) 0) ;
GrB_Semiring_new (&semiring, myplus_monoid, mult) ;
}
// get accum, if present
GrB_BinaryOp accum ;
if (!GB_mx_mxArray_to_BinaryOp (&accum, pargin [2], "accum",
C->type, user_complex))
{
FREE_ALL ;
mexErrMsgTxt ("accum failed") ;
}
// get desc
if (!GB_mx_mxArray_to_Descriptor (&desc, PARGIN (6), "desc"))
{
FREE_ALL ;
mexErrMsgTxt ("desc failed") ;
}
// C<Mask> = accum(C,A*B)
METHOD (GrB_mxm (C, Mask, accum, semiring, A, B, desc)) ;
// return C as a struct and free the GraphBLAS C
pargout [0] = GB_mx_Matrix_to_mxArray (&C, "C output from GrB_mxm", true) ;
FREE_ALL ;
}
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