static void do_emu(struct info * info)
{
unsigned short code;
temp_real tmp;
char * address;
if (I387.cwd & I387.swd & 0x3f)
I387.swd |= 0x8000;
else
I387.swd &= 0x7fff;
ORIG_EIP = EIP;
/* 0x0007 means user code space */
if (CS != 0x000F) {
printk("math_emulate: %04x:%08x\n\r",CS,EIP);
panic("Math emulation needed in kernel");
}
code = get_fs_word((unsigned short *) EIP);
bswapw(code);
code &= 0x7ff;
I387.fip = EIP;
*(unsigned short *) &I387.fcs = CS;
*(1+(unsigned short *) &I387.fcs) = code;
EIP += 2;
switch (code) {
case 0x1d0: /* fnop */
return;
case 0x1d1: case 0x1d2: case 0x1d3:
case 0x1d4: case 0x1d5: case 0x1d6: case 0x1d7:
math_abort(info,1<<(SIGILL-1));
case 0x1e0:
ST(0).exponent ^= 0x8000;
return;
case 0x1e1:
ST(0).exponent &= 0x7fff;
return;
case 0x1e2: case 0x1e3:
math_abort(info,1<<(SIGILL-1));
case 0x1e4:
ftst(PST(0));
return;
case 0x1e5:
printk("fxam not implemented\n\r");
math_abort(info,1<<(SIGILL-1));
case 0x1e6: case 0x1e7:
math_abort(info,1<<(SIGILL-1));
case 0x1e8:
fpush();
ST(0) = CONST1;
return;
case 0x1e9:
fpush();
ST(0) = CONSTL2T;
return;
case 0x1ea:
fpush();
ST(0) = CONSTL2E;
return;
case 0x1eb:
fpush();
ST(0) = CONSTPI;
return;
case 0x1ec:
fpush();
ST(0) = CONSTLG2;
return;
case 0x1ed:
fpush();
ST(0) = CONSTLN2;
return;
case 0x1ee:
fpush();
ST(0) = CONSTZ;
return;
case 0x1ef:
math_abort(info,1<<(SIGILL-1));
case 0x1f0: case 0x1f1: case 0x1f2: case 0x1f3:
case 0x1f4: case 0x1f5: case 0x1f6: case 0x1f7:
case 0x1f8: case 0x1f9: case 0x1fa: case 0x1fb:
case 0x1fc: case 0x1fd: case 0x1fe: case 0x1ff:
printk("%04x fxxx not implemented\n\r",code + 0xc800);
math_abort(info,1<<(SIGILL-1));
case 0x2e9:
fucom(PST(1),PST(0));
fpop(); fpop();
return;
case 0x3d0: case 0x3d1:
return;
case 0x3e2:
I387.swd &= 0x7f00;
return;
case 0x3e3:
I387.cwd = 0x037f;
I387.swd = 0x0000;
I387.twd = 0x0000;
return;
case 0x3e4:
return;
case 0x6d9:
fcom(PST(1),PST(0));
fpop(); fpop();
return;
case 0x7e0:
*(short *) &EAX = I387.swd;
return;
}
switch (code >> 3) {
case 0x18:
fadd(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(0));
return;
case 0x19:
fmul(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(0));
return;
case 0x1a:
fcom(PST(code & 7),&tmp);
real_to_real(&tmp,&ST(0));
return;
case 0x1b:
fcom(PST(code & 7),&tmp);
real_to_real(&tmp,&ST(0));
fpop();
return;
case 0x1c:
real_to_real(&ST(code & 7),&tmp);
tmp.exponent ^= 0x8000;
fadd(PST(0),&tmp,&tmp);
real_to_real(&tmp,&ST(0));
return;
case 0x1d:
ST(0).exponent ^= 0x8000;
fadd(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(0));
return;
case 0x1e:
fdiv(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(0));
return;
case 0x1f:
fdiv(PST(code & 7),PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return;
case 0x38:
fpush();
ST(0) = ST((code & 7)+1);
return;
case 0x39:
fxchg(&ST(0),&ST(code & 7));
return;
case 0x3b:
ST(code & 7) = ST(0);
fpop();
return;
case 0x98:
fadd(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
return;
case 0x99:
fmul(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
return;
case 0x9a:
fcom(PST(code & 7),PST(0));
return;
case 0x9b:
fcom(PST(code & 7),PST(0));
fpop();
return;
case 0x9c:
ST(code & 7).exponent ^= 0x8000;
fadd(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
return;
case 0x9d:
real_to_real(&ST(0),&tmp);
tmp.exponent ^= 0x8000;
fadd(PST(code & 7),&tmp,&tmp);
real_to_real(&tmp,&ST(code & 7));
return;
case 0x9e:
fdiv(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
return;
case 0x9f:
fdiv(PST(code & 7),PST(0),&tmp);
real_to_real(&tmp,&ST(code & 7));
return;
case 0xb8:
printk("ffree not implemented\n\r");
math_abort(info,1<<(SIGILL-1));
case 0xb9:
fxchg(&ST(0),&ST(code & 7));
return;
case 0xba:
ST(code & 7) = ST(0);
return;
case 0xbb:
ST(code & 7) = ST(0);
fpop();
return;
case 0xbc:
fucom(PST(code & 7),PST(0));
return;
case 0xbd:
fucom(PST(code & 7),PST(0));
fpop();
return;
case 0xd8:
fadd(PST(code & 7),PST(0),&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return;
case 0xd9:
fmul(PST(code & 7),PST(0),&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return;
case 0xda:
fcom(PST(code & 7),PST(0));
fpop();
return;
case 0xdc:
ST(code & 7).exponent ^= 0x8000;
fadd(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return;
case 0xdd:
real_to_real(&ST(0),&tmp);
tmp.exponent ^= 0x8000;
fadd(PST(code & 7),&tmp,&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return;
case 0xde:
fdiv(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return;
case 0xdf:
fdiv(PST(code & 7),PST(0),&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return;
case 0xf8:
printk("ffree not implemented\n\r");
math_abort(info,1<<(SIGILL-1));
fpop();
return;
case 0xf9:
fxchg(&ST(0),&ST(code & 7));
return;
case 0xfa:
case 0xfb:
ST(code & 7) = ST(0);
fpop();
return;
}
switch ((code>>3) & 0xe7) {
case 0x22:
put_short_real(PST(0),info,code);
return;
case 0x23:
put_short_real(PST(0),info,code);
fpop();
return;
case 0x24:
address = ea(info,code);
for (code = 0 ; code < 7 ; code++) {
((long *) & I387)[code] =
get_fs_long((unsigned long *) address);
address += 4;
}
return;
case 0x25:
address = ea(info,code);
*(unsigned short *) &I387.cwd =
get_fs_word((unsigned short *) address);
return;
case 0x26:
address = ea(info,code);
verify_area(address,28);
for (code = 0 ; code < 7 ; code++) {
put_fs_long( ((long *) & I387)[code],
(unsigned long *) address);
address += 4;
}
return;
case 0x27:
address = ea(info,code);
verify_area(address,2);
put_fs_word(I387.cwd,(short *) address);
return;
case 0x62:
put_long_int(PST(0),info,code);
return;
case 0x63:
put_long_int(PST(0),info,code);
fpop();
return;
case 0x65:
fpush();
get_temp_real(&tmp,info,code);
real_to_real(&tmp,&ST(0));
return;
case 0x67:
put_temp_real(PST(0),info,code);
fpop();
return;
case 0xa2:
put_long_real(PST(0),info,code);
return;
case 0xa3:
put_long_real(PST(0),info,code);
fpop();
return;
case 0xa4:
address = ea(info,code);
for (code = 0 ; code < 27 ; code++) {
((long *) & I387)[code] =
get_fs_long((unsigned long *) address);
address += 4;
}
return;
case 0xa6:
address = ea(info,code);
verify_area(address,108);
for (code = 0 ; code < 27 ; code++) {
put_fs_long( ((long *) & I387)[code],
(unsigned long *) address);
address += 4;
}
I387.cwd = 0x037f;
I387.swd = 0x0000;
I387.twd = 0x0000;
return;
case 0xa7:
address = ea(info,code);
verify_area(address,2);
put_fs_word(I387.swd,(short *) address);
return;
case 0xe2:
put_short_int(PST(0),info,code);
return;
case 0xe3:
put_short_int(PST(0),info,code);
fpop();
return;
case 0xe4:
fpush();
get_BCD(&tmp,info,code);
real_to_real(&tmp,&ST(0));
return;
case 0xe5:
fpush();
get_longlong_int(&tmp,info,code);
real_to_real(&tmp,&ST(0));
return;
case 0xe6:
put_BCD(PST(0),info,code);
fpop();
return;
case 0xe7:
put_longlong_int(PST(0),info,code);
fpop();
return;
}
switch (code >> 9) {
case 0:
get_short_real(&tmp,info,code);
break;
case 1:
get_long_int(&tmp,info,code);
break;
case 2:
get_long_real(&tmp,info,code);
break;
case 4:
get_short_int(&tmp,info,code);
}
switch ((code>>3) & 0x27) {
case 0:
fadd(&tmp,PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return;
case 1:
fmul(&tmp,PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return;
case 2:
fcom(&tmp,PST(0));
return;
case 3:
fcom(&tmp,PST(0));
fpop();
return;
case 4:
tmp.exponent ^= 0x8000;
fadd(&tmp,PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return;
case 5:
ST(0).exponent ^= 0x8000;
fadd(&tmp,PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return;
case 6:
fdiv(PST(0),&tmp,&tmp);
real_to_real(&tmp,&ST(0));
return;
case 7:
fdiv(&tmp,PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return;
}
if ((code & 0x138) == 0x100) {
fpush();
real_to_real(&tmp,&ST(0));
return;
}
printk("Unknown math-insns: %04x:%08x %04x\n\r",CS,EIP,code);
math_abort(info,1<<(SIGFPE-1));
}
static int
math_emulate(struct trapframe * info)
{
unsigned short code;
temp_real tmp;
char * address;
u_long oldeip;
/* ever used fp? */
if ((((struct pcb *)curproc->p_addr)->pcb_flags & FP_SOFTFP) == 0) {
((struct pcb *)curproc->p_addr)->pcb_flags |= FP_SOFTFP;
I387.cwd = 0x037f;
I387.swd = 0x0000;
I387.twd = 0x0000;
}
if (I387.cwd & I387.swd & 0x3f)
I387.swd |= 0x8000;
else
I387.swd &= 0x7fff;
oldeip = info->tf_eip;
/* 0x001f means user code space */
if ((u_short)info->tf_cs != 0x001F) {
printf("math_emulate: %04x:%08lx\n", (u_short)info->tf_cs,
oldeip);
panic("?Math emulation needed in kernel?");
}
code = get_fs_word((unsigned short *) oldeip);
bswapw(code);
code &= 0x7ff;
I387.fip = oldeip;
*(unsigned short *) &I387.fcs = (u_short) info->tf_cs;
*(1+(unsigned short *) &I387.fcs) = code;
info->tf_eip += 2;
switch (code) {
case 0x1d0: /* fnop */
return(0);
case 0x1d1: case 0x1d2: case 0x1d3: /* fst to 32-bit mem */
case 0x1d4: case 0x1d5: case 0x1d6: case 0x1d7:
math_abort(info,SIGILL);
case 0x1e0: /* fchs */
ST(0).exponent ^= 0x8000;
return(0);
case 0x1e1: /* fabs */
ST(0).exponent &= 0x7fff;
return(0);
case 0x1e2: case 0x1e3:
math_abort(info,SIGILL);
case 0x1e4: /* ftst */
ftst(PST(0));
return(0);
case 0x1e5: /* fxam */
printf("fxam not implemented\n");
math_abort(info,SIGILL);
case 0x1e6: case 0x1e7: /* fldenv */
math_abort(info,SIGILL);
case 0x1e8: /* fld1 */
fpush();
ST(0) = CONST1;
return(0);
case 0x1e9: /* fld2t */
fpush();
ST(0) = CONSTL2T;
return(0);
case 0x1ea: /* fld2e */
fpush();
ST(0) = CONSTL2E;
return(0);
case 0x1eb: /* fldpi */
fpush();
ST(0) = CONSTPI;
return(0);
case 0x1ec: /* fldlg2 */
fpush();
ST(0) = CONSTLG2;
return(0);
case 0x1ed: /* fldln2 */
fpush();
ST(0) = CONSTLN2;
return(0);
case 0x1ee: /* fldz */
fpush();
ST(0) = CONSTZ;
return(0);
case 0x1ef:
math_abort(info,SIGILL);
case 0x1f0: /* f2xm1 */
case 0x1f1: /* fyl2x */
case 0x1f2: /* fptan */
case 0x1f3: /* fpatan */
case 0x1f4: /* fxtract */
case 0x1f5: /* fprem1 */
case 0x1f6: /* fdecstp */
case 0x1f7: /* fincstp */
case 0x1f8: /* fprem */
case 0x1f9: /* fyl2xp1 */
case 0x1fa: /* fsqrt */
case 0x1fb: /* fsincos */
case 0x1fe: /* fsin */
case 0x1ff: /* fcos */
uprintf(
"math_emulate: instruction %04x not implemented\n",
code + 0xd800);
math_abort(info,SIGILL);
case 0x1fc: /* frndint */
frndint(PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 0x1fd: /* fscale */
/* incomplete and totally inadequate -wfj */
Fscale(PST(0), PST(1), &tmp);
real_to_real(&tmp,&ST(0));
return(0); /* 19 Sep 92*/
case 0x2e9: /* ????? */
/* if this should be a fucomp ST(0),ST(1) , it must be a 0x3e9 ATS */
fucom(PST(1),PST(0));
fpop(); fpop();
return(0);
case 0x3d0: case 0x3d1: /* fist ?? */
return(0);
case 0x3e2: /* fclex */
I387.swd &= 0x7f00;
return(0);
case 0x3e3: /* fninit */
I387.cwd = 0x037f;
I387.swd = 0x0000;
I387.twd = 0x0000;
return(0);
case 0x3e4:
return(0);
case 0x6d9: /* fcompp */
fcom(PST(1),PST(0));
fpop(); fpop();
return(0);
case 0x7e0: /* fstsw ax */
*(short *) &info->tf_eax = I387.swd;
return(0);
}
switch (code >> 3) {
case 0x18: /* fadd */
fadd(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 0x19: /* fmul */
fmul(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 0x1a: /* fcom */
fcom(PST(code & 7),PST(0));
return(0);
case 0x1b: /* fcomp */
fcom(PST(code & 7),PST(0));
fpop();
return(0);
case 0x1c: /* fsubr */
real_to_real(&ST(code & 7),&tmp);
tmp.exponent ^= 0x8000;
fadd(PST(0),&tmp,&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 0x1d: /* fsub */
ST(0).exponent ^= 0x8000;
fadd(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 0x1e: /* fdivr */
fdiv(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 0x1f: /* fdiv */
fdiv(PST(code & 7),PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 0x38: /* fld */
fpush();
ST(0) = ST((code & 7)+1); /* why plus 1 ????? ATS */
return(0);
case 0x39: /* fxch */
fxchg(&ST(0),&ST(code & 7));
return(0);
case 0x3b: /* ??? ??? wrong ???? ATS */
ST(code & 7) = ST(0);
fpop();
return(0);
case 0x98: /* fadd */
fadd(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
return(0);
case 0x99: /* fmul */
fmul(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
return(0);
case 0x9a: /* ???? , my manual don't list a direction bit
for fcom , ??? ATS */
fcom(PST(code & 7),PST(0));
return(0);
case 0x9b: /* same as above , ATS */
fcom(PST(code & 7),PST(0));
fpop();
return(0);
case 0x9c: /* fsubr */
ST(code & 7).exponent ^= 0x8000;
fadd(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
return(0);
case 0x9d: /* fsub */
real_to_real(&ST(0),&tmp);
tmp.exponent ^= 0x8000;
fadd(PST(code & 7),&tmp,&tmp);
real_to_real(&tmp,&ST(code & 7));
return(0);
case 0x9e: /* fdivr */
fdiv(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
return(0);
case 0x9f: /* fdiv */
fdiv(PST(code & 7),PST(0),&tmp);
real_to_real(&tmp,&ST(code & 7));
return(0);
case 0xb8: /* ffree */
printf("ffree not implemented\n");
math_abort(info,SIGILL);
case 0xb9: /* fstp ???? where is the pop ? ATS */
fxchg(&ST(0),&ST(code & 7));
return(0);
case 0xba: /* fst */
ST(code & 7) = ST(0);
return(0);
case 0xbb: /* ????? encoding of fstp to mem ? ATS */
ST(code & 7) = ST(0);
fpop();
return(0);
case 0xbc: /* fucom */
fucom(PST(code & 7),PST(0));
return(0);
case 0xbd: /* fucomp */
fucom(PST(code & 7),PST(0));
fpop();
return(0);
case 0xd8: /* faddp */
fadd(PST(code & 7),PST(0),&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return(0);
case 0xd9: /* fmulp */
fmul(PST(code & 7),PST(0),&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return(0);
case 0xda: /* ??? encoding of ficom with 16 bit mem ? ATS */
fcom(PST(code & 7),PST(0));
fpop();
return(0);
case 0xdc: /* fsubrp */
ST(code & 7).exponent ^= 0x8000;
fadd(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return(0);
case 0xdd: /* fsubp */
real_to_real(&ST(0),&tmp);
tmp.exponent ^= 0x8000;
fadd(PST(code & 7),&tmp,&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return(0);
case 0xde: /* fdivrp */
fdiv(PST(0),PST(code & 7),&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return(0);
case 0xdf: /* fdivp */
fdiv(PST(code & 7),PST(0),&tmp);
real_to_real(&tmp,&ST(code & 7));
fpop();
return(0);
case 0xf8: /* fild 16-bit mem ???? ATS */
printf("ffree not implemented\n");
math_abort(info,SIGILL);
fpop();
return(0);
case 0xf9: /* ????? ATS */
fxchg(&ST(0),&ST(code & 7));
return(0);
case 0xfa: /* fist 16-bit mem ? ATS */
case 0xfb: /* fistp 16-bit mem ? ATS */
ST(code & 7) = ST(0);
fpop();
return(0);
}
switch ((code>>3) & 0xe7) {
case 0x22:
put_short_real(PST(0),info,code);
return(0);
case 0x23:
put_short_real(PST(0),info,code);
fpop();
return(0);
case 0x24:
address = ea(info,code);
for (code = 0 ; code < 7 ; code++) {
((long *) & I387)[code] =
get_fs_long((unsigned long *) address);
address += 4;
}
return(0);
case 0x25:
address = ea(info,code);
*(unsigned short *) &I387.cwd =
get_fs_word((unsigned short *) address);
return(0);
case 0x26:
address = ea(info,code);
/*verify_area(address,28);*/
for (code = 0 ; code < 7 ; code++) {
put_fs_long( ((long *) & I387)[code],
(unsigned long *) address);
address += 4;
}
return(0);
case 0x27:
address = ea(info,code);
/*verify_area(address,2);*/
put_fs_word(I387.cwd,(short *) address);
return(0);
case 0x62:
put_long_int(PST(0),info,code);
return(0);
case 0x63:
put_long_int(PST(0),info,code);
fpop();
return(0);
case 0x65:
fpush();
get_temp_real(&tmp,info,code);
real_to_real(&tmp,&ST(0));
return(0);
case 0x67:
put_temp_real(PST(0),info,code);
fpop();
return(0);
case 0xa2:
put_long_real(PST(0),info,code);
return(0);
case 0xa3:
put_long_real(PST(0),info,code);
fpop();
return(0);
case 0xa4:
address = ea(info,code);
for (code = 0 ; code < 27 ; code++) {
((long *) & I387)[code] =
get_fs_long((unsigned long *) address);
address += 4;
}
return(0);
case 0xa6:
address = ea(info,code);
/*verify_area(address,108);*/
for (code = 0 ; code < 27 ; code++) {
put_fs_long( ((long *) & I387)[code],
(unsigned long *) address);
address += 4;
}
I387.cwd = 0x037f;
I387.swd = 0x0000;
I387.twd = 0x0000;
return(0);
case 0xa7:
address = ea(info,code);
/*verify_area(address,2);*/
put_fs_word(I387.swd,(short *) address);
return(0);
case 0xe2:
put_short_int(PST(0),info,code);
return(0);
case 0xe3:
put_short_int(PST(0),info,code);
fpop();
return(0);
case 0xe4:
fpush();
get_BCD(&tmp,info,code);
real_to_real(&tmp,&ST(0));
return(0);
case 0xe5:
fpush();
get_longlong_int(&tmp,info,code);
real_to_real(&tmp,&ST(0));
return(0);
case 0xe6:
put_BCD(PST(0),info,code);
fpop();
return(0);
case 0xe7:
put_longlong_int(PST(0),info,code);
fpop();
return(0);
}
switch (code >> 9) {
case 0:
get_short_real(&tmp,info,code);
break;
case 1:
get_long_int(&tmp,info,code);
break;
case 2:
get_long_real(&tmp,info,code);
break;
case 4:
get_short_int(&tmp,info,code);
}
switch ((code>>3) & 0x27) {
case 0:
fadd(&tmp,PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 1:
fmul(&tmp,PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 2:
fcom(&tmp,PST(0));
return(0);
case 3:
fcom(&tmp,PST(0));
fpop();
return(0);
case 4:
tmp.exponent ^= 0x8000;
fadd(&tmp,PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 5:
ST(0).exponent ^= 0x8000;
fadd(&tmp,PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 6:
fdiv(PST(0),&tmp,&tmp);
real_to_real(&tmp,&ST(0));
return(0);
case 7:
fdiv(&tmp,PST(0),&tmp);
real_to_real(&tmp,&ST(0));
return(0);
}
if ((code & 0x138) == 0x100) {
fpush();
real_to_real(&tmp,&ST(0));
return(0);
}
printf("Unknown math-insns: %04x:%08x %04x\n",(u_short)info->tf_cs,
info->tf_eip,code);
math_abort(info,SIGFPE);
}