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#define _GNU_SOURCE
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
#include <string.h>
#include <signal.h>
#include <sys/types.h>
#include <unistd.h>
#include "debug.h"
#include "box64stack.h"
#include "x64emu.h"
#include "x64run.h"
#include "x64emu_private.h"
#include "x64run_private.h"
#include "x64primop.h"
#include "x64trace.h"
#include "x87emu_private.h"
#include "box64context.h"
#include "bridge.h"
#include "modrm.h"
int RunD9(x64emu_t *emu, rex_t rex)
{
uint8_t nextop;
int32_t tmp32s;
uint64_t ll;
float f;
reg64_t *oped;
nextop = F8;
switch (nextop) {
case 0xC0:
case 0xC1:
case 0xC2:
case 0xC3:
case 0xC4:
case 0xC5:
case 0xC6:
case 0xC7: /* FLD STx */
ll = ST(nextop&7).q;
fpu_do_push(emu);
ST0.q = ll;
break;
case 0xC8:
case 0xC9:
case 0xCA:
case 0xCB:
case 0xCC:
case 0xCD:
case 0xCE:
case 0xCF: /* FXCH STx */
ll = ST(nextop&7).q;
ST(nextop&7).q = ST0.q;
ST0.q = ll;
break;
case 0xD0: /* FNOP */
break;
case 0xE0: /* FCHS */
ST0.d = -ST0.d;
break;
case 0xE1: /* FABS */
ST0.d = fabs(ST0.d);
break;
case 0xE4: /* FTST */
fpu_ftst(emu);
break;
case 0xE5: /* FXAM */
fpu_fxam(emu);
break;
case 0xE8: /* FLD1 */
fpu_do_push(emu);
ST0.d = 1.0;
break;
case 0xE9: /* FLDL2T */
fpu_do_push(emu);
ST0.d = L2T;
break;
case 0xEA: /* FLDL2E */
fpu_do_push(emu);
ST0.d = L2E;
break;
case 0xEB: /* FLDPI */
fpu_do_push(emu);
ST0.d = PI;
break;
case 0xEC: /* FLDLG2 */
fpu_do_push(emu);
ST0.d = LG2;
break;
case 0xED: /* FLDLN2 */
fpu_do_push(emu);
ST0.d = LN2;
break;
case 0xEE: /* FLDZ */
fpu_do_push(emu);
ST0.d = 0.0;
break;
case 0xF0: /* F2XM1 */
ST0.d = exp2(ST0.d) - 1.0;
break;
case 0xF1: /* FYL2X */
ST(1).d *= log2(ST0.d);
fpu_do_pop(emu);
break;
case 0xF2: /* FPTAN */
ST0.d = tan(ST0.d);
fpu_do_push(emu);
ST0.d = 1.0;
emu->sw.f.F87_C2 = 0;
break;
case 0xF3: /* FPATAN */
ST1.d = atan2(ST1.d, ST0.d);
fpu_do_pop(emu);
break;
case 0xF4: /* FXTRACT */
ST0.d = frexp(ST0.d, &tmp32s);
fpu_do_push(emu);
ST0.d = tmp32s;
break;
case 0xF8: /* FPREM */
{
int e0, e1;
frexp(ST0.d, &e0);
frexp(ST1.d, &e1);
tmp32s = e0 - e1;
}
if(tmp32s<64)
{
ll = (int64_t)floor(ST0.d/ST1.d);
ST0.d = ST0.d - (ST1.d*ll);
emu->sw.f.F87_C2 = 0;
emu->sw.f.F87_C1 = (ll&1)?1:0;
emu->sw.f.F87_C3 = (ll&2)?1:0;
emu->sw.f.F87_C0 = (ll&4)?1:0;
} else {
ll = (int64_t)(floor((ST0.d/ST1.d))/exp2(tmp32s - 32));
ST0.d = ST0.d - ST1.d*ll*exp2(tmp32s - 32);
emu->sw.f.F87_C2 = 1;
}
break;
case 0xF5: /* FPREM1 */
// get exponant(ST(0))-exponant(ST(1)) in temp32s
{
int e0, e1;
frexp(ST0.d, &e0);
frexp(ST1.d, &e1);
tmp32s = e0 - e1;
}
if(tmp32s<64)
{
ll = (int64_t)round(ST0.d/ST1.d);
ST0.d = ST0.d - (ST1.d*ll);
emu->sw.f.F87_C2 = 0;
emu->sw.f.F87_C1 = (ll&1)?1:0;
emu->sw.f.F87_C3 = (ll&2)?1:0;
emu->sw.f.F87_C0 = (ll&4)?1:0;
} else {
ll = (int64_t)(trunc((ST0.d/ST1.d))/exp2(tmp32s - 32));
ST0.d = ST0.d - ST1.d*ll*exp2(tmp32s - 32);
emu->sw.f.F87_C2 = 1;
}
break;
case 0xF6: /* FDECSTP */
emu->top=(emu->top-1)&7; // this will probably break a few things
break;
case 0xF7: /* FINCSTP */
emu->top=(emu->top+1)&7; // this will probably break a few things
break;
case 0xF9: /* FYL2XP1 */
ST(1).d *= log2(ST0.d + 1.0);
fpu_do_pop(emu);
break;
case 0xFA: /* FSQRT */
ST0.d = sqrt(ST0.d);
break;
case 0xFB: /* FSINCOS */
fpu_do_push(emu);
sincos(ST1.d, &ST1.d, &ST0.d);
emu->sw.f.F87_C2 = 0;
break;
case 0xFC: /* FRNDINT */
ST0.d = fpu_round(emu, ST0.d);
break;
case 0xFD: /* FSCALE */
// this could probably be done by just altering the exponant part of the float...
if(ST0.d!=0.0)
ST0.d *= exp2(trunc(ST1.d));
break;
case 0xFE: /* FSIN */
ST0.d = sin(ST0.d);
emu->sw.f.F87_C2 = 0;
break;
case 0xFF: /* FCOS */
ST0.d = cos(ST0.d);
emu->sw.f.F87_C2 = 0;
break;
case 0xD1:
case 0xD4:
case 0xD5:
case 0xD6:
case 0xD7:
case 0xD8:
case 0xD9:
case 0xDA:
case 0xDB:
case 0xDC:
case 0xDD:
case 0xDE:
case 0xDF:
case 0xE2:
case 0xE3:
case 0xE6:
case 0xE7:
case 0xEF:
return 1;
default:
switch((nextop>>3)&7) {
case 0: /* FLD ST0, Ed float */
GETED(0);
fpu_do_push(emu);
if(!(((uintptr_t)ED)&3))
ST0.d = *(float*)ED;
else {
memcpy(&f, ED, sizeof(float));
ST0.d = f;
}
break;
case 2: /* FST Ed, ST0 */
GETED(0);
if(!(((uintptr_t)ED)&3))
*(float*)ED = ST0.d;
else {
f = ST0.d;
memcpy(ED, &f, sizeof(float));
}
break;
case 3: /* FSTP Ed, ST0 */
GETED(0);
if(!(((uintptr_t)ED)&3))
*(float*)ED = ST0.d;
else {
f = ST0.d;
memcpy(ED, &f, sizeof(float));
}
fpu_do_pop(emu);
break;
case 4: /* FLDENV m */
// warning, incomplete
GETED(0);
fpu_loadenv(emu, (char*)ED, 0);
break;
case 5: /* FLDCW Ew */
GETEW(0);
emu->cw = EW->word[0];
// do something with cw?
emu->round = (fpu_round_t)((emu->cw >> 10) & 3);
break;
case 6: /* FNSTENV m */
// warning, incomplete
GETED(0);
fpu_savenv(emu, (char*)ED, 0);
// intruction pointer: 48bits
// data (operand) pointer: 48bits
// last opcode: 11bits save: 16bits restaured (1st and 2nd opcode only)
break;
case 7: /* FNSTCW Ew */
GETEW(0);
EW->word[0] = emu->cw;
break;
default:
return 1;
}
}
return 0;
}
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