Bochs/bochs/fpu/fpu_emu.h
2003-10-25 10:32:54 +00:00

193 lines
6.2 KiB
C

/*---------------------------------------------------------------------------+
| fpu_emu.h |
| $Id: fpu_emu.h,v 1.20 2003-10-25 10:32:54 sshwarts Exp $
| |
| Copyright (C) 1992,1993,1994,1997 |
| W. Metzenthen, 22 Parker St, Ormond, Vic 3163, |
| Australia. E-mail billm@suburbia.net |
| |
+---------------------------------------------------------------------------*/
#ifndef _FPU_EMU_H_
#define _FPU_EMU_H_
#include <linux/linkage.h>
/*
* Define PECULIAR_486 to get a closer approximation to 80486 behaviour,
* rather than behaviour which appears to be cleaner.
* This is a matter of opinion: for all I know, the 80486 may simply
* be complying with the IEEE spec. Maybe one day I'll get to see the
* spec...
*/
#define PECULIAR_486
#define EXP_BIAS (0)
#define EXP_OVER (0x4000) /* smallest invalid large exponent */
#define EXP_UNDER (-0x3fff) /* largest invalid small exponent */
#define EXP_WAY_UNDER (-0x6000) /* Below the smallest denormal, but still a 16 bit nr */
#define EXP_Infinity EXP_OVER
#define EXP_NaN EXP_OVER
#define EXTENDED_Ebias (0x3fff)
#define EXTENDED_Emin (-0x3ffe) /* smallest valid exponent */
#define SIGN_POS (0)
#define SIGN_NEG (0x80)
#define SIGN_Positive (0)
#define SIGN_Negative (0x8000)
/* Keep the order TAG_Valid, TAG_Zero, TW_Denormal */
/* The following fold to 2 (Special) in the Tag Word */
#define TW_Denormal 4 /* De-normal */
#define TW_Infinity 5 /* + or - infinity */
#define TW_NaN 6 /* Not a Number */
#define TW_Unsupported 7 /* Not supported by an 80486 */
#define TAG_Valid 0 /* valid */
#define TAG_Zero 1 /* zero */
#define TAG_Special 2 /* De-normal, + or - infinity, or NaN */
#define TAG_Empty 3 /* empty */
/* Special st() number to identify loaded data (not on stack). */
#define LOADED_DATA (10101)
/* A few flags (must be >= 0x10). */
#define REV 0x10
#define DEST_RM 0x20
#define LOADED 0x40
#define FPU_Exception (0x80000000) /* Added to tag returns. */
#include "fpu_system.h"
/*
#define RE_ENTRANT_CHECKING
*/
#ifdef RE_ENTRANT_CHECKING
extern u_char emulating;
# define RE_ENTRANT_CHECK_OFF emulating = 0
# define RE_ENTRANT_CHECK_ON emulating = 1
#else
# define RE_ENTRANT_CHECK_OFF
# define RE_ENTRANT_CHECK_ON
#endif /* ifdef RE_ENTRANT_CHECKING */
#define FWAIT_OPCODE 0x9b
#define OP_SIZE_PREFIX 0x66
#define ADDR_SIZE_PREFIX 0x67
struct address {
bx_address offset;
#ifdef EMU_BIG_ENDIAN
u32 empty:5;
u32 opcode:11;
u32 selector:16;
#else
u32 selector:16;
u32 opcode:11;
u32 empty:5;
#endif
} GCC_ATTRIBUTE((packed));
typedef void (*FUNC)(void);
typedef void (*FUNC_ST0)(FPU_REG *st0_ptr, u_char st0_tag);
typedef struct { u_char address_size, operand_size, segment; }
GCC_ATTRIBUTE((packed)) overrides;
/* This structure is 32 bits: */
typedef struct { overrides override;
u_char default_mode; }
GCC_ATTRIBUTE((packed)) fpu_addr_modes;
/* PROTECTED has a restricted meaning in the emulator; it is used
to signal that the emulator needs to do special things to ensure
that protection is respected in a segmented model. */
#define PROTECTED 4
#define SIXTEEN 1 /* We rely upon this being 1 (true) */
#define VM86 SIXTEEN
#define PM16 (SIXTEEN | PROTECTED)
#define SEG32 PROTECTED
#define fpu_register(x) ( *((FPU_REG *)(FPU_register_base + sizeof(FPU_REG) * (x & 7) )))
#define st(x) ( *((FPU_REG *)(FPU_register_base + sizeof(FPU_REG) * ((FPU_tos+x) & 7) )))
#define NOT_EMPTY(i) (!FPU_empty_i(i))
#define NOT_EMPTY_ST0 (st0_tag ^ TAG_Empty)
/* FPU_push() does not affect the tags */
#define FPU_push() { FPU_tos--; }
/* register accessors */
#ifdef EMU_BIG_ENDIAN
#define MAKE_REG(s,e,l,h) { 0,0,0, \
((EXTENDED_Ebias+(e)) | ((SIGN_##s != 0)*0x8000)) , h, l}
#define signbyte(x) (((u_char *)(x))[6])
#define significand(x) (((u64 *)&((x)->sigh))[0])
#else
#define MAKE_REG(s,e,l,h) { l, h, \
((EXTENDED_Ebias+(e)) | ((SIGN_##s != 0)*0x8000)), 0,0,0 }
#define signbyte(x) (((u_char *)(x))[9])
#define significand(x) (((u64 *)&((x)->sigl))[0])
#endif
#define getsign(a) (signbyte(a) & 0x80)
#define setsign(a,b) { if (b) signbyte(a) |= 0x80; else signbyte(a) &= 0x7f; }
#define copysign(a,b) { if (getsign(a)) signbyte(b) |= 0x80; \
else signbyte(b) &= 0x7f; }
#define changesign(a) { signbyte(a) ^= 0x80; }
#define setpositive(a) { signbyte(a) &= 0x7f; }
#define setnegative(a) { signbyte(a) |= 0x80; }
#define signpositive(a) ( (signbyte(a) & 0x80) == 0 )
#define signnegative(a) (signbyte(a) & 0x80)
BX_C_INLINE void reg_copy(FPU_REG const *x, FPU_REG *y)
{
y->exp = x->exp;
significand(y) = significand(x);
}
#define exponent(x) (((x)->exp & 0x7fff) - EXTENDED_Ebias)
#define setexponentpos(x,y) { (x)->exp = ((y) + EXTENDED_Ebias) & 0x7fff; }
#define exponent16(x) (x)->exp
#define setexponent16(x,y) { (x)->exp = (y); }
#define addexponent(x,y) { (x)->exp += (y); }
#define stdexp(x) { (x)->exp += EXTENDED_Ebias; }
#define isdenormal(ptr) (exponent(ptr) == EXP_BIAS+EXP_UNDER)
/*----- Prototypes for functions written in assembler -----*/
asmlinkage int FPU_normalize_nuo(FPU_REG *x, int bias);
asmlinkage int FPU_u_sub(FPU_REG const *arg1, FPU_REG const *arg2,
FPU_REG *answ, u16 control_w, u_char sign,
s32 expa, s32 expb);
asmlinkage int FPU_u_mul(FPU_REG const *arg1, FPU_REG const *arg2,
FPU_REG *answ, u16 control_w, u_char sign,
s32 expon);
asmlinkage int FPU_u_div(FPU_REG const *arg1, FPU_REG const *arg2,
FPU_REG *answ, u16 control_w, u_char sign);
asmlinkage int FPU_u_add(FPU_REG const *arg1, FPU_REG const *arg2,
FPU_REG *answ, u16 control_w, u_char sign,
s32 expa, s32 expb);
asmlinkage int wm_sqrt(FPU_REG *n, u16 control_w, u_char sign);
asmlinkage u32 FPU_shrx(void *l, u32 x);
asmlinkage u32 FPU_shrxs(void *v, u32 x);
asmlinkage int FPU_round(FPU_REG *arg, u32 extent,
u16 control_w, u_char sign);
#ifndef MAKING_PROTO
#include "fpu_proto.h"
#endif
#endif /* !defined _FPU_EMU_H_ */