//------------------------------------------------------------------------------ // GB_apply_unop_jit: Cx=op(A) apply unop method, via the JIT //------------------------------------------------------------------------------ // SuiteSparse:GraphBLAS, Timothy A. Davis, (c) 2017-2023, All Rights Reserved. // SPDX-License-Identifier: Apache-2.0 //------------------------------------------------------------------------------ #include "GB.h" #include "GB_stringify.h" typedef GB_JIT_KERNEL_APPLY_UNOP_PROTO ((*GB_jit_dl_function)) ; GrB_Info GB_apply_unop_jit // Cx = op (A), apply unop via the JIT ( // output: GB_void *Cx, // input: const GrB_Type ctype, const GB_Operator op, // unary or index unary op const bool flipij, // if true, use z = f(x,j,i,y) const GrB_Matrix A, const void *ythunk, // for index unary ops (op->ytype scalar) const int64_t *restrict A_ek_slicing, const int A_ntasks, const int A_nthreads ) { //-------------------------------------------------------------------------- // encodify the problem //-------------------------------------------------------------------------- GB_jit_encoding encoding ; char *suffix ; uint64_t hash = GB_encodify_apply (&encoding, &suffix, GB_JIT_KERNEL_APPLYUNOP, GxB_FULL, false, ctype, op, flipij, A) ; //-------------------------------------------------------------------------- // get the kernel function pointer, loading or compiling it if needed //-------------------------------------------------------------------------- void *dl_function ; GrB_Info info = GB_jitifyer_load (&dl_function, GB_jit_apply_family, "apply_unop", hash, &encoding, suffix, NULL, NULL, op, ctype, A->type, NULL) ; if (info != GrB_SUCCESS) return (info) ; //-------------------------------------------------------------------------- // call the jit kernel and return result //-------------------------------------------------------------------------- GB_jit_dl_function GB_jit_kernel = (GB_jit_dl_function) dl_function ; return (GB_jit_kernel (Cx, A, ythunk, A_ek_slicing, A_ntasks, A_nthreads)) ; }