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Diff for /np2/i386c/ia32/ia32.mcr between versions 1.10 and 1.27

version 1.10, 2004/02/12 15:46:14	version 1.27, 2011/01/15 17:33:32
Line 1	Line 1
/* $Id$ */

/*	/*
* Copyright (c) 2002-2003 NONAKA Kimihiro	* Copyright (c) 2002-2003 NONAKA Kimihiro
* All rights reserved.	* All rights reserved.
Line 12	Line 10
* 2. Redistributions in binary form must reproduce the above copyright	* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the	* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.	* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*	*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
Line 33	Line 29
/*	/*
* misc	* misc
*/	*/
#define __CBW(src) ((WORD)((SBYTE)(src)))	#define __CBW(src) ((UINT16)((SINT8)(src)))
#define __CBD(src) ((DWORD)((SBYTE)(src)))	#define __CBD(src) ((UINT32)((SINT8)(src)))
#define __CWDE(src) ((SWORD)(src))	#define __CWDE(src) ((SINT16)(src))

	#ifndef PTR_TO_UINT32
	#define PTR_TO_UINT32(p) ((UINT32)((unsigned long)(p)))
	#endif
	#ifndef UINT32_TO_PTR
	#define UINT32_TO_PTR(v) ((void *)((unsigned long)(UINT32)(v)))
	#endif

#define SWAPBYTE(p, q) \	#define SWAP_BYTE(p, q) \
do { \	do { \
BYTE __tmp = (p); \	UINT8 __tmp = (p); \
(p) = (q); \	(p) = (q); \
(q) = __tmp; \	(q) = __tmp; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define SWAPWORD(p, q) \	#define SWAP_WORD(p, q) \
do { \	do { \
WORD __tmp = (p); \	UINT16 __tmp = (p); \
(p) = (q); \	(p) = (q); \
(q) = __tmp; \	(q) = __tmp; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define SWAPDWORD(p, q) \	#define SWAP_DWORD(p, q) \
do { \	do { \
DWORD __tmp = (p); \	UINT32 __tmp = (p); \
(p) = (q); \	(p) = (q); \
(q) = __tmp; \	(q) = __tmp; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)
Line 84 do { \	Line 87 do { \
/*	/*
* instruction pointer	* instruction pointer
*/	*/
#define SET_EIP(v) \	/* コードフェッチに使用するので、OpSize の影響を受けてはいけない */
do { \	#define _ADD_EIP(v) \
DWORD __new_ip = (v); \
if (__new_ip > CPU_STAT_CS_LIMIT) { \
VERBOSE(("SET_EIP: new_ip = %08x, limit = %08x", __new_ip, CPU_STAT_CS_LIMIT)); \
EXCEPTION(GP_EXCEPTION, 0); \
} \
CPU_EIP = __new_ip; \
} while (/CONSTCOND/ 0)

#define ADD_EIP(v) \
do { \	do { \
DWORD __tmp_ip = CPU_EIP + (v); \	UINT32 __tmp_ip = CPU_EIP + (v); \
if (!CPU_STATSAVE.cpu_inst_default.op_32) { \	if (!CPU_STATSAVE.cpu_inst_default.op_32) { \
__tmp_ip &= 0xffff; \	__tmp_ip &= 0xffff; \
} \	} \
CPU_EIP = __tmp_ip; \	CPU_EIP = __tmp_ip; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)


#define GET_PCBYTE(v) \	#define GET_PCBYTE(v) \
do { \	do { \
(v) = cpu_codefetch(CPU_EIP); \	(v) = cpu_codefetch(CPU_EIP); \
ADD_EIP(1); \	_ADD_EIP(1); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define GET_PCBYTES(v) \	#define GET_PCBYTES(v) \
do { \	do { \
(v) = __CBW(cpu_codefetch(CPU_EIP)); \	(v) = __CBW(cpu_codefetch(CPU_EIP)); \
ADD_EIP(1); \	_ADD_EIP(1); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define GET_PCBYTESD(v) \	#define GET_PCBYTESD(v) \
do { \	do { \
(v) = __CBD(cpu_codefetch(CPU_EIP)); \	(v) = __CBD(cpu_codefetch(CPU_EIP)); \
ADD_EIP(1); \	_ADD_EIP(1); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define GET_PCWORD(v) \	#define GET_PCWORD(v) \
do { \	do { \
(v) = cpu_codefetch_w(CPU_EIP); \	(v) = cpu_codefetch_w(CPU_EIP); \
ADD_EIP(2); \	_ADD_EIP(2); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define GET_PCWORDS(v) \	#define GET_PCWORDS(v) \
do { \	do { \
(v) = __CWDE(cpu_codefetch_w(CPU_EIP)); \	(v) = __CWDE(cpu_codefetch_w(CPU_EIP)); \
ADD_EIP(2); \	_ADD_EIP(2); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define GET_PCDWORD(v) \	#define GET_PCDWORD(v) \
do { \	do { \
(v) = cpu_codefetch_d(CPU_EIP); \	(v) = cpu_codefetch_d(CPU_EIP); \
ADD_EIP(4); \	_ADD_EIP(4); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define PREPART_EA_REG8(b, d_s) \	#define PREPART_EA_REG8(b, d_s) \
Line 183 do { \	Line 176 do { \
CPU_WORKCLOCK(regclk); \	CPU_WORKCLOCK(regclk); \
(s) = *(reg8_b20[(b)]); \	(s) = *(reg8_b20[(b)]); \
} else { \	} else { \
DWORD __t; \	UINT32 __t; \
CPU_WORKCLOCK(memclk); \	CPU_WORKCLOCK(memclk); \
__t = calc_ea_dst((b)); \	__t = calc_ea_dst((b)); \
(s) = cpu_vmemoryread(CPU_INST_SEGREG_INDEX, __t); \	(s) = cpu_vmemoryread(CPU_INST_SEGREG_INDEX, __t); \
Line 198 do { \	Line 191 do { \
CPU_WORKCLOCK(regclk); \	CPU_WORKCLOCK(regclk); \
(s) = *(reg16_b20[(b)]); \	(s) = *(reg16_b20[(b)]); \
} else { \	} else { \
DWORD __t; \	UINT32 __t; \
CPU_WORKCLOCK(memclk); \	CPU_WORKCLOCK(memclk); \
__t = calc_ea_dst((b)); \	__t = calc_ea_dst((b)); \
(s) = cpu_vmemoryread_w(CPU_INST_SEGREG_INDEX, __t); \	(s) = cpu_vmemoryread_w(CPU_INST_SEGREG_INDEX, __t); \
Line 213 do { \	Line 206 do { \
CPU_WORKCLOCK(regclk); \	CPU_WORKCLOCK(regclk); \
(s) = *(reg8_b20[(b)]); \	(s) = *(reg8_b20[(b)]); \
} else { \	} else { \
DWORD __t; \	UINT32 __t; \
CPU_WORKCLOCK(memclk); \	CPU_WORKCLOCK(memclk); \
__t = calc_ea_dst((b)); \	__t = calc_ea_dst((b)); \
(s) = cpu_vmemoryread(CPU_INST_SEGREG_INDEX, __t); \	(s) = cpu_vmemoryread(CPU_INST_SEGREG_INDEX, __t); \
Line 228 do { \	Line 221 do { \
CPU_WORKCLOCK(regclk); \	CPU_WORKCLOCK(regclk); \
(s) = *(reg32_b20[(b)]); \	(s) = *(reg32_b20[(b)]); \
} else { \	} else { \
DWORD __t; \	UINT32 __t; \
CPU_WORKCLOCK(memclk); \	CPU_WORKCLOCK(memclk); \
__t = calc_ea_dst((b)); \	__t = calc_ea_dst((b)); \
(s) = cpu_vmemoryread_d(CPU_INST_SEGREG_INDEX, __t); \	(s) = cpu_vmemoryread_d(CPU_INST_SEGREG_INDEX, __t); \
Line 243 do { \	Line 236 do { \
CPU_WORKCLOCK(regclk); \	CPU_WORKCLOCK(regclk); \
(s) = *(reg8_b20[(b)]); \	(s) = *(reg8_b20[(b)]); \
} else { \	} else { \
DWORD __t; \	UINT32 __t; \
CPU_WORKCLOCK(memclk); \	CPU_WORKCLOCK(memclk); \
__t = calc_ea_dst((b)); \	__t = calc_ea_dst((b)); \
(s) = cpu_vmemoryread(CPU_INST_SEGREG_INDEX, __t); \	(s) = cpu_vmemoryread(CPU_INST_SEGREG_INDEX, __t); \
Line 258 do { \	Line 251 do { \
CPU_WORKCLOCK(regclk); \	CPU_WORKCLOCK(regclk); \
(s) = *(reg16_b20[(b)]); \	(s) = *(reg16_b20[(b)]); \
} else { \	} else { \
DWORD __t; \	UINT32 __t; \
CPU_WORKCLOCK(memclk); \	CPU_WORKCLOCK(memclk); \
__t = calc_ea_dst((b)); \	__t = calc_ea_dst((b)); \
(s) = cpu_vmemoryread_w(CPU_INST_SEGREG_INDEX, __t); \	(s) = cpu_vmemoryread_w(CPU_INST_SEGREG_INDEX, __t); \
Line 270 do { \	Line 263 do { \
/*	/*
* arith	* arith
*/	*/
#define _ADDBYTE(r, d, s) \	#define _ADD_BYTE(r, d, s) \
do { \	do { \
(r) = (s) + (d); \	(r) = (s) + (d); \
CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x80; \	CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x80; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
CPU_FLAGL \|= szpcflag[(r) & 0x1ff]; \	CPU_FLAGL \|= szpcflag[(r) & 0x1ff]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _ADDWORD(r, d, s) \	#define _ADD_WORD(r, d, s) \
do { \	do { \
(r) = (s) + (d); \	(r) = (s) + (d); \
CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x8000; \	CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x8000; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
if ((r) & 0xffff0000) { \	if ((r) & 0xffff0000) { \
(r) &= 0x0000ffff; \	(r) &= 0x0000ffff; \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
CPU_FLAGL \|= szpflag_w[(WORD)(r)]; \	CPU_FLAGL \|= szpflag_w[(UINT16)(r)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _ADDDWORD(r, d, s) \	#define _ADD_DWORD(r, d, s) \
do { \	do { \
(r) = (s) + (d); \	(r) = (s) + (d); \
CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x80000000; \	CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x80000000; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
if ((r) < (s)) { \	if ((r) < (s)) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
Line 304 do { \	Line 297 do { \
if ((r) & 0x80000000) { \	if ((r) & 0x80000000) { \
CPU_FLAGL \|= S_FLAG; \	CPU_FLAGL \|= S_FLAG; \
} \	} \
CPU_FLAGL \|= szpcflag[(BYTE)(r)] & P_FLAG; \	CPU_FLAGL \|= szpcflag[(UINT8)(r)] & P_FLAG; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _ORBYTE(d, s) \	#define _OR_BYTE(d, s) \
do { \	do { \
(d) \|= (s); \	(d) \|= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpcflag[(BYTE)(d)]; \	CPU_FLAGL = szpcflag[(UINT8)(d)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _ORWORD(d, s) \	#define _OR_WORD(d, s) \
do { \	do { \
(d) \|= (s); \	(d) \|= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpflag_w[(WORD)(d)]; \	CPU_FLAGL = szpflag_w[(UINT16)(d)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _ORDWORD(d, s) \	#define _OR_DWORD(d, s) \
do { \	do { \
(d) \|= (s); \	(d) \|= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpcflag[(BYTE)(d)] & P_FLAG; \	CPU_FLAGL = (UINT8)(szpcflag[(UINT8)(d)] & P_FLAG); \
if ((d) == 0) { \	if ((d) == 0) { \
CPU_FLAGL \|= Z_FLAG; \	CPU_FLAGL \|= Z_FLAG; \
} \	} \
Line 335 do { \	Line 328 do { \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

/* flag no check */	/* flag no check */
#define _ADCBYTE(r, d, s) \	#define _ADC_BYTE(r, d, s) \
do { \	do { \
(r) = (CPU_FLAGL & C_FLAG) + (s) + (d); \	(r) = (CPU_FLAGL & C_FLAG) + (s) + (d); \
CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x80; \	CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x80; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
CPU_FLAGL \|= szpcflag[(r) & 0x1ff]; \	CPU_FLAGL \|= szpcflag[(r) & 0x1ff]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _ADCWORD(r, d, s) \	#define _ADC_WORD(r, d, s) \
do { \	do { \
(r) = (CPU_FLAGL & C_FLAG) + (s) + (d); \	(r) = (CPU_FLAGL & C_FLAG) + (s) + (d); \
CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x8000; \	CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x8000; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
if ((r) & 0xffff0000) { \	if ((r) & 0xffff0000) { \
(r) &= 0x0000ffff; \	(r) &= 0x0000ffff; \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
CPU_FLAGL \|= szpflag_w[(WORD)(r)]; \	CPU_FLAGL \|= szpflag_w[(UINT16)(r)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _ADCDWORD(r, d, s) \	#define _ADC_DWORD(r, d, s) \
do { \	do { \
DWORD __c = (CPU_FLAGL & C_FLAG); \	UINT32 __c = (CPU_FLAGL & C_FLAG); \
(r) = (s) + (d) + __c; \	(r) = (s) + (d) + __c; \
CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x80000000; \	CPU_OV = ((r) ^ (s)) & ((r) ^ (d)) & 0x80000000; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
if ((!__c && (r) < (s)) \|\| (__c && (r) <= (s))) { \	if ((!__c && (r) < (s)) \|\| (__c && (r) <= (s))) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
Line 370 do { \	Line 363 do { \
if ((r) & 0x80000000) { \	if ((r) & 0x80000000) { \
CPU_FLAGL \|= S_FLAG; \	CPU_FLAGL \|= S_FLAG; \
} \	} \
CPU_FLAGL \|= szpcflag[(BYTE)(r)] & P_FLAG; \	CPU_FLAGL \|= szpcflag[(UINT8)(r)] & P_FLAG; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

/* flag no check */	/* flag no check */
Line 378 do { \	Line 371 do { \
do { \	do { \
(r) = (d) - (s) - (CPU_FLAGL & C_FLAG); \	(r) = (d) - (s) - (CPU_FLAGL & C_FLAG); \
CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x80; \	CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x80; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
CPU_FLAGL \|= szpcflag[(r) & 0x1ff]; \	CPU_FLAGL \|= szpcflag[(r) & 0x1ff]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

Line 386 do { \	Line 379 do { \
do { \	do { \
(r) = (d) - (s) - (CPU_FLAGL & C_FLAG); \	(r) = (d) - (s) - (CPU_FLAGL & C_FLAG); \
CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x8000; \	CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x8000; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
if ((r) & 0xffff0000) { \	if ((r) & 0xffff0000) { \
(r) &= 0x0000ffff; \	(r) &= 0x0000ffff; \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
CPU_FLAGL \|= szpflag_w[(WORD)(r)]; \	CPU_FLAGL \|= szpflag_w[(UINT16)(r)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _DWORD_SBB(r, d, s) \	#define _DWORD_SBB(r, d, s) \
do { \	do { \
DWORD __c = (CPU_FLAGL & C_FLAG); \	UINT32 __c = (CPU_FLAGL & C_FLAG); \
(r) = (d) - (s) - __c; \	(r) = (d) - (s) - __c; \
CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x80000000; \	CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x80000000; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
if ((!__c && (d) < (s)) \|\| (__c && (d) <= (s))) { \	if ((!__c && (d) < (s)) \|\| (__c && (d) <= (s))) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
Line 409 do { \	Line 402 do { \
if ((r) & 0x80000000) { \	if ((r) & 0x80000000) { \
CPU_FLAGL \|= S_FLAG; \	CPU_FLAGL \|= S_FLAG; \
} \	} \
CPU_FLAGL \|= szpcflag[(BYTE)(r)] & P_FLAG; \	CPU_FLAGL \|= szpcflag[(UINT8)(r)] & P_FLAG; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _ANDBYTE(d, s) \	#define _AND_BYTE(d, s) \
do { \	do { \
(d) &= (s); \	(d) &= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpcflag[(BYTE)(d)]; \	CPU_FLAGL = szpcflag[(UINT8)(d)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _ANDWORD(d, s) \	#define _AND_WORD(d, s) \
do { \	do { \
(d) &= (s); \	(d) &= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpflag_w[(WORD)(d)]; \	CPU_FLAGL = szpflag_w[(UINT16)(d)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _ANDDWORD(d, s) \	#define _AND_DWORD(d, s) \
do { \	do { \
(d) &= (s); \	(d) &= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpcflag[(BYTE)(d)] & P_FLAG; \	CPU_FLAGL = (UINT8)(szpcflag[(UINT8)(d)] & P_FLAG); \
if ((d) == 0) { \	if ((d) == 0) { \
CPU_FLAGL \|= Z_FLAG; \	CPU_FLAGL \|= Z_FLAG; \
} \	} \
Line 443 do { \	Line 436 do { \
do { \	do { \
(r) = (d) - (s); \	(r) = (d) - (s); \
CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x80; \	CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x80; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
CPU_FLAGL \|= szpcflag[(r) & 0x1ff]; \	CPU_FLAGL \|= szpcflag[(r) & 0x1ff]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

Line 451 do { \	Line 444 do { \
do { \	do { \
(r) = (d) - (s); \	(r) = (d) - (s); \
CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x8000; \	CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x8000; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
if ((r) & 0xffff0000) { \	if ((r) & 0xffff0000) { \
(r) &= 0x0000ffff; \	(r) &= 0x0000ffff; \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
CPU_FLAGL \|= szpflag_w[(WORD)(r)]; \	CPU_FLAGL \|= szpflag_w[(UINT16)(r)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _DWORD_SUB(r, d, s) \	#define _DWORD_SUB(r, d, s) \
do { \	do { \
(r) = (d) - (s); \	(r) = (d) - (s); \
CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x80000000; \	CPU_OV = ((d) ^ (r)) & ((d) ^ (s)) & 0x80000000; \
CPU_FLAGL = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((r) ^ (d) ^ (s)) & A_FLAG); \
if ((d) < (s)) { \	if ((d) < (s)) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
Line 473 do { \	Line 466 do { \
if ((r) & 0x80000000) { \	if ((r) & 0x80000000) { \
CPU_FLAGL \|= S_FLAG; \	CPU_FLAGL \|= S_FLAG; \
} \	} \
CPU_FLAGL \|= szpcflag[(BYTE)(r)] & P_FLAG; \	CPU_FLAGL \|= szpcflag[(UINT8)(r)] & P_FLAG; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _BYTE_XOR(d, s) \	#define _BYTE_XOR(d, s) \
do { \	do { \
(d) ^= s; \	(d) ^= s; \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpcflag[(BYTE)(d)]; \	CPU_FLAGL = szpcflag[(UINT8)(d)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _WORD_XOR(d, s) \	#define _WORD_XOR(d, s) \
do { \	do { \
(d) ^= (s); \	(d) ^= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpflag_w[(WORD)(d)]; \	CPU_FLAGL = szpflag_w[(UINT16)(d)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _DWORD_XOR(d, s) \	#define _DWORD_XOR(d, s) \
do { \	do { \
(d) ^= (s); \	(d) ^= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpcflag[(BYTE)(d)] & P_FLAG; \	CPU_FLAGL = (UINT8)(szpcflag[(UINT8)(d)] & P_FLAG); \
if ((d) == 0) { \	if ((d) == 0) { \
CPU_FLAGL \|= Z_FLAG; \	CPU_FLAGL \|= Z_FLAG; \
} \	} \
Line 507 do { \	Line 500 do { \
do { \	do { \
(d) = 0 - (s); \	(d) = 0 - (s); \
CPU_OV = ((d) & (s)) & 0x80; \	CPU_OV = ((d) & (s)) & 0x80; \
CPU_FLAGL = (BYTE)(((d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((d) ^ (s)) & A_FLAG); \
CPU_FLAGL \|= szpcflag[(d) & 0x1ff]; \	CPU_FLAGL \|= szpcflag[(d) & 0x1ff]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

Line 515 do { \	Line 508 do { \
do { \	do { \
(d) = 0 - (s); \	(d) = 0 - (s); \
CPU_OV = ((d) & (s)) & 0x8000; \	CPU_OV = ((d) & (s)) & 0x8000; \
CPU_FLAGL = (BYTE)(((d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((d) ^ (s)) & A_FLAG); \
if ((d) & 0xffff0000) { \	if ((d) & 0xffff0000) { \
(d) &= 0x0000ffff; \	(d) &= 0x0000ffff; \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
CPU_FLAGL \|= szpflag_w[(WORD)(d)]; \	CPU_FLAGL \|= szpflag_w[(UINT16)(d)]; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _DWORD_NEG(d, s) \	#define _DWORD_NEG(d, s) \
do { \	do { \
(d) = 0 - (s); \	(d) = 0 - (s); \
CPU_OV = ((d) & (s)) & 0x80000000; \	CPU_OV = ((d) & (s)) & 0x80000000; \
CPU_FLAGL = (BYTE)(((d) ^ (s)) & A_FLAG); \	CPU_FLAGL = (UINT8)(((d) ^ (s)) & A_FLAG); \
if ((d) == 0) { \	if ((d) == 0) { \
CPU_FLAGL \|= Z_FLAG; \	CPU_FLAGL \|= Z_FLAG; \
} else { \	} else { \
Line 536 do { \	Line 529 do { \
if ((d) & 0x80000000) { \	if ((d) & 0x80000000) { \
CPU_FLAGL \|= S_FLAG; \	CPU_FLAGL \|= S_FLAG; \
} \	} \
CPU_FLAGL \|= szpcflag[(BYTE)(d)] & P_FLAG; \	CPU_FLAGL \|= szpcflag[(UINT8)(d)] & P_FLAG; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _BYTE_MUL(r, d, s) \	#define _BYTE_MUL(r, d, s) \
do { \	do { \
CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \	CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \
(r) = (BYTE)(d) * (BYTE)(s); \	(r) = (UINT8)(d) * (UINT8)(s); \
CPU_OV = (r) >> 8; \	CPU_OV = (r) >> 8; \
if (CPU_OV) { \	if (CPU_OV) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
Line 552 do { \	Line 545 do { \
#define _WORD_MUL(r, d, s) \	#define _WORD_MUL(r, d, s) \
do { \	do { \
CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \	CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \
(r) = (WORD)(d) * (WORD)(s); \	(r) = (UINT16)(d) * (UINT16)(s); \
CPU_OV = (r) >> 16; \	CPU_OV = (r) >> 16; \
if (CPU_OV) { \	if (CPU_OV) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
Line 561 do { \	Line 554 do { \

#define _DWORD_MUL(r, d, s) \	#define _DWORD_MUL(r, d, s) \
do { \	do { \
QWORD __v; \	UINT64 __v; \
CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \	CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \
__v = (QWORD)(d) * (QWORD)(s); \	__v = (UINT64)(d) * (UINT64)(s); \
(r) = (DWORD)__v; \	(r) = (UINT32)__v; \
CPU_OV = (DWORD)(__v >> 32); \	CPU_OV = (UINT32)(__v >> 32); \
if (CPU_OV) { \	if (CPU_OV) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
Line 574 do { \	Line 567 do { \
#define _BYTE_IMUL(r, d, s) \	#define _BYTE_IMUL(r, d, s) \
do { \	do { \
CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \	CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \
(r) = (SBYTE)(d) * (SBYTE)(s); \	(r) = (SINT8)(d) * (SINT8)(s); \
CPU_OV = ((r) + 0x80) & 0xffffff00; \	CPU_OV = ((r) + 0x80) & 0xffffff00; \
if (CPU_OV) { \	if (CPU_OV) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
Line 584 do { \	Line 577 do { \
#define _WORD_IMUL(r, d, s) \	#define _WORD_IMUL(r, d, s) \
do { \	do { \
CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \	CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \
(r) = (SWORD)(d) * (SWORD)(s); \	(r) = (SINT16)(d) * (SINT16)(s); \
/* -32768 < r < 32767 (CF = OV = 0) */ \
/* 0xffff8000 < r < 0x00007fff (CF = OV = 0) */ \
/* 0x00000000 < r + 0x8000 < 0x0000ffff (CF = OV = 0) */ \
CPU_OV = ((r) + 0x8000) & 0xffff0000; \	CPU_OV = ((r) + 0x8000) & 0xffff0000; \
if (CPU_OV) { \	if (CPU_OV) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
Line 597 do { \	Line 587 do { \
#define _DWORD_IMUL(r, d, s) \	#define _DWORD_IMUL(r, d, s) \
do { \	do { \
CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \	CPU_FLAGL &= (Z_FLAG \| S_FLAG \| A_FLAG \| P_FLAG); \
(r) = (SQWORD)(d) * (SQWORD)(s); \	(r) = (SINT64)(d) * (SINT64)(s); \
CPU_OV = (DWORD)(((r) + QWORD_CONST(0x80000000)) >> 32); \	CPU_OV = (UINT32)(((r) + QWORD_CONST(0x80000000)) >> 32); \
if (CPU_OV) { \	if (CPU_OV) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
Line 607 do { \	Line 597 do { \
/* flag no check */	/* flag no check */
#define _BYTE_INC(s) \	#define _BYTE_INC(s) \
do { \	do { \
BYTE __b = (s); \	UINT8 __b = (s); \
__b++; \	__b++; \
CPU_OV = __b & (__b ^ (s)) & 0x80; \	CPU_OV = __b & (__b ^ (s)) & 0x80; \
CPU_FLAGL &= C_FLAG; \	CPU_FLAGL &= C_FLAG; \
CPU_FLAGL \|= (BYTE)((__b ^ (s)) & A_FLAG); \	CPU_FLAGL \|= (UINT8)((__b ^ (s)) & A_FLAG); \
CPU_FLAGL \|= szpcflag[__b]; \	CPU_FLAGL \|= szpcflag[__b]; \
(s) = __b; \	(s) = __b; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _WORD_INC(s) \	#define _WORD_INC(s) \
do { \	do { \
WORD __b = (s); \	UINT16 __b = (s); \
__b++; \	__b++; \
CPU_OV = __b & (__b ^ (s)) & 0x8000; \	CPU_OV = __b & (__b ^ (s)) & 0x8000; \
CPU_FLAGL &= C_FLAG; \	CPU_FLAGL &= C_FLAG; \
CPU_FLAGL \|= (BYTE)((__b ^ (s)) & A_FLAG); \	CPU_FLAGL \|= (UINT8)((__b ^ (s)) & A_FLAG); \
CPU_FLAGL \|= szpflag_w[__b]; \	CPU_FLAGL \|= szpflag_w[__b]; \
(s) = __b; \	(s) = __b; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _DWORD_INC(s) \	#define _DWORD_INC(s) \
do { \	do { \
DWORD __b = (s); \	UINT32 __b = (s); \
__b++; \	__b++; \
CPU_OV = __b & (__b ^ (s)) & 0x80000000; \	CPU_OV = __b & (__b ^ (s)) & 0x80000000; \
CPU_FLAGL &= C_FLAG; \	CPU_FLAGL &= C_FLAG; \
CPU_FLAGL \|= (BYTE)((__b ^ (s)) & A_FLAG); \	CPU_FLAGL \|= (UINT8)((__b ^ (s)) & A_FLAG); \
if (__b == 0) { \	if (__b == 0) { \
CPU_FLAGL \|= Z_FLAG; \	CPU_FLAGL \|= Z_FLAG; \
} \	} \
if (__b & 0x80000000) { \	if (__b & 0x80000000) { \
CPU_FLAGL \|= S_FLAG; \	CPU_FLAGL \|= S_FLAG; \
} \	} \
CPU_FLAGL \|= szpcflag[(BYTE)(__b)] & P_FLAG; \	CPU_FLAGL \|= szpcflag[(UINT8)(__b)] & P_FLAG; \
(s) = __b; \	(s) = __b; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

/* flag no check */	/* flag no check */
#define _BYTE_DEC(s) \	#define _BYTE_DEC(s) \
do { \	do { \
BYTE __b = (s); \	UINT8 __b = (s); \
__b--; \	__b--; \
CPU_OV = (s) & (__b ^ (s)) & 0x80; \	CPU_OV = (s) & (__b ^ (s)) & 0x80; \
CPU_FLAGL &= C_FLAG; \	CPU_FLAGL &= C_FLAG; \
CPU_FLAGL \|= (BYTE)((__b ^ (s)) & A_FLAG); \	CPU_FLAGL \|= (UINT8)((__b ^ (s)) & A_FLAG); \
CPU_FLAGL \|= szpcflag[__b]; \	CPU_FLAGL \|= szpcflag[__b]; \
(s) = __b; \	(s) = __b; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _WORD_DEC(s) \	#define _WORD_DEC(s) \
do { \	do { \
WORD __b = (s); \	UINT16 __b = (s); \
__b--; \	__b--; \
CPU_OV = (s) & (__b ^ (s)) & 0x8000; \	CPU_OV = (s) & (__b ^ (s)) & 0x8000; \
CPU_FLAGL &= C_FLAG; \	CPU_FLAGL &= C_FLAG; \
CPU_FLAGL \|= (BYTE)((__b ^ (s)) & A_FLAG); \	CPU_FLAGL \|= (UINT8)((__b ^ (s)) & A_FLAG); \
CPU_FLAGL \|= szpflag_w[__b]; \	CPU_FLAGL \|= szpflag_w[__b]; \
(s) = __b; \	(s) = __b; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define _DWORD_DEC(s) \	#define _DWORD_DEC(s) \
do { \	do { \
DWORD __b = (s); \	UINT32 __b = (s); \
__b--; \	__b--; \
CPU_OV = (s) & (__b ^ (s)) & 0x80000000; \	CPU_OV = (s) & (__b ^ (s)) & 0x80000000; \
CPU_FLAGL &= C_FLAG; \	CPU_FLAGL &= C_FLAG; \
CPU_FLAGL \|= (BYTE)((__b ^ (s)) & A_FLAG); \	CPU_FLAGL \|= (UINT8)((__b ^ (s)) & A_FLAG); \
if ((__b) == 0) { \	if ((__b) == 0) { \
CPU_FLAGL \|= Z_FLAG; \	CPU_FLAGL \|= Z_FLAG; \
} \	} \
if ((__b) & 0x80000000) { \	if ((__b) & 0x80000000) { \
CPU_FLAGL \|= S_FLAG; \	CPU_FLAGL \|= S_FLAG; \
} \	} \
CPU_FLAGL \|= szpcflag[(BYTE)(__b)] & P_FLAG; \	CPU_FLAGL \|= szpcflag[(UINT8)(__b)] & P_FLAG; \
(s) = __b; \	(s) = __b; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

	#define BYTE_NOT(s) \
	do { \
	(s) ^= 0xff; \
	} while (/CONSTCOND/ 0)

	#define WORD_NOT(s) \
	do { \
	(s) ^= 0xffff; \
	} while (/CONSTCOND/ 0)

	#define DWORD_NOT(s) \
	do { \
	(s) ^= 0xffffffff; \
	} while (/CONSTCOND/ 0)


/*	/*
* stack	* stack
*/	*/
#define REGPUSH(reg, clock) \	#define REGPUSH(reg, clock) \
do { \	do { \
CPU_SP -= 2; \	UINT16 __new_sp = CPU_SP - 2; \
cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_SP, reg); \
CPU_WORKCLOCK(clock); \	CPU_WORKCLOCK(clock); \
	cpu_vmemorywrite_w(CPU_SS_INDEX, __new_sp, reg); \
	CPU_SP = __new_sp; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define REGPUSH_32(reg, clock) \	#define REGPUSH_32(reg, clock) \
do { \	do { \
CPU_ESP -= 4; \	UINT32 __new_esp = CPU_ESP - 4; \
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_ESP, reg); \
CPU_WORKCLOCK(clock); \	CPU_WORKCLOCK(clock); \
	cpu_vmemorywrite_d(CPU_SS_INDEX, __new_esp, reg); \
	CPU_ESP = __new_esp; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define REGPUSH0(reg) \	#define REGPUSH0(reg) \
do { \	do { \
CPU_SP -= 2; \	UINT16 __new_sp = CPU_SP - 2; \
cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_SP, reg); \	cpu_vmemorywrite_w(CPU_SS_INDEX, __new_sp, (UINT16)reg); \
	CPU_SP = __new_sp; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

/* Operand Size == 16 && Stack Size == 32 */	/* Operand Size == 16 && Stack Size == 32 */
#define REGPUSH0_16_32(reg) \	#define REGPUSH0_16_32(reg) \
do { \	do { \
CPU_ESP -= 2; \	UINT32 __new_esp = CPU_ESP - 2; \
cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_ESP, reg); \	cpu_vmemorywrite_w(CPU_SS_INDEX, __new_esp, (UINT16)reg); \
	CPU_ESP = __new_esp; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

/* Operand Size == 32 && Stack Size == 16 */	/* Operand Size == 32 && Stack Size == 16 */
#define REGPUSH0_32_16(reg) \	#define REGPUSH0_32_16(reg) \
do { \	do { \
CPU_SP -= 4; \	UINT16 __new_sp = CPU_SP - 4; \
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_SP, reg); \	cpu_vmemorywrite_d(CPU_SS_INDEX, __new_sp, reg); \
	CPU_SP = __new_sp; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define REGPUSH0_32(reg) \	#define REGPUSH0_32(reg) \
do { \	do { \
CPU_ESP -= 4; \	UINT32 __new_esp = CPU_ESP - 4; \
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_ESP, reg); \	cpu_vmemorywrite_d(CPU_SS_INDEX, __new_esp, reg); \
	CPU_ESP = __new_esp; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define PUSH0_16(reg) \	#define PUSH0_16(reg) \
Line 757 do { \	Line 768 do { \

#define REGPOP(reg, clock) \	#define REGPOP(reg, clock) \
do { \	do { \
	CPU_WORKCLOCK(clock); \
(reg) = cpu_vmemoryread_w(CPU_SS_INDEX, CPU_SP); \	(reg) = cpu_vmemoryread_w(CPU_SS_INDEX, CPU_SP); \
CPU_SP += 2; \	CPU_SP += 2; \
CPU_WORKCLOCK(clock); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define REGPOP_32(reg, clock) \	#define REGPOP_32(reg, clock) \
do { \	do { \
	CPU_WORKCLOCK(clock); \
(reg) = cpu_vmemoryread_d(CPU_SS_INDEX, CPU_ESP); \	(reg) = cpu_vmemoryread_d(CPU_SS_INDEX, CPU_ESP); \
CPU_ESP += 4; \	CPU_ESP += 4; \
CPU_WORKCLOCK(clock); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define REGPOP0(reg) \	#define REGPOP0(reg) \
Line 816 do { \	Line 827 do { \
*/	*/
#define SP_PUSH_16(reg) \	#define SP_PUSH_16(reg) \
do { \	do { \
WORD sp = CPU_SP; \	UINT16 __sp = CPU_SP; \
if (!CPU_STAT_SS32) { \	if (!CPU_STAT_SS32) { \
REGPUSH0(sp); \	REGPUSH0(__sp); \
} else { \	} else { \
REGPUSH0_16_32(sp); \	REGPUSH0_16_32(__sp); \
} \	} \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define ESP_PUSH_32(reg) \	#define ESP_PUSH_32(reg) \
do { \	do { \
DWORD sp = CPU_ESP; \	UINT32 __esp = CPU_ESP; \
if (!CPU_STAT_SS32) { \	if (!CPU_STAT_SS32) { \
REGPUSH0_32_16(sp); \	REGPUSH0_32_16(__esp); \
} else { \	} else { \
REGPUSH0_32(sp); \	REGPUSH0_32(__esp); \
} \	} \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define SP_POP_16(reg) \	#define SP_POP_16(reg) \
do { \	do { \
DWORD sp; \	UINT32 __sp; \
if (!CPU_STAT_SS32) { \	if (!CPU_STAT_SS32) { \
sp = CPU_SP; \	__sp = CPU_SP; \
} else { \	} else { \
sp = CPU_ESP; \	__sp = CPU_ESP; \
} \	} \
CPU_SP = cpu_vmemoryread_w(CPU_SS_INDEX, sp); \	CPU_SP = cpu_vmemoryread_w(CPU_SS_INDEX, __sp); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define ESP_POP_32(reg) \	#define ESP_POP_32(reg) \
do { \	do { \
DWORD sp; \	UINT32 __esp; \
if (!CPU_STAT_SS32) { \	if (!CPU_STAT_SS32) { \
sp = CPU_SP; \	__esp = CPU_SP; \
} else { \	} else { \
sp = CPU_ESP; \	__esp = CPU_ESP; \
} \	} \
CPU_ESP = cpu_vmemoryread_d(CPU_SS_INDEX, sp); \	CPU_ESP = cpu_vmemoryread_d(CPU_SS_INDEX, __esp); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)


Line 862 do { \	Line 873 do { \
*/	*/
#define JMPSHORT(clock) \	#define JMPSHORT(clock) \
do { \	do { \
DWORD __ip; \	UINT32 __new_ip; \
	UINT32 __dest; \
CPU_WORKCLOCK(clock); \	CPU_WORKCLOCK(clock); \
__ip = __CBD(cpu_codefetch(CPU_EIP)); \	GET_PCBYTESD(__dest); \
__ip++; \	__new_ip = CPU_EIP + __dest; \
ADD_EIP(__ip); \	if (!CPU_INST_OP32) { \
	__new_ip &= 0xffff; \
	} \
	if (__new_ip > CPU_STAT_CS_LIMIT) { \
	EXCEPTION(GP_EXCEPTION, 0); \
	} \
	CPU_EIP = __new_ip; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define JMPNEAR(clock) \	#define JMPNEAR(clock) \
do { \	do { \
DWORD __ip; \	UINT16 __new_ip; \
	SINT16 __dest; \
CPU_WORKCLOCK(clock); \	CPU_WORKCLOCK(clock); \
__ip = __CWDE(cpu_codefetch_w(CPU_EIP)); \	GET_PCWORDS(__dest); \
__ip += 2; \	__new_ip = CPU_IP + __dest; \
ADD_EIP(__ip); \	if (__new_ip > CPU_STAT_CS_LIMIT) { \
	EXCEPTION(GP_EXCEPTION, 0); \
	} \
	CPU_EIP = __new_ip; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define JMPNEAR_4(clock) \	#define JMPNEAR32(clock) \
do { \	do { \
DWORD __ip; \	UINT32 __new_ip; \
	UINT32 __dest; \
CPU_WORKCLOCK(clock); \	CPU_WORKCLOCK(clock); \
__ip = cpu_codefetch_d(CPU_EIP); \	GET_PCDWORD(__dest); \
__ip += 4; \	__new_ip = CPU_EIP + __dest; \
ADD_EIP(__ip); \	if (__new_ip > CPU_STAT_CS_LIMIT) { \
	EXCEPTION(GP_EXCEPTION, 0); \
	} \
	CPU_EIP = __new_ip; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define JMPNOP(clock, d) \	#define JMPNOP(clock, d) \
do { \	do { \
CPU_WORKCLOCK(clock); \	CPU_WORKCLOCK(clock); \
ADD_EIP((d)); \	_ADD_EIP((d)); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)


/*	/*
	* conditions
	*/
	#define CC_O (CPU_OV)
	#define CC_NO (!CPU_OV)
	#define CC_C (CPU_FLAGL & C_FLAG)
	#define CC_NC (!(CPU_FLAGL & C_FLAG))
	#define CC_Z (CPU_FLAGL & Z_FLAG)
	#define CC_NZ (!(CPU_FLAGL & Z_FLAG))
	#define CC_NA (CPU_FLAGL & (Z_FLAG \| C_FLAG))
	#define CC_A (!(CPU_FLAGL & (Z_FLAG \| C_FLAG)))
	#define CC_S (CPU_FLAGL & S_FLAG)
	#define CC_NS (!(CPU_FLAGL & S_FLAG))
	#define CC_P (CPU_FLAGL & P_FLAG)
	#define CC_NP (!(CPU_FLAGL & P_FLAG))
	#define CC_L (((CPU_FLAGL & S_FLAG) == 0) != (CPU_OV == 0))
	#define CC_NL (((CPU_FLAGL & S_FLAG) == 0) == (CPU_OV == 0))
	#define CC_LE ((CPU_FLAGL & Z_FLAG) \|\| \
	(((CPU_FLAGL & S_FLAG) == 0) != (CPU_OV == 0)))
	#define CC_NLE ((!(CPU_FLAGL & Z_FLAG)) && \
	(((CPU_FLAGL & S_FLAG) == 0) == (CPU_OV == 0)))


	/*
* instruction check	* instruction check
*/	*/
#include "ia32xc.mcr"	#include "ia32xc.mcr"

RetroPC.NET-CVS <cvs@retropc.net>

Removed from v.1.10
changed lines
	Added in v.1.27