dosbox-wii/include/regs.h

170 lines
4.7 KiB
C
Raw Normal View History

2010-11-05 05:55:33 +01:00
/*
2011-06-22 06:18:55 +02:00
* Copyright (C) 2002-2011 The DOSBox Team
2010-11-05 05:55:33 +01:00
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#ifndef DOSBOX_REGS_H
#define DOSBOX_REGS_H
#ifndef DOSBOX_MEM_H
#include "mem.h"
#endif
#define FLAG_CF 0x00000001
#define FLAG_PF 0x00000004
#define FLAG_AF 0x00000010
#define FLAG_ZF 0x00000040
#define FLAG_SF 0x00000080
#define FLAG_OF 0x00000800
#define FLAG_TF 0x00000100
#define FLAG_IF 0x00000200
#define FLAG_DF 0x00000400
#define FLAG_IOPL 0x00003000
#define FLAG_NT 0x00004000
#define FLAG_VM 0x00020000
#define FLAG_AC 0x00040000
#define FLAG_ID 0x00200000
#define FMASK_TEST (FLAG_CF | FLAG_PF | FLAG_AF | FLAG_ZF | FLAG_SF | FLAG_OF)
2011-06-22 06:18:55 +02:00
#define FMASK_NORMAL (FMASK_TEST | FLAG_DF | FLAG_TF | FLAG_IF )
2010-11-05 05:55:33 +01:00
#define FMASK_ALL (FMASK_NORMAL | FLAG_IOPL | FLAG_NT)
#define SETFLAGBIT(TYPE,TEST) if (TEST) reg_flags|=FLAG_ ## TYPE; else reg_flags&=~FLAG_ ## TYPE
#define GETFLAG(TYPE) (reg_flags & FLAG_ ## TYPE)
#define GETFLAGBOOL(TYPE) ((reg_flags & FLAG_ ## TYPE) ? true : false )
#define GETFLAG_IOPL ((reg_flags & FLAG_IOPL) >> 12)
struct Segment {
Bit16u val;
PhysPt phys; /* The phyiscal address start in emulated machine */
};
enum SegNames { es=0,cs,ss,ds,fs,gs};
struct Segments {
Bitu val[8];
PhysPt phys[8];
};
union GenReg32 {
Bit32u dword[1];
Bit16u word[2];
Bit8u byte[4];
};
#ifdef WORDS_BIGENDIAN
#define DW_INDEX 0
#define W_INDEX 1
#define BH_INDEX 2
#define BL_INDEX 3
#else
#define DW_INDEX 0
#define W_INDEX 0
#define BH_INDEX 1
#define BL_INDEX 0
#endif
struct CPU_Regs {
GenReg32 regs[8],ip;
Bitu flags;
};
extern Segments Segs;
extern CPU_Regs cpu_regs;
static INLINE PhysPt SegPhys(SegNames index) {
return Segs.phys[index];
}
static INLINE Bit16u SegValue(SegNames index) {
return (Bit16u)Segs.val[index];
}
static INLINE RealPt RealMakeSeg(SegNames index,Bit16u off) {
return RealMake(SegValue(index),off);
}
static INLINE void SegSet16(Bitu index,Bit16u val) {
Segs.val[index]=val;
Segs.phys[index]=val << 4;
}
enum {
REGI_AX, REGI_CX, REGI_DX, REGI_BX,
REGI_SP, REGI_BP, REGI_SI, REGI_DI
};
enum {
REGI_AL, REGI_CL, REGI_DL, REGI_BL,
REGI_AH, REGI_CH, REGI_DH, REGI_BH
};
//macros to convert a 3-bit register index to the correct register
#define reg_8l(reg) (cpu_regs.regs[(reg)].byte[BL_INDEX])
#define reg_8h(reg) (cpu_regs.regs[(reg)].byte[BH_INDEX])
#define reg_8(reg) ((reg) & 4 ? reg_8h((reg) & 3) : reg_8l((reg) & 3))
#define reg_16(reg) (cpu_regs.regs[(reg)].word[W_INDEX])
#define reg_32(reg) (cpu_regs.regs[(reg)].dword[DW_INDEX])
#define reg_al cpu_regs.regs[REGI_AX].byte[BL_INDEX]
#define reg_ah cpu_regs.regs[REGI_AX].byte[BH_INDEX]
#define reg_ax cpu_regs.regs[REGI_AX].word[W_INDEX]
#define reg_eax cpu_regs.regs[REGI_AX].dword[DW_INDEX]
#define reg_bl cpu_regs.regs[REGI_BX].byte[BL_INDEX]
#define reg_bh cpu_regs.regs[REGI_BX].byte[BH_INDEX]
#define reg_bx cpu_regs.regs[REGI_BX].word[W_INDEX]
#define reg_ebx cpu_regs.regs[REGI_BX].dword[DW_INDEX]
#define reg_cl cpu_regs.regs[REGI_CX].byte[BL_INDEX]
#define reg_ch cpu_regs.regs[REGI_CX].byte[BH_INDEX]
#define reg_cx cpu_regs.regs[REGI_CX].word[W_INDEX]
#define reg_ecx cpu_regs.regs[REGI_CX].dword[DW_INDEX]
#define reg_dl cpu_regs.regs[REGI_DX].byte[BL_INDEX]
#define reg_dh cpu_regs.regs[REGI_DX].byte[BH_INDEX]
#define reg_dx cpu_regs.regs[REGI_DX].word[W_INDEX]
#define reg_edx cpu_regs.regs[REGI_DX].dword[DW_INDEX]
#define reg_si cpu_regs.regs[REGI_SI].word[W_INDEX]
#define reg_esi cpu_regs.regs[REGI_SI].dword[DW_INDEX]
#define reg_di cpu_regs.regs[REGI_DI].word[W_INDEX]
#define reg_edi cpu_regs.regs[REGI_DI].dword[DW_INDEX]
#define reg_sp cpu_regs.regs[REGI_SP].word[W_INDEX]
#define reg_esp cpu_regs.regs[REGI_SP].dword[DW_INDEX]
#define reg_bp cpu_regs.regs[REGI_BP].word[W_INDEX]
#define reg_ebp cpu_regs.regs[REGI_BP].dword[DW_INDEX]
#define reg_ip cpu_regs.ip.word[W_INDEX]
#define reg_eip cpu_regs.ip.dword[DW_INDEX]
#define reg_flags cpu_regs.flags
#endif