#ifndef _BENCHMARK_H_

#define _BENCHMARK_H_

#include <float.h>

#include <stdint.h>

#include <time.h>

#ifdef __x86_64__

const char *unitname = "cycles";

#define RDTSC_START(cycles) \

do { \

uint32_t cyc_high, cyc_low; \

__asm volatile("cpuid\n" \

"rdtsc\n" \

"mov %%edx, %0\n" \

"mov %%eax, %1" \

: "=r"(cyc_high), "=r"(cyc_low) \

: \

: /* no read only */ \

"%rax", "%rbx", "%rcx", "%rdx" /* clobbers */ \

); \

(cycles) = ((uint64_t)cyc_high << 32) | cyc_low; \

} while (0)

#define RDTSC_STOP(cycles) \

do { \

uint32_t cyc_high, cyc_low; \

__asm volatile("rdtscp\n" \

"mov %%edx, %0\n" \

"mov %%eax, %1\n" \

"cpuid" \

: "=r"(cyc_high), "=r"(cyc_low) \

: /* no read only registers */ \

: "%rax", "%rbx", "%rcx", "%rdx" /* clobbers */ \

); \

(cycles) = ((uint64_t)cyc_high << 32) | cyc_low; \

} while (0)

const char *unitname = " (clock units) ";

#define RDTSC_START(cycles) \

do { \

cycles = clock(); \

} while (0)

#define RDTSC_STOP(cycles) \

do { \

cycles = clock(); \

} while (0)

static __attribute__((noinline)) uint64_t rdtsc_overhead_func(uint64_t dummy) {

return dummy;

}

uint64_t global_rdtsc_overhead = (uint64_t)UINT64_MAX;

#define RDTSC_SET_OVERHEAD(test, repeat) \

do { \

uint64_t cycles_start, cycles_final, cycles_diff; \

uint64_t min_diff = UINT64_MAX; \

for (int i = 0; i < repeat; i++) { \

__asm volatile("" ::: /* pretend to clobber */ "memory"); \

RDTSC_START(cycles_start); \

test; \

RDTSC_STOP(cycles_final); \

cycles_diff = (cycles_final - cycles_start); \

if (cycles_diff < min_diff) \

min_diff = cycles_diff; \

} \

global_rdtsc_overhead = min_diff; \

} while (0)

double diff(timespec start, timespec end) {

return ((end.tv_nsec + 1000000000 * end.tv_sec) -

(start.tv_nsec + 1000000000 * start.tv_sec)) /

1000000000.0;

}

#define BEST_TIME(name, test, expected, pre, repeat, size, verbose) \

do { \

if (global_rdtsc_overhead == UINT64_MAX) { \

RDTSC_SET_OVERHEAD(rdtsc_overhead_func(1), repeat); \

} \

if (verbose) \

printf("%-40s\t: ", name); \

else \

printf("\"%s\"\t", name); \

fflush(NULL); \

uint64_t cycles_start, cycles_final, cycles_diff; \

uint64_t min_diff = (uint64_t)-1; \

double min_sumclockdiff = DBL_MAX; \

uint64_t sum_diff = 0; \

double sumclockdiff = 0; \

struct timespec time1, time2; \

for (int i = 0; i < repeat; i++) { \

pre; \

__asm volatile("" ::: /* pretend to clobber */ "memory"); \

clock_gettime(CLOCK_REALTIME, &time1); \

RDTSC_START(cycles_start); \

if (test != expected) { \

fprintf(stderr, "not expected (%d , %d )", (int)test, (int)expected); \

break; \

} \

RDTSC_STOP(cycles_final); \

clock_gettime(CLOCK_REALTIME, &time2); \

double thistiming = diff(time1, time2); \

sumclockdiff += thistiming; \

if (thistiming < min_sumclockdiff) \

min_sumclockdiff = thistiming; \

cycles_diff = (cycles_final - cycles_start - global_rdtsc_overhead); \

if (cycles_diff < min_diff) \

min_diff = cycles_diff; \

sum_diff += cycles_diff; \

} \

uint64_t S = size; \

float cycle_per_op = (min_diff) / (double)S; \

float avg_cycle_per_op = (sum_diff) / ((double)S * repeat); \

double avg_gb_per_s = \

((double)S * repeat) / ((sumclockdiff)*1000.0 * 1000.0 * 1000.0); \

double max_gb_per_s = \

((double)S) / ((min_sumclockdiff)*1000.0 * 1000.0 * 1000.0); \

if (verbose) \

printf(" %.3f %s per input byte (best) ", cycle_per_op, unitname); \

if (verbose) \

printf(" %.3f %s per input byte (avg) ", avg_cycle_per_op, unitname); \

if (!verbose) \

printf(" %.3f %.3f %.3f %.3f ", cycle_per_op, \

avg_cycle_per_op - cycle_per_op, max_gb_per_s, \

-avg_gb_per_s + max_gb_per_s); \

printf("\n"); \

fflush(NULL); \

} while (0)

#define BEST_TIME_NOCHECK(name, test, pre, repeat, size, verbose) \

do { \

if (global_rdtsc_overhead == UINT64_MAX) { \

RDTSC_SET_OVERHEAD(rdtsc_overhead_func(1), repeat); \

} \

if (verbose) \

printf("%-40s\t: ", name); \

fflush(NULL); \

uint64_t cycles_start, cycles_final, cycles_diff; \

uint64_t min_diff = (uint64_t)-1; \

uint64_t sum_diff = 0; \

for (int i = 0; i < repeat; i++) { \

pre; \

__asm volatile("" ::: /* pretend to clobber */ "memory"); \

RDTSC_START(cycles_start); \

test; \

RDTSC_STOP(cycles_final); \

cycles_diff = (cycles_final - cycles_start - global_rdtsc_overhead); \

if (cycles_diff < min_diff) \

min_diff = cycles_diff; \

sum_diff += cycles_diff; \

} \

uint64_t S = size; \

float cycle_per_op = (min_diff) / (double)S; \

float avg_cycle_per_op = (sum_diff) / ((double)S * repeat); \

if (verbose) \

printf(" %.3f %s per input byte (best) ", cycle_per_op, unitname); \

if (verbose) \

printf(" %.3f %s per input byte (avg) ", avg_cycle_per_op, unitname); \

if (verbose) \

printf("\n"); \

if (!verbose) \

printf(" %.3f ", cycle_per_op); \

fflush(NULL); \

} while (0)

#define BEST_TIME_CHECK(test, check, pre, repeat, size, verbose) \

do { \

if (global_rdtsc_overhead == UINT64_MAX) { \

RDTSC_SET_OVERHEAD(rdtsc_overhead_func(1), repeat); \

} \

if (verbose) \

printf("%-60s\t:\n", #test); \

fflush(NULL); \

uint64_t cycles_start, cycles_final, cycles_diff; \

uint64_t min_diff = (uint64_t)-1; \

uint64_t sum_diff = 0; \

for (int i = 0; i < repeat; i++) { \

pre; \

__asm volatile("" ::: /* pretend to clobber */ "memory"); \

RDTSC_START(cycles_start); \

test; \

RDTSC_STOP(cycles_final); \

if (!check) { \

printf("error"); \

break; \

} \

cycles_diff = (cycles_final - cycles_start - global_rdtsc_overhead); \

if (cycles_diff < min_diff) \

min_diff = cycles_diff; \

sum_diff += cycles_diff; \

} \

uint64_t S = size; \

float cycle_per_op = (min_diff) / (double)S; \

float avg_cycle_per_op = (sum_diff) / ((double)S * repeat); \

if (verbose) \

printf(" %.3f cycles per operation (best) ", cycle_per_op); \

if (verbose) \

printf("\t%.3f cycles per operation (avg) ", avg_cycle_per_op); \

if (verbose) \

printf("\n"); \

if (!verbose) \

printf(" %.3f ", cycle_per_op); \

fflush(NULL); \

} while (0)