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#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <math.h>
#include <limits.h>
#include <time.h>
#include "nmglobal.h"
#include "nbench1.h"
#include "emfloat.h"
/*****************************
** FLOATING-POINT EMULATION **
*****************************/
/**************
** DoEmFloat **
***************
** Perform the floating-point emulation routines portion of the
** CPU benchmark. Returns the operations per second.
*/
void
DoEmFloat(void)
{
const char* errorcontext = "CPU:Floating Emulation";
EmFloatStruct* locemfloatstruct = &global_emfloatstruct;
InternalFPF* abase = NULL;
InternalFPF* bbase = NULL;
InternalFPF* cbase = NULL;
clock_t total_time = 0;
int iterations = 0;
unsigned long loops = 1;
abase = malloc(locemfloatstruct->arraysize * sizeof(InternalFPF));
if (!abase) {
printf("ERROR CONDITION\nContext: %s\n", errorcontext);
exit(1);
}
bbase = malloc(locemfloatstruct->arraysize * sizeof(InternalFPF));
if (!bbase) {
printf("ERROR CONDITION\nContext: %s\n", errorcontext);
free(abase);
exit(1);
}
cbase = malloc(locemfloatstruct->arraysize * sizeof(InternalFPF));
if (!cbase) {
printf("ERROR CONDITION\nContext: %s\n", errorcontext);
free(abase);
free(bbase);
exit(1);
}
SetupCPUEmFloatArrays(abase, bbase, cbase, locemfloatstruct->arraysize); /* FIXME: ugly */
/* See if we need to do self-adjusting code.*/
if (locemfloatstruct->adjust == FALSE) {
locemfloatstruct->adjust = TRUE;
locemfloatstruct->loops = 0;
/*
** Do an iteration of the tests. If the elapsed time is
** less than minimum, increase the loop count and try
** again.
*/
for (; loops < CPUEMFLOATLOOPMAX; loops += loops) {
if (DoEmFloatIteration(abase, bbase, cbase, locemfloatstruct->arraysize, loops) > global_min_ticks) {
locemfloatstruct->loops = loops;
break;
}
}
}
/*
** Verify that selft adjustment code worked.
*/
if (locemfloatstruct->loops == 0) {
puts("CPU:EMFPU -- CMPUEMFLOATLOOPMAX limit hit");
free(abase);
free(bbase);
free(cbase);
exit(1);
}
/*
** All's well if we get here. Repeatedly perform floating
** tests until the accumulated time is greater than the
** # of seconds requested.
** Each iteration performs arraysize * 3 operations.
*/
do {
total_time += DoEmFloatIteration(abase, bbase, cbase, locemfloatstruct->arraysize, locemfloatstruct->loops);
++iterations;
} while (total_time < locemfloatstruct->request_secs * CLOCKS_PER_SEC);
free(abase);
free(bbase);
free(cbase);
locemfloatstruct->emflops = (double)(iterations * locemfloatstruct->loops * CLOCKS_PER_SEC) / (double)total_time;
}
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