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uae-wii/src/compemu_fpp.c
simon.kagstrom 21fae99949 Imported upstream source for E-UAE WIP4
2009-05-05 15:36:48 +00:00

1563 lines
36 KiB
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/*
* UAE - The Un*x Amiga Emulator
*
* MC68881 emulation
*
* Copyright 1996 Herman ten Brugge
* Adapted for JIT compilation (c) Bernd Meyer, 2000
*/
#include <math.h>
#include "sysconfig.h"
#include "sysdeps.h"
#include "options.h"
#include "memory.h"
#include "custom.h"
#include "newcpu.h"
#include "ersatz.h"
#include "md-fpp.h"
#include "compemu.h"
#define MAKE_FPSR(r) do { fmov_rr(FP_RESULT,r); } while (0)
#define delay //nop() ;nop()
#define delay2 //nop() ;nop()
uae_s32 temp_fp[3]; /* To convert between FP/integer */
/* return register number, or -1 for failure */
STATIC_INLINE int get_fp_value (uae_u32 opcode, uae_u16 extra)
{
uaecptr tmppc;
uae_u16 tmp;
int size;
int mode;
int reg;
double* src;
uae_u32 ad = 0;
static int sz1[8] = { 4, 4, 12, 12, 2, 8, 1, 0 };
static int sz2[8] = { 4, 4, 12, 12, 2, 8, 2, 0 };
if ((extra & 0x4000) == 0) {
return (extra >> 10) & 7;
}
mode = (opcode >> 3) & 7;
reg = opcode & 7;
size = (extra >> 10) & 7;
switch (mode) {
case 0:
switch (size) {
case 6:
sign_extend_8_rr(S1,reg);
mov_l_mr((uae_u32)temp_fp,S1);
delay2;
fmovi_rm(FS1,(uae_u32)temp_fp);
return FS1;
case 4:
sign_extend_16_rr(S1,reg);
mov_l_mr((uae_u32)temp_fp,S1);
delay2;
fmovi_rm(FS1,(uae_u32)temp_fp);
return FS1;
case 0:
mov_l_mr((uae_u32)temp_fp,reg);
delay2;
fmovi_rm(FS1,(uae_u32)temp_fp);
return FS1;
case 1:
mov_l_mr((uae_u32)temp_fp,reg);
delay2;
fmovs_rm(FS1,(uae_u32)temp_fp);
return FS1;
default:
return -1;
}
return -1; /* Should be unreachable */
case 1:
return -1; /* Genuine invalid instruction */
default:
break;
}
/* OK, we *will* have to load something from an address. Let's make
sure we know how to handle that, or quit early --- i.e. *before*
we do any postincrement/predecrement that we may regret */
switch (size) {
case 3:
return -1;
case 0:
case 1:
case 2:
case 4:
case 5:
case 6:
break;
default:
return -1;
}
switch (mode) {
case 2:
ad=S1; /* We will change it, anyway ;-) */
mov_l_rr(ad,reg+8);
break;
case 3:
ad=S1;
mov_l_rr(ad,reg+8);
lea_l_brr(reg+8,reg+8,(reg == 7?sz2[size]:sz1[size]));
break;
case 4:
ad=S1;
lea_l_brr(reg+8,reg+8,-(reg == 7?sz2[size]:sz1[size]));
mov_l_rr(ad,reg+8);
break;
case 5:
{
uae_u32 off=(uae_s32)(uae_s16)comp_get_iword((m68k_pc_offset+=2)-2);
ad=S1;
mov_l_rr(ad,reg+8);
lea_l_brr(ad,ad,off);
break;
}
case 6:
{
uae_u32 dp=comp_get_iword((m68k_pc_offset+=2)-2);
ad=S1;
calc_disp_ea_020(reg+8,dp,ad,S2);
break;
}
case 7:
switch (reg) {
case 0:
{
uae_u32 off=(uae_s32)(uae_s16)comp_get_iword((m68k_pc_offset+=2)-2);
ad=S1;
mov_l_ri(ad,off);
break;
}
case 1:
{
uae_u32 off=comp_get_ilong((m68k_pc_offset+=4)-4);
ad=S1;
mov_l_ri(ad,off);
break;
}
case 2:
{
uae_u32 address=start_pc+((char *)comp_pc_p-(char *)start_pc_p)+
m68k_pc_offset;
uae_s32 PC16off =(uae_s32)(uae_s16)comp_get_iword((m68k_pc_offset+=2)-2);
ad=S1;
mov_l_ri(ad,address+PC16off);
break;
}
case 3:
return -1;
tmppc = m68k_getpc (&regs);
tmp = next_iword (&regs);
ad = get_disp_ea_020 (&regs, tmppc, tmp);
break;
case 4:
{
uae_u32 address=start_pc+((char *)comp_pc_p-(char *)start_pc_p)+
m68k_pc_offset;
ad=S1;
if (size == 6)
address++;
mov_l_ri(ad,address);
m68k_pc_offset+=sz2[size];
break;
}
default:
return -1;
}
}
switch (size) {
case 0:
readlong(ad,S2,S3);
mov_l_mr((uae_u32)temp_fp,S2);
delay2;
fmovi_rm(FS1,(uae_u32)temp_fp);
break;
case 1:
readlong(ad,S2,S3);
mov_l_mr((uae_u32)temp_fp,S2);
delay2;
fmovs_rm(FS1,(uae_u32)temp_fp);
break;
case 2:
readword(ad,S2,S3);
mov_w_mr(((uae_u32)temp_fp)+8,S2);
add_l_ri(ad,4);
readlong(ad,S2,S3);
mov_l_mr((uae_u32)(temp_fp)+4,S2);
add_l_ri(ad,4);
readlong(ad,S2,S3);
mov_l_mr((uae_u32)(temp_fp),S2);
delay2;
fmov_ext_rm(FS1,(uae_u32)(temp_fp));
break;
case 3:
return -1; /* Some silly "packed" stuff */
case 4:
readword(ad,S2,S3);
sign_extend_16_rr(S2,S2);
mov_l_mr((uae_u32)temp_fp,S2);
delay2;
fmovi_rm(FS1,(uae_u32)temp_fp);
break;
case 5:
readlong(ad,S2,S3);
mov_l_mr(((uae_u32)temp_fp)+4,S2);
add_l_ri(ad,4);
readlong(ad,S2,S3);
mov_l_mr((uae_u32)(temp_fp),S2);
delay2;
fmov_rm(FS1,(uae_u32)(temp_fp));
break;
case 6:
readbyte(ad,S2,S3);
sign_extend_8_rr(S2,S2);
mov_l_mr((uae_u32)temp_fp,S2);
delay2;
fmovi_rm(FS1,(uae_u32)temp_fp);
break;
default:
return -1;
}
return FS1;
}
/* return of -1 means failure, >=0 means OK */
STATIC_INLINE int put_fp_value (int val, uae_u32 opcode, uae_u16 extra)
{
uae_u16 tmp;
uaecptr tmppc;
int size;
int mode;
int reg;
uae_u32 ad;
static int sz1[8] = { 4, 4, 12, 12, 2, 8, 1, 0 };
static int sz2[8] = { 4, 4, 12, 12, 2, 8, 2, 0 };
if ((extra & 0x4000) == 0) {
fmov_rr((extra>>10)&7,val);
return 0;
}
mode = (opcode >> 3) & 7;
reg = opcode & 7;
size = (extra >> 10) & 7;
ad = -1;
switch (mode) {
case 0:
switch (size) {
case 6:
fmovi_mr((uae_u32)temp_fp,val);
delay;
mov_b_rm(reg,(uae_u32)temp_fp);
return 0;
case 4:
fmovi_mr((uae_u32)temp_fp,val);
delay;
mov_w_rm(reg,(uae_u32)temp_fp);
return 0;
case 0:
fmovi_mr((uae_u32)temp_fp,val);
delay;
mov_l_rm(reg,(uae_u32)temp_fp);
return 0;
case 1:
fmovs_mr((uae_u32)temp_fp,val);
delay;
mov_l_rm(reg,(uae_u32)temp_fp);
return 0;
default:
return -1;
}
case 1:
return -1; /* genuine invalid instruction */
default: break;
}
/* Let's make sure we get out *before* doing something silly if
we can't handle the size */
switch (size) {
case 0:
case 4:
case 5:
case 6:
case 2:
case 1:
break;
case 3:
default:
return -1;
}
switch (mode) {
case 2:
ad=S1;
mov_l_rr(ad,reg+8);
break;
case 3:
ad=S1;
mov_l_rr(ad,reg+8);
lea_l_brr(reg+8,reg+8,(reg == 7?sz2[size]:sz1[size]));
break;
case 4:
ad=S1;
lea_l_brr(reg+8,reg+8,-(reg == 7?sz2[size]:sz1[size]));
mov_l_rr(ad,reg+8);
break;
case 5:
{
uae_u32 off=(uae_s32)(uae_s16)comp_get_iword((m68k_pc_offset+=2)-2);
ad=S1;
mov_l_rr(ad,reg+8);
add_l_ri(ad,off);
break;
}
case 6:
{
uae_u32 dp=comp_get_iword((m68k_pc_offset+=2)-2);
ad=S1;
calc_disp_ea_020(reg+8,dp,ad,S2);
break;
}
case 7:
switch (reg) {
case 0:
{
uae_u32 off=(uae_s32)(uae_s16)comp_get_iword((m68k_pc_offset+=2)-2);
ad=S1;
mov_l_ri(ad,off);
break;
}
case 1:
{
uae_u32 off=comp_get_ilong((m68k_pc_offset+=4)-4);
ad=S1;
mov_l_ri(ad,off);
break;
}
case 2:
{
uae_u32 address=start_pc+((char *)comp_pc_p-(char *)start_pc_p)+
m68k_pc_offset;
uae_s32 PC16off =(uae_s32)(uae_s16)comp_get_iword((m68k_pc_offset+=2)-2);
ad=S1;
mov_l_ri(ad,address+PC16off);
break;
}
case 3:
return -1;
tmppc = m68k_getpc (&regs);
tmp = next_iword (&regs);
ad = get_disp_ea_020 (&regs,tmppc, tmp);
break;
case 4:
{
uae_u32 address=start_pc+((char *)comp_pc_p-(char *)start_pc_p)+
m68k_pc_offset;
ad=S1;
mov_l_ri(ad,address);
m68k_pc_offset+=sz2[size];
break;
}
default:
return -1;
}
}
switch (size) {
case 0:
fmovi_mr((uae_u32)temp_fp,val);
delay;
mov_l_rm(S2,(uae_u32)temp_fp);
writelong_clobber(ad,S2,S3);
break;
case 1:
fmovs_mr((uae_u32)temp_fp,val);
delay;
mov_l_rm(S2,(uae_u32)temp_fp);
writelong_clobber(ad,S2,S3);
break;
case 2:
fmov_ext_mr((uae_u32)temp_fp,val);
delay;
mov_w_rm(S2,(uae_u32)temp_fp+8);
writeword_clobber(ad,S2,S3);
add_l_ri(ad,4);
mov_l_rm(S2,(uae_u32)temp_fp+4);
writelong_clobber(ad,S2,S3);
add_l_ri(ad,4);
mov_l_rm(S2,(uae_u32)temp_fp);
writelong_clobber(ad,S2,S3);
break;
case 3: return -1; /* Packed */
case 4:
fmovi_mr((uae_u32)temp_fp,val);
delay;
mov_l_rm(S2,(uae_u32)temp_fp);
writeword_clobber(ad,S2,S3);
break;
case 5:
fmov_mr((uae_u32)temp_fp,val);
delay;
mov_l_rm(S2,(uae_u32)temp_fp+4);
writelong_clobber(ad,S2,S3);
add_l_ri(ad,4);
mov_l_rm(S2,(uae_u32)temp_fp);
writelong_clobber(ad,S2,S3);
break;
case 6:
fmovi_mr((uae_u32)temp_fp,val);
delay;
mov_l_rm(S2,(uae_u32)temp_fp);
writebyte(ad,S2,S3);
break;
default:
return -1;
}
return 0;
}
/* return -1 for failure, or register number for success */
STATIC_INLINE int get_fp_ad (uae_u32 opcode, uae_u32 * ad)
{
uae_u16 tmp;
uaecptr tmppc;
int mode;
int reg;
uae_s32 off;
mode = (opcode >> 3) & 7;
reg = opcode & 7;
switch (mode) {
case 0:
case 1:
return -1;
case 2:
case 3:
case 4:
mov_l_rr(S1,8+reg);
return S1;
*ad = m68k_areg (&regs, reg);
break;
case 5:
off=(uae_s32)(uae_s16)comp_get_iword((m68k_pc_offset+=2)-2);
mov_l_rr(S1,8+reg);
add_l_ri(S1,off);
return S1;
case 6:
return -1;
break;
case 7:
switch (reg) {
case 0:
off=(uae_s32)(uae_s16)comp_get_iword((m68k_pc_offset+=2)-2);
mov_l_ri(S1,off);
return S1;
case 1:
off=comp_get_ilong((m68k_pc_offset+=4)-4);
mov_l_ri(S1,off);
return S1;
case 2:
return -1;
*ad = m68k_getpc (&regs);
*ad += (uae_s32) (uae_s16) next_iword (&regs);
break;
case 3:
return -1;
tmppc = m68k_getpc (&regs);
tmp = next_iword (&regs);
*ad = get_disp_ea_020 (&regs, tmppc, tmp);
break;
default:
return -1;
}
}
abort();
}
void comp_fdbcc_opp (uae_u32 opcode, uae_u16 extra)
{
FAIL(1);
return;
if (!currprefs.compfpu) {
FAIL(1);
return;
}
}
void comp_fscc_opp (uae_u32 opcode, uae_u16 extra)
{
uae_u32 ad;
int cc;
int reg;
if (!currprefs.compfpu) {
FAIL(1);
return;
}
#if DEBUG_FPP
write_log ("fscc_opp at %08lx\n", m68k_getpc (&regs));
flush_log ();
#endif
if (extra&0x20) { /* only cc from 00 to 1f are defined */
FAIL(1);
return;
}
if ((opcode & 0x38) != 0) { /* We can only do to integer register */
FAIL(1);
return;
}
fflags_into_flags(S2);
reg=(opcode&7);
mov_l_ri(S1,255);
mov_l_ri(S4,0);
switch(extra&0x0f) { /* according to fpp.c, the 0x10 bit is ignored
*/
case 0: break; /* set never */
case 1: mov_l_rr(S2,S4);
cmov_l_rr(S4,S1,4);
cmov_l_rr(S4,S2,10); break;
case 2: cmov_l_rr(S4,S1,7); break;
case 3: cmov_l_rr(S4,S1,3); break;
case 4: mov_l_rr(S2,S4);
cmov_l_rr(S4,S1,2);
cmov_l_rr(S4,S2,10); break;
case 5: mov_l_rr(S2,S4);
cmov_l_rr(S4,S1,6);
cmov_l_rr(S4,S2,10); break;
case 6: cmov_l_rr(S4,S1,5); break;
case 7: cmov_l_rr(S4,S1,11); break;
case 8: cmov_l_rr(S4,S1,10); break;
case 9: cmov_l_rr(S4,S1,4); break;
case 10: cmov_l_rr(S4,S1,10); cmov_l_rr(S4,S1,7); break;
case 11: cmov_l_rr(S4,S1,4); cmov_l_rr(S4,S1,3); break;
case 12: cmov_l_rr(S4,S1,2); break;
case 13: cmov_l_rr(S4,S1,6); break;
case 14: cmov_l_rr(S4,S1,5); cmov_l_rr(S4,S1,10); break;
case 15: mov_l_rr(S4,S1); break;
}
if ((opcode & 0x38) == 0) {
mov_b_rr(reg,S4);
} else {
abort();
if (get_fp_ad (opcode, &ad) == 0) {
m68k_setpc (&regs, m68k_getpc (&regs) - 4);
op_illg (opcode, &regs);
} else
put_byte (ad, cc ? 0xff : 0x00);
}
}
void comp_ftrapcc_opp (uae_u32 opcode, uaecptr oldpc)
{
int cc;
FAIL(1);
return;
}
extern unsigned long foink3, oink;
void comp_fbcc_opp (uae_u32 opcode)
{
uae_u32 start_68k_offset=m68k_pc_offset;
uae_u32 off;
uae_u32 v1;
uae_u32 v2;
uae_u32 nh;
int cc;
if (!currprefs.compfpu) {
FAIL(1);
return;
}
if (opcode&0x20) { /* only cc from 00 to 1f are defined */
FAIL(1);
return;
}
if ((opcode&0x40)==0) {
off=(uae_s32)(uae_s16)comp_get_iword((m68k_pc_offset+=2)-2);
}
else {
off=comp_get_ilong((m68k_pc_offset+=4)-4);
}
mov_l_ri(S1,(uae_u32)
(comp_pc_p+off-(m68k_pc_offset-start_68k_offset)));
mov_l_ri(PC_P,(uae_u32)comp_pc_p);
/* Now they are both constant. Might as well fold in m68k_pc_offset */
add_l_ri(S1,m68k_pc_offset);
add_l_ri(PC_P,m68k_pc_offset);
m68k_pc_offset=0;
/* according to fpp.c, the 0x10 bit is ignored
(it handles exception handling, which we don't
do, anyway ;-) */
cc=opcode&0x0f;
v1=get_const(PC_P);
v2=get_const(S1);
fflags_into_flags(S2);
// mov_l_mi((uae_u32)&foink3,cc);
switch(cc) {
case 0: break; /* jump never */
case 1:
mov_l_rr(S2,PC_P);
cmov_l_rr(PC_P,S1,4);
cmov_l_rr(PC_P,S2,10); break;
case 2: register_branch(v1,v2,7); break;
case 3: register_branch(v1,v2,3); break;
case 4:
mov_l_rr(S2,PC_P);
cmov_l_rr(PC_P,S1,2);
cmov_l_rr(PC_P,S2,10); break;
case 5:
mov_l_rr(S2,PC_P);
cmov_l_rr(PC_P,S1,6);
cmov_l_rr(PC_P,S2,10); break;
case 6: register_branch(v1,v2,5); break;
case 7: register_branch(v1,v2,11); break;
case 8: register_branch(v1,v2,10); break;
case 9: register_branch(v1,v2,4); break;
case 10:
cmov_l_rr(PC_P,S1,10);
cmov_l_rr(PC_P,S1,7); break;
case 11:
cmov_l_rr(PC_P,S1,4);
cmov_l_rr(PC_P,S1,3); break;
case 12: register_branch(v1,v2,2); break;
case 13: register_branch(v1,v2,6); break;
case 14:
cmov_l_rr(PC_P,S1,5);
cmov_l_rr(PC_P,S1,10); break;
case 15: mov_l_rr(PC_P,S1); break;
}
}
/* Floating point conditions
The "NotANumber" part could be problematic; Howver, when NaN is
encountered, the ftst instruction sets bot N and Z to 1 on the x87,
so quite often things just fall into place. This is probably not
accurate wrt the 68k FPU, but it is *as* accurate as this was before.
However, some more thought should go into fixing this stuff up so
it accurately emulates the 68k FPU.
>=<U
0000 0x00: 0 --- Never jump
0101 0x01: Z --- jump if zero (x86: 4)
1000 0x02: !(NotANumber || Z || N) --- Neither Z nor N set (x86: 7)
1101 0x03: Z || !(NotANumber || N); --- Z or !N (x86: 4 and 3)
0010 0x04: N && !(NotANumber || Z); --- N and !Z (x86: hard!)
0111 0x05: Z || (N && !NotANumber); --- Z or N (x86: 6)
1010 0x06: !(NotANumber || Z); --- not Z (x86: 5)
1110 0x07: !NotANumber; --- not NaN (x86: 11, not parity)
0001 0x08: NotANumber; --- NaN (x86: 10)
0101 0x09: NotANumber || Z; --- Z (x86: 4)
1001 0x0a: NotANumber || !(N || Z); --- NaN or neither N nor Z (x86: 10 and 7)
1101 0x0b: NotANumber || Z || !N; --- Z or !N (x86: 4 and 3)
0011 0x0c: NotANumber || (N && !Z); --- N (x86: 2)
0111 0x0d: NotANumber || Z || N; --- Z or N (x86: 6)
1010 0x0e: !Z; --- not Z (x86: 5)
1111 0x0f: 1; --- always
This is not how the 68k handles things, though --- it sets Z to 0 and N
to the NaN's sign.... ('o' and 'i' denote differences from the above
table)
>=<U
0000 0x00: 0 --- Never jump
010o 0x01: Z --- jump if zero (x86: 4, not 10)
1000 0x02: !(NotANumber || Z || N) --- Neither Z nor N set (x86: 7)
110o 0x03: Z || !(NotANumber || N); --- Z or !N (x86: 3)
0010 0x04: N && !(NotANumber || Z); --- N and !Z (x86: 2, not 10)
011o 0x05: Z || (N && !NotANumber); --- Z or N (x86: 6, not 10)
1010 0x06: !(NotANumber || Z); --- not Z (x86: 5)
1110 0x07: !NotANumber; --- not NaN (x86: 11, not parity)
0001 0x08: NotANumber; --- NaN (x86: 10)
0101 0x09: NotANumber || Z; --- Z (x86: 4)
1001 0x0a: NotANumber || !(N || Z); --- NaN or neither N nor Z (x86: 10 and 7)
1101 0x0b: NotANumber || Z || !N; --- Z or !N (x86: 4 and 3)
0011 0x0c: NotANumber || (N && !Z); --- N (x86: 2)
0111 0x0d: NotANumber || Z || N; --- Z or N (x86: 6)
101i 0x0e: !Z; --- not Z (x86: 5 and 10)
1111 0x0f: 1; --- always
Of course, this *still* doesn't mean that the x86 and 68k conditions are
equivalent --- the handling of infinities is different, for one thing.
On the 68k, +infinity minus +infinity is NotANumber (as it should be). On
the x86, it is +infinity, and some exception is raised (which I suspect
is promptly ignored) STUPID!
The more I learn about their CPUs, the more I detest Intel....
You can see this in action if you have "Benoit" (see Aminet) and
set the exponent to 16. Wait for a long time, and marvel at the extra black
areas outside the center one. That's where Benoit expects NaN, and the x86
gives +infinity. [Ooops --- that must have been some kind of bug in my code.
it no longer happens, and the resulting graphic looks much better, too]
x86 conditions
0011 : 2
1100 : 3
0101 : 4
1010 : 5
0111 : 6
1000 : 7
0001 : 10
1110 : 11
*/
void comp_fsave_opp (uae_u32 opcode)
{
uae_u32 ad;
int incr = (opcode & 0x38) == 0x20 ? -1 : 1;
int i;
FAIL(1);
return;
if (!currprefs.compfpu) {
FAIL(1);
return;
}
#if DEBUG_FPP
write_log ("fsave_opp at %08lx\n", m68k_getpc (&regs));
flush_log ();
#endif
if (get_fp_ad (opcode, &ad) == 0) {
m68k_setpc (&regs, m68k_getpc (&regs) - 2);
op_illg (opcode, &regs);
return;
}
if (currprefs.cpu_level >= 4) {
/* 4 byte 68040 IDLE frame. */
if (incr < 0) {
ad -= 4;
put_long (ad, 0x41000000);
} else {
put_long (ad, 0x41000000);
ad += 4;
}
} else {
if (incr < 0) {
ad -= 4;
put_long (ad, 0x70000000);
for (i = 0; i < 5; i++) {
ad -= 4;
put_long (ad, 0x00000000);
}
ad -= 4;
put_long (ad, 0x1f180000);
} else {
put_long (ad, 0x1f180000);
ad += 4;
for (i = 0; i < 5; i++) {
put_long (ad, 0x00000000);
ad += 4;
}
put_long (ad, 0x70000000);
ad += 4;
}
}
if ((opcode & 0x38) == 0x18)
m68k_areg (&regs, opcode & 7) = ad;
if ((opcode & 0x38) == 0x20)
m68k_areg (&regs, opcode & 7) = ad;
}
void comp_frestore_opp (uae_u32 opcode)
{
uae_u32 ad;
uae_u32 d;
int incr = (opcode & 0x38) == 0x20 ? -1 : 1;
FAIL(1);
return;
if (!currprefs.compfpu) {
FAIL(1);
return;
}
#if DEBUG_FPP
write_log ("frestore_opp at %08lx\n", m68k_getpc (&regs));
flush_log (stdout);
#endif
if (get_fp_ad (opcode, &ad) == 0) {
m68k_setpc (&regs, m68k_getpc (&regs) - 2);
op_illg (opcode, &regs);
return;
}
if (currprefs.cpu_level >= 4) {
/* 68040 */
if (incr < 0) {
/* @@@ This may be wrong. */
ad -= 4;
d = get_long (ad);
if ((d & 0xff000000) != 0) { /* Not a NULL frame? */
if ((d & 0x00ff0000) == 0) { /* IDLE */
} else if ((d & 0x00ff0000) == 0x00300000) { /* UNIMP */
ad -= 44;
} else if ((d & 0x00ff0000) == 0x00600000) { /* BUSY */
ad -= 92;
}
}
} else {
d = get_long (ad);
ad += 4;
if ((d & 0xff000000) != 0) { /* Not a NULL frame? */
if ((d & 0x00ff0000) == 0) { /* IDLE */
} else if ((d & 0x00ff0000) == 0x00300000) { /* UNIMP */
ad += 44;
} else if ((d & 0x00ff0000) == 0x00600000) { /* BUSY */
ad += 92;
}
}
}
} else {
if (incr < 0) {
ad -= 4;
d = get_long (ad);
if ((d & 0xff000000) != 0) {
if ((d & 0x00ff0000) == 0x00180000)
ad -= 6 * 4;
else if ((d & 0x00ff0000) == 0x00380000)
ad -= 14 * 4;
else if ((d & 0x00ff0000) == 0x00b40000)
ad -= 45 * 4;
}
} else {
d = get_long (ad);
ad += 4;
if ((d & 0xff000000) != 0) {
if ((d & 0x00ff0000) == 0x00180000)
ad += 6 * 4;
else if ((d & 0x00ff0000) == 0x00380000)
ad += 14 * 4;
else if ((d & 0x00ff0000) == 0x00b40000)
ad += 45 * 4;
}
}
}
if ((opcode & 0x38) == 0x18)
m68k_areg (&regs, opcode & 7) = ad;
if ((opcode & 0x38) == 0x20)
m68k_areg (&regs, opcode & 7) = ad;
}
static fptype const_e=2.718281828; /* Got some more digits? */
static fptype const_log10_e=0.4342944819;
static fptype const_loge_10=2.302585093;
static fptype power10[]={1e0,1e1,1e2,1e4,1e8,1e16,1e32,1e64,1e128,1e256
#if USE_LONG_DOUBLE
, 1e512, 1e1024, 1e2048, 1e4096
#endif
};
/* 128 words, indexed through the low byte of the 68k fpu control word */
static uae_u16 x86_fpucw[]={
0x137f, 0x137f, 0x137f, 0x137f, 0x137f, 0x137f, 0x137f, 0x137f, /* p0r0 */
0x1f7f, 0x1f7f, 0x1f7f, 0x1f7f, 0x1f7f, 0x1f7f, 0x1f7f, 0x1f7f, /* p0r1 */
0x177f, 0x177f, 0x177f, 0x177f, 0x177f, 0x177f, 0x177f, 0x177f, /* p0r2 */
0x1b7f, 0x1b7f, 0x1b7f, 0x1b7f, 0x1b7f, 0x1b7f, 0x1b7f, 0x1b7f, /* p0r3 */
0x107f, 0x107f, 0x107f, 0x107f, 0x107f, 0x107f, 0x107f, 0x107f, /* p1r0 */
0x1c7f, 0x1c7f, 0x1c7f, 0x1c7f, 0x1c7f, 0x1c7f, 0x1c7f, 0x1c7f, /* p1r1 */
0x147f, 0x147f, 0x147f, 0x147f, 0x147f, 0x147f, 0x147f, 0x147f, /* p1r2 */
0x187f, 0x187f, 0x187f, 0x187f, 0x187f, 0x187f, 0x187f, 0x187f, /* p1r3 */
0x127f, 0x127f, 0x127f, 0x127f, 0x127f, 0x127f, 0x127f, 0x127f, /* p2r0 */
0x1e7f, 0x1e7f, 0x1e7f, 0x1e7f, 0x1e7f, 0x1e7f, 0x1e7f, 0x1e7f, /* p2r1 */
0x167f, 0x167f, 0x167f, 0x167f, 0x167f, 0x167f, 0x167f, 0x167f, /* p2r2 */
0x1a7f, 0x1a7f, 0x1a7f, 0x1a7f, 0x1a7f, 0x1a7f, 0x1a7f, 0x1a7f, /* p2r3 */
0x137f, 0x137f, 0x137f, 0x137f, 0x137f, 0x137f, 0x137f, 0x137f, /* p3r0 */
0x1f7f, 0x1f7f, 0x1f7f, 0x1f7f, 0x1f7f, 0x1f7f, 0x1f7f, 0x1f7f, /* p3r1 */
0x177f, 0x177f, 0x177f, 0x177f, 0x177f, 0x177f, 0x177f, 0x177f, /* p3r2 */
0x1b7f, 0x1b7f, 0x1b7f, 0x1b7f, 0x1b7f, 0x1b7f, 0x1b7f, 0x1b7f /* p3r3 */
};
void comp_fpp_opp (uae_u32 opcode, uae_u16 extra)
{
int reg;
int src;
if (!currprefs.compfpu) {
FAIL(1);
return;
}
switch ((extra >> 13) & 0x7) {
case 3: /* 2nd most common */
if (put_fp_value ((extra >> 7)&7 , opcode, extra) < 0) {
FAIL(1);
return;
}
return;
case 6:
case 7:
{
uae_u32 ad, list = 0;
int incr = 0;
if (extra & 0x2000) {
int ad;
/* FMOVEM FPP->memory */
switch ((extra >> 11) & 3) { /* Get out early if failure */
case 0:
case 2:
break;
case 1:
case 3:
default:
FAIL(1); return;
}
ad=get_fp_ad (opcode, &ad);
if (ad<0) {
FAIL(1);
#if 0
m68k_setpc (&regs, m68k_getpc (&regs) - 4);
op_illg (opcode, &regs);
#endif
return;
}
switch ((extra >> 11) & 3) {
case 0: /* static pred */
list = extra & 0xff;
incr = -1;
break;
case 2: /* static postinc */
list = extra & 0xff;
incr = 1;
break;
case 1: /* dynamic pred */
case 3: /* dynamic postinc */
abort();
}
while (list) {
uae_u32 wrd1, wrd2, wrd3;
if (incr < 0) { /* Predecrement */
fmov_ext_mr((uae_u32)temp_fp,fpp_movem_index2[list]);
delay;
sub_l_ri(ad,4);
mov_l_rm(S2,(uae_u32)temp_fp);
writelong_clobber(ad,S2,S3);
sub_l_ri(ad,4);
mov_l_rm(S2,(uae_u32)temp_fp+4);
writelong_clobber(ad,S2,S3);
sub_l_ri(ad,4);
mov_w_rm(S2,(uae_u32)temp_fp+8);
writeword_clobber(ad,S2,S3);
} else { /* postinc */
fmov_ext_mr((uae_u32)temp_fp,fpp_movem_index2[list]);
delay;
mov_w_rm(S2,(uae_u32)temp_fp+8);
writeword_clobber(ad,S2,S3);
add_l_ri(ad,4);
mov_l_rm(S2,(uae_u32)temp_fp+4);
writelong_clobber(ad,S2,S3);
add_l_ri(ad,4);
mov_l_rm(S2,(uae_u32)temp_fp);
writelong_clobber(ad,S2,S3);
add_l_ri(ad,4);
}
list = fpp_movem_next[list];
}
if ((opcode & 0x38) == 0x18)
mov_l_rr((opcode & 7)+8,ad);
if ((opcode & 0x38) == 0x20)
mov_l_rr((opcode & 7)+8,ad);
} else {
/* FMOVEM memory->FPP */
int ad;
switch ((extra >> 11) & 3) { /* Get out early if failure */
case 0:
case 2:
break;
case 1:
case 3:
default:
FAIL(1); return;
}
ad=get_fp_ad (opcode, &ad);
if (ad<0) {
FAIL(1);
#if 0
m68k_setpc (&regs, m68k_getpc (&regs) - 4);
op_illg (opcode, &regs);
#endif
return;
}
switch ((extra >> 11) & 3) {
case 0: /* static pred */
list = extra & 0xff;
incr = -1;
break;
case 2: /* static postinc */
list = extra & 0xff;
incr = 1;
break;
case 1: /* dynamic pred */
case 3: /* dynamic postinc */
abort();
}
while (list) {
uae_u32 wrd1, wrd2, wrd3;
if (incr < 0) {
sub_l_ri(ad,4);
readlong(ad,S2,S3);
mov_l_mr((uae_u32)(temp_fp),S2);
sub_l_ri(ad,4);
readlong(ad,S2,S3);
mov_l_mr((uae_u32)(temp_fp)+4,S2);
sub_l_ri(ad,4);
readword(ad,S2,S3);
mov_w_mr(((uae_u32)temp_fp)+8,S2);
delay2;
fmov_ext_rm(fpp_movem_index2[list],(uae_u32)(temp_fp));
} else {
readword(ad,S2,S3);
mov_w_mr(((uae_u32)temp_fp)+8,S2);
add_l_ri(ad,4);
readlong(ad,S2,S3);
mov_l_mr((uae_u32)(temp_fp)+4,S2);
add_l_ri(ad,4);
readlong(ad,S2,S3);
mov_l_mr((uae_u32)(temp_fp),S2);
add_l_ri(ad,4);
delay2;
fmov_ext_rm(fpp_movem_index1[list],(uae_u32)(temp_fp));
}
list = fpp_movem_next[list];
}
if ((opcode & 0x38) == 0x18)
mov_l_rr((opcode & 7)+8,ad);
if ((opcode & 0x38) == 0x20)
mov_l_rr((opcode & 7)+8,ad);
}
}
return;
case 4:
case 5: /* rare */
if ((opcode & 0x30) == 0) {
if (extra & 0x2000) {
if (extra & 0x1000) {
mov_l_rm(opcode & 15,(uae_u32)&regs.fpcr); return;
}
if (extra & 0x0800) {
FAIL(1);
return;
}
if (extra & 0x0400) {
mov_l_rm(opcode & 15,(uae_u32)&regs.fpiar); return;
}
} else {
if (extra & 0x1000) {
mov_l_mr((uae_u32)&regs.fpcr,opcode & 15);
#if USE_X86_FPUCW
mov_l_rr(S1,opcode & 15);
and_l_ri(S1,0x000000f0);
fldcw_m_indexed(S1,(uae_u32)x86_fpucw);
#endif
return;
}
if (extra & 0x0800) {
FAIL(1);
return;
// set_fpsr(m68k_dreg (&regs, opcode & 15));
}
if (extra & 0x0400) {
mov_l_mr((uae_u32)&regs.fpiar,opcode & 15); return;
}
}
} else if ((opcode & 0x3f) == 0x3c) {
if ((extra & 0x2000) == 0) {
if (extra & 0x1000) {
uae_u32 val=comp_get_ilong((m68k_pc_offset+=4)-4);
mov_l_mi((uae_u32)&regs.fpcr,val);
#if USE_X86_FPUCW
mov_l_ri(S1,val&0x000000f0);
fldcw_m_indexed(S1,(uae_u32)x86_fpucw);
#endif
return;
}
if (extra & 0x0800) {
FAIL(1);
return;
}
if (extra & 0x0400) {
uae_u32 val=comp_get_ilong((m68k_pc_offset+=4)-4);
mov_l_mi((uae_u32)&regs.fpiar,val);
return;
}
}
FAIL(1);
return;
} else if (extra & 0x2000) {
FAIL(1);
return;
} else {
FAIL(1);
return;
}
FAIL(1);
return;
case 0:
case 2: /* Extremely common */
reg = (extra >> 7) & 7;
if ((extra & 0xfc00) == 0x5c00) {
switch (extra & 0x7f) {
case 0x00:
fmov_pi(reg);
break;
case 0x0b:
fmov_log10_2(reg);
break;
case 0x0c:
fmov_rm(reg,(uae_u32)&const_e);
break;
case 0x0d:
fmov_log2_e(reg);
break;
case 0x0e:
fmov_rm(reg,(uae_u32)&const_log10_e);
break;
case 0x0f:
fmov_0(reg);
break;
case 0x30:
fmov_loge_2(reg);
break;
case 0x31:
fmov_rm(reg,(uae_u32)&const_loge_10);
break;
case 0x32:
fmov_1(reg);
break;
case 0x33:
case 0x34:
case 0x35:
case 0x36:
case 0x37:
case 0x38:
case 0x39:
case 0x3a:
case 0x3b:
fmov_rm(reg,(uae_u32)(power10+(extra & 0x7f)-0x32));
break;
default:
/* This is not valid, so we fail */
FAIL(1);
return;
}
return;
}
switch (extra & 0x7f) {
case 0x00: /* FMOVE */
case 0x40: /* Explicit rounding. This is just a quick fix. Same
* for all other cases that have three choices */
case 0x44:
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fmov_rr(reg,src);
MAKE_FPSR (src);
break;
case 0x01: /* FINT */
FAIL(1);
return;
dont_care_fflags();
case 0x02: /* FSINH */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = sinh (src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x03: /* FINTRZ */
#if USE_X86_FPUCW
/* If we have control over the CW, we can do this */
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
mov_l_ri(S1,16); /* Switch to "round to zero" mode */
fldcw_m_indexed(S1,(uae_u32)x86_fpucw);
frndint_rr(reg,src);
/* restore control word */
mov_l_rm(S1,(uae_u32)&regs.fpcr);
and_l_ri(S1,0x000000f0);
fldcw_m_indexed(S1,(uae_u32)x86_fpucw);
MAKE_FPSR (reg);
break;
#endif
FAIL(1);
return;
regs.fp[reg] = (int) src;
MAKE_FPSR (regs.fp[reg]);
break;
case 0x04: /* FSQRT */
case 0x41:
case 0x45:
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fsqrt_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x06: /* FLOGNP1 */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = log (src + 1.0);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x08: /* FETOXM1 */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = exp (src) - 1.0;
MAKE_FPSR (regs.fp[reg]);
break;
case 0x09: /* FTANH */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = tanh (src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x0a: /* FATAN */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = atan (src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x0c: /* FASIN */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = asin (src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x0d: /* FATANH */
FAIL(1);
return;
dont_care_fflags();
#if 1 /* The BeBox doesn't have atanh, and it isn't in the HPUX libm either */
regs.fp[reg] = log ((1 + src) / (1 - src)) / 2;
#else
regs.fp[reg] = atanh (src);
#endif
MAKE_FPSR (regs.fp[reg]);
break;
case 0x0e: /* FSIN */
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fsin_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x0f: /* FTAN */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = tan (src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x10: /* FETOX */
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fetox_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x11: /* FTWOTOX */
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
ftwotox_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x12: /* FTENTOX */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = pow (10.0, src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x14: /* FLOGN */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = log (src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x15: /* FLOG10 */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = log10 (src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x16: /* FLOG2 */
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
flog2_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x18: /* FABS */
case 0x58:
case 0x5c:
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fabs_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x19: /* FCOSH */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = cosh (src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x1a: /* FNEG */
case 0x5a:
case 0x5e:
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fneg_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x1c: /* FACOS */
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = acos (src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x1d: /* FCOS */
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fcos_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x1e: /* FGETEXP */
FAIL(1);
return;
dont_care_fflags();
{
int expon;
frexp (src, &expon);
regs.fp[reg] = (double) (expon - 1);
MAKE_FPSR (regs.fp[reg]);
}
break;
case 0x1f: /* FGETMAN */
FAIL(1);
return;
dont_care_fflags();
{
int expon;
regs.fp[reg] = frexp (src, &expon) * 2.0;
MAKE_FPSR (regs.fp[reg]);
}
break;
case 0x20: /* FDIV */
case 0x60:
case 0x64:
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fdiv_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x21: /* FMOD */
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
frem_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x22: /* FADD */
case 0x62:
case 0x66:
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fadd_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x23: /* FMUL */
case 0x63:
case 0x67:
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fmul_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x24: /* FSGLDIV */
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fdiv_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x25: /* FREM */
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
frem1_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x26: /* FSCALE */
dont_care_fflags();
FAIL(1);
return;
regs.fp[reg] *= exp (log (2.0) * src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x27: /* FSGLMUL */
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fmul_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x28: /* FSUB */
case 0x68:
case 0x6c:
dont_care_fflags();
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fsub_rr(reg,src);
MAKE_FPSR (reg);
break;
case 0x30: /* FSINCOS */
case 0x31:
case 0x32:
case 0x33:
case 0x34:
case 0x35:
case 0x36:
case 0x37:
FAIL(1);
return;
dont_care_fflags();
regs.fp[reg] = sin (src);
regs.fp[extra & 7] = cos (src);
MAKE_FPSR (regs.fp[reg]);
break;
case 0x38: /* FCMP */
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fmov_rr(FP_RESULT,reg);
fsub_rr(FP_RESULT,src); /* Right way? */
break;
case 0x3a: /* FTST */
src=get_fp_value (opcode, extra);
if (src < 0) {
FAIL(1); /* Illegal instruction */
return;
}
fmov_rr(FP_RESULT,src);
break;
default:
FAIL(1);
return;
break;
}
return;
}
m68k_setpc (&regs, m68k_getpc (&regs) - 4);
op_illg (opcode, &regs);
}
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