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hpc-2022-g3/OpenMP/utilities/polybench.h

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/**
* polybench.h: This file is part of the PolyBench/C 3.2 test suite.
*
*
* Contact: Louis-Noel Pouchet <pouchet@cse.ohio-state.edu>
* Web address: http://polybench.sourceforge.net
*/
/*
* Polybench header for instrumentation.
*
* Programs must be compiled with `-I utilities utilities/polybench.c'
*
* Optionally, one can define:
*
* -DPOLYBENCH_TIME, to report the execution time,
* OR (exclusive):
* -DPOLYBENCH_PAPI, to use PAPI H/W counters (defined in polybench.c)
*
*
* See README or utilities/polybench.c for additional options.
*
*/
#ifndef POLYBENCH_H
# define POLYBENCH_H
# include <stdlib.h>
/* Array padding. By default, none is used. */
# ifndef POLYBENCH_PADDING_FACTOR
/* default: */
# define POLYBENCH_PADDING_FACTOR 0
# endif
/* C99 arrays in function prototype. By default, do not use. */
# ifdef POLYBENCH_USE_C99_PROTO
# define POLYBENCH_C99_SELECT(x,y) y
# else
/* default: */
# define POLYBENCH_C99_SELECT(x,y) x
# endif
/* Scalar loop bounds in SCoPs. By default, use parametric loop bounds. */
# ifdef POLYBENCH_USE_SCALAR_LB
# define POLYBENCH_LOOP_BOUND(x,y) x
# else
/* default: */
# define POLYBENCH_LOOP_BOUND(x,y) y
# endif
/* Macros to reference an array. Generic for heap and stack arrays
(C99). Each array dimensionality has his own macro, to be used at
declaration or as a function argument.
Example:
int b[x] => POLYBENCH_1D_ARRAY(b, x)
int A[N][N] => POLYBENCH_2D_ARRAY(A, N, N)
*/
# ifndef POLYBENCH_STACK_ARRAYS
# define POLYBENCH_ARRAY(x) *x
# define POLYBENCH_FREE_ARRAY(x) free((void*)x);
# define POLYBENCH_DECL_VAR(x) (*x)
# else
# define POLYBENCH_ARRAY(x) x
# define POLYBENCH_FREE_ARRAY(x)
# define POLYBENCH_DECL_VAR(x) x
# endif
/* Macros for using arrays in the function prototypes. */
# define POLYBENCH_1D(var, dim1,ddim1) var[POLYBENCH_C99_SELECT(dim1,ddim1) + POLYBENCH_PADDING_FACTOR]
# define POLYBENCH_2D(var, dim1, dim2, ddim1, ddim2) var[POLYBENCH_C99_SELECT(dim1,ddim1) + POLYBENCH_PADDING_FACTOR][POLYBENCH_C99_SELECT(dim2,ddim2) + POLYBENCH_PADDING_FACTOR]
# define POLYBENCH_3D(var, dim1, dim2, dim3, ddim1, ddim2, ddim3) var[POLYBENCH_C99_SELECT(dim1,ddim1) + POLYBENCH_PADDING_FACTOR][POLYBENCH_C99_SELECT(dim2,ddim2) + POLYBENCH_PADDING_FACTOR][POLYBENCH_C99_SELECT(dim3,ddim3) + POLYBENCH_PADDING_FACTOR]
# define POLYBENCH_4D(var, dim1, dim2, dim3, dim4, ddim1, ddim2, ddim3, ddim4) var[POLYBENCH_C99_SELECT(dim1,ddim1) + POLYBENCH_PADDING_FACTOR][POLYBENCH_C99_SELECT(dim2,ddim2) + POLYBENCH_PADDING_FACTOR][POLYBENCH_C99_SELECT(dim3,ddim3) + POLYBENCH_PADDING_FACTOR][POLYBENCH_C99_SELECT(dim4,ddim4) + POLYBENCH_PADDING_FACTOR]
# define POLYBENCH_5D(var, dim1, dim2, dim3, dim4, dim5, ddim1, ddim2, ddim3, ddim4, ddim5) var[POLYBENCH_C99_SELECT(dim1,ddim1) + POLYBENCH_PADDING_FACTOR][POLYBENCH_C99_SELECT(dim2,ddim2) + POLYBENCH_PADDING_FACTOR][POLYBENCH_C99_SELECT(dim3,ddim3) + POLYBENCH_PADDING_FACTOR][POLYBENCH_C99_SELECT(dim4,ddim4) + POLYBENCH_PADDING_FACTOR][POLYBENCH_C99_SELECT(dim5,ddim5) + POLYBENCH_PADDING_FACTOR]
/* Macros to allocate heap arrays.
Example:
polybench_alloc_2d_array(N, M, double) => allocates N x M x sizeof(double)
and returns a pointer to the 2d array
*/
# define POLYBENCH_ALLOC_1D_ARRAY(n1, type) \
(type(*)[n1 + POLYBENCH_PADDING_FACTOR])polybench_alloc_data (n1 + POLYBENCH_PADDING_FACTOR, sizeof(type))
# define POLYBENCH_ALLOC_2D_ARRAY(n1, n2, type) \
(type(*)[n1 + POLYBENCH_PADDING_FACTOR][n2 + POLYBENCH_PADDING_FACTOR])polybench_alloc_data ((n1 + POLYBENCH_PADDING_FACTOR) * (n2 + POLYBENCH_PADDING_FACTOR), sizeof(type))
# define POLYBENCH_ALLOC_3D_ARRAY(n1, n2, n3, type) \
(type(*)[n1 + POLYBENCH_PADDING_FACTOR][n2 + POLYBENCH_PADDING_FACTOR][n3 + POLYBENCH_PADDING_FACTOR])polybench_alloc_data ((n1 + POLYBENCH_PADDING_FACTOR) * (n2 + POLYBENCH_PADDING_FACTOR) * (n3 + POLYBENCH_PADDING_FACTOR), sizeof(type))
# define POLYBENCH_ALLOC_4D_ARRAY(n1, n2, n3, n4, type) \
(type(*)[n1 + POLYBENCH_PADDING_FACTOR][n2 + POLYBENCH_PADDING_FACTOR][n3 + POLYBENCH_PADDING_FACTOR][n4 + POLYBENCH_PADDING_FACTOR])polybench_alloc_data ((n1 + POLYBENCH_PADDING_FACTOR) * (n2 + POLYBENCH_PADDING_FACTOR) * (n3 + POLYBENCH_PADDING_FACTOR) * (n4 + POLYBENCH_PADDING_FACTOR), sizeof(type))
# define POLYBENCH_ALLOC_5D_ARRAY(n1, n2, n3, n4, n5, type) \
(type(*)[n1 + POLYBENCH_PADDING_FACTOR][n2 + POLYBENCH_PADDING_FACTOR][n3 + POLYBENCH_PADDING_FACTOR][n4 + POLYBENCH_PADDING_FACTOR][n5 + POLYBENCH_PADDING_FACTOR])polybench_alloc_data ((n1 + POLYBENCH_PADDING_FACTOR) * (n2 + POLYBENCH_PADDING_FACTOR) * (n3 + POLYBENCH_PADDING_FACTOR) * (n4 + POLYBENCH_PADDING_FACTOR) * (n5 + POLYBENCH_PADDING_FACTOR), sizeof(type))
/* Macros for array declaration. */
# ifndef POLYBENCH_STACK_ARRAYS
# define POLYBENCH_1D_ARRAY_DECL(var, type, dim1, ddim1) \
type POLYBENCH_1D(POLYBENCH_DECL_VAR(var), dim1, ddim1); \
var = POLYBENCH_ALLOC_1D_ARRAY(POLYBENCH_C99_SELECT(dim1, ddim1), type);
# define POLYBENCH_2D_ARRAY_DECL(var, type, dim1, dim2, ddim1, ddim2) \
type POLYBENCH_2D(POLYBENCH_DECL_VAR(var), dim1, dim2, ddim1, ddim2); \
var = POLYBENCH_ALLOC_2D_ARRAY(POLYBENCH_C99_SELECT(dim1, ddim1), POLYBENCH_C99_SELECT(dim2, ddim2), type);
# define POLYBENCH_3D_ARRAY_DECL(var, type, dim1, dim2, dim3, ddim1, ddim2, ddim3) \
type POLYBENCH_3D(POLYBENCH_DECL_VAR(var), dim1, dim2, dim3, ddim1, ddim2, ddim3); \
var = POLYBENCH_ALLOC_3D_ARRAY(POLYBENCH_C99_SELECT(dim1, ddim1), POLYBENCH_C99_SELECT(dim2, ddim2), POLYBENCH_C99_SELECT(dim3, ddim3), type);
# define POLYBENCH_4D_ARRAY_DECL(var, type, dim1, dim2, dim3, dim4, ddim1, ddim2, ddim3, ddim4) \
type POLYBENCH_4D(POLYBENCH_DECL_VAR(var), dim1, dim2, ,dim3, dim4, ddim1, ddim2, ddim3, ddim4); \
var = POLYBENCH_ALLOC_4D_ARRAY(POLYBENCH_C99_SELECT(dim1, ddim1), POLYBENCH_C99_SELECT(dim2, ddim2), POLYBENCH_C99_SELECT(dim3, ddim3), POLYBENCH_C99_SELECT(dim4, ddim4), type);
# define POLYBENCH_5D_ARRAY_DECL(var, type, dim1, dim2, dim3, dim4, dim5, ddim1, ddim2, ddim3, ddim4, ddim5) \
type POLYBENCH_5D(POLYBENCH_DECL_VAR(var), dim1, dim2, dim3, dim4, dim5, ddim1, ddim2, ddim3, ddim4, ddim5); \
var = POLYBENCH_ALLOC_5D_ARRAY(POLYBENCH_C99_SELECT(dim1, ddim1), POLYBENCH_C99_SELECT(dim2, ddim2), POLYBENCH_C99_SELECT(dim3, ddim3), POLYBENCH_C99_SELECT(dim4, ddim4), POLYBENCH_C99_SELECT(dim5, ddim5), type);
# else
# define POLYBENCH_1D_ARRAY_DECL(var, type, dim1, ddim1) \
type POLYBENCH_1D(POLYBENCH_DECL_VAR(var), dim1, ddim1);
# define POLYBENCH_2D_ARRAY_DECL(var, type, dim1, dim2, ddim1, ddim2) \
type POLYBENCH_2D(POLYBENCH_DECL_VAR(var), dim1, dim2, ddim1, ddim2);
# define POLYBENCH_3D_ARRAY_DECL(var, type, dim1, dim2, dim3, ddim1, ddim2, ddim3) \
type POLYBENCH_3D(POLYBENCH_DECL_VAR(var), dim1, dim2, dim3, ddim1, ddim2, ddim3);
# define POLYBENCH_4D_ARRAY_DECL(var, type, dim1, dim2, dim3, dim4, ddim1, ddim2, ddim3, ddim4) \
type POLYBENCH_4D(POLYBENCH_DECL_VAR(var), dim1, dim2, dim3, dim4, ddim1, ddim2, ddim3, ddim4);
# define POLYBENCH_5D_ARRAY_DECL(var, type, dim1, dim2, dim3, dim4, dim5, ddim1, ddim2, ddim3, ddim4, ddim5) \
type POLYBENCH_5D(POLYBENCH_DECL_VAR(var), dim1, dim2, dim3, dim4, dim5, ddim1, ddim2, ddim3, ddim4, ddim5);
# endif
/* Dead-code elimination macros. Use argc/argv for the run-time check. */
# ifndef POLYBENCH_DUMP_ARRAYS
# define POLYBENCH_DCE_ONLY_CODE if (argc > 42 && ! strcmp(argv[0], ""))
# else
# define POLYBENCH_DCE_ONLY_CODE
# endif
# define polybench_prevent_dce(func) \
POLYBENCH_DCE_ONLY_CODE \
func
/* Performance-related instrumentation. See polybench.c */
# define polybench_start_instruments
# define polybench_stop_instruments
# define polybench_print_instruments
/* PAPI support. */
# ifdef POLYBENCH_PAPI
extern const unsigned int polybench_papi_eventlist[];
# undef polybench_start_instruments
# undef polybench_stop_instruments
# undef polybench_print_instruments
# define polybench_set_papi_thread_report(x) \
polybench_papi_counters_threadid = x;
# define polybench_start_instruments \
polybench_prepare_instruments(); \
polybench_papi_init(); \
int evid; \
for (evid = 0; polybench_papi_eventlist[evid] != 0; evid++) \
{ \
if (polybench_papi_start_counter(evid)) \
continue; \
# define polybench_stop_instruments \
polybench_papi_stop_counter(evid); \
} \
polybench_papi_close(); \
# define polybench_print_instruments polybench_papi_print();
# endif
/* Timing support. */
# if defined(POLYBENCH_TIME) || defined(POLYBENCH_GFLOPS)
# undef polybench_start_instruments
# undef polybench_stop_instruments
# undef polybench_print_instruments
# define polybench_start_instruments polybench_timer_start();
# define polybench_stop_instruments polybench_timer_stop();
# define polybench_print_instruments polybench_timer_print();
extern double polybench_program_total_flops;
extern void polybench_timer_start();
extern void polybench_timer_stop();
extern void polybench_timer_print();
# endif
/* Function declaration. */
# ifdef POLYBENCH_TIME
extern void polybench_timer_start();
extern void polybench_timer_stop();
extern void polybench_timer_print();
# endif
# ifdef POLYBENCH_PAPI
extern void polybench_prepare_instruments();
extern int polybench_papi_start_counter(int evid);
extern void polybench_papi_stop_counter(int evid);
extern void polybench_papi_init();
extern void polybench_papi_close();
extern void polybench_papi_print();
# endif
/* Function prototypes. */
extern void* polybench_alloc_data(unsigned long long int n, int elt_size);
#endif /* !POLYBENCH_H */