np2/i386c/ia32/ia32.mcr - diff

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Diff for /np2/i386c/ia32/ia32.mcr between versions 1.1 and 1.12

version 1.1, 2003/12/08 00:55:31	version 1.12, 2004/02/19 03:04:01
Line 58 do { \	Line 58 do { \
(q) = __tmp; \	(q) = __tmp; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

/*
* bswap
*/
#if defined(bswap32) && !defined(USE_ASM_BSWAP)
#define BSWAP_DWORD(v) bswap32(v)
#else /* !bswap32 \|\| USE_ASM_BSWAP */
INLINE static DWORD
BSWAP_DWORD(DWORD val)
{
#if defined(__GNUC__) && (defined(i386) \|\| defined(__i386__))
__asm__ __volatile__ (
#if defined(USE_ASM_BSWAP)
"bswap %0"
#else /* !USE_ASM_BSWAP */
"rorw $8, %w1\n\t"
"rorl $16, %1\n\t"
"rorw $8, %w1\n\t"
#endif /* USE_ASM_BSWAP */
: "=r" (val) : "0" (val));
return val;
#else /* !(__GNUC__ && (i386 \|\| __i386__)) */
DWORD v;
v = (val & 0x000000ff) << 24;
v \|= (val & 0x0000ff00) << 8;
v \|= (val & 0x00ff0000) >> 8;
v \|= (val & 0xff000000) >> 24;
return v;
#endif /* __GNUC__ && (i386 \|\| __i386__) */
}
#endif /* bswap32 && !USE_ASM_BSWAP */


/*	/*
* clock	* clock
*/	*/
#ifndef DONT_USE_NEVENT
#define CPU_WORKCLOCK(clock) \	#define CPU_WORKCLOCK(clock) \
do { \	do { \
CPU_REMCLOCK -= (clock); \	CPU_REMCLOCK -= (clock); \
Line 111 do { \	Line 79 do { \
CPU_REMCLOCK = 0; \	CPU_REMCLOCK = 0; \
} \	} \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)
#endif


	/*
	* instruction pointer
	*/
#define SET_EIP(v) \	#define SET_EIP(v) \
do { \	do { \
DWORD __new_ip = (v); \	DWORD __new_ip = (v); \
if (!CPU_INST_OP32) { \
__new_ip &= 0x0000ffff; \
} \
if (__new_ip > CPU_STAT_CS_LIMIT) { \	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); \	EXCEPTION(GP_EXCEPTION, 0); \
} \	} \
CPU_EIP = __new_ip; \	CPU_EIP = __new_ip; \
Line 129 do { \	Line 97 do { \
#define ADD_EIP(v) \	#define ADD_EIP(v) \
do { \	do { \
DWORD __tmp_ip = CPU_EIP + (v); \	DWORD __tmp_ip = CPU_EIP + (v); \
if (!CPU_INST_OP32) { \	if (!CPU_STATSAVE.cpu_inst_default.op_32) { \
__tmp_ip &= 0x0000ffff; \	__tmp_ip &= 0xffff; \
} \
if (__tmp_ip > CPU_STAT_CS_LIMIT) { \
EXCEPTION(GP_EXCEPTION, 0); \
} \	} \
CPU_EIP = __tmp_ip; \	CPU_EIP = __tmp_ip; \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)
Line 360 do { \	Line 325 do { \
do { \	do { \
(d) \|= (s); \	(d) \|= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpcflag[(BYTE)(d)] & P_FLAG; \	CPU_FLAGL = (BYTE)(szpcflag[(BYTE)(d)] & P_FLAG); \
if ((d) == 0) { \	if ((d) == 0) { \
CPU_FLAGL \|= Z_FLAG; \	CPU_FLAGL \|= Z_FLAG; \
} \	} \
Line 392 do { \	Line 357 do { \

#define _ADCDWORD(r, d, s) \	#define _ADCDWORD(r, d, s) \
do { \	do { \
(r) = (CPU_FLAGL & C_FLAG) + (s) + (d); \	DWORD __c = (CPU_FLAGL & C_FLAG); \
	(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 = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \
if ((r) < (s)) { \	if ((!__c && (r) < (s)) \|\| (__c && (r) <= (s))) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
if ((r) == 0) { \	if ((r) == 0) { \
Line 430 do { \	Line 396 do { \

#define _DWORD_SBB(r, d, s) \	#define _DWORD_SBB(r, d, s) \
do { \	do { \
(r) = (d) - (s) - (CPU_FLAGL & C_FLAG); \	DWORD __c = (CPU_FLAGL & C_FLAG); \
	(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 = (BYTE)(((r) ^ (d) ^ (s)) & A_FLAG); \
if ((d) < (s)) { \	if ((!__c && (d) < (s)) \|\| (__c && (d) <= (s))) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
if ((r) == 0) { \	if ((r) == 0) { \
Line 463 do { \	Line 430 do { \
do { \	do { \
(d) &= (s); \	(d) &= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpcflag[(BYTE)(d)] & P_FLAG; \	CPU_FLAGL = (BYTE)(szpcflag[(BYTE)(d)] & P_FLAG); \
if ((d) == 0) { \	if ((d) == 0) { \
CPU_FLAGL \|= Z_FLAG; \	CPU_FLAGL \|= Z_FLAG; \
} \	} \
Line 527 do { \	Line 494 do { \
do { \	do { \
(d) ^= (s); \	(d) ^= (s); \
CPU_OV = 0; \	CPU_OV = 0; \
CPU_FLAGL = szpcflag[(BYTE)(d)] & P_FLAG; \	CPU_FLAGL = (BYTE)(szpcflag[(BYTE)(d)] & P_FLAG); \
if ((d) == 0) { \	if ((d) == 0) { \
CPU_FLAGL \|= Z_FLAG; \	CPU_FLAGL \|= Z_FLAG; \
} \	} \
Line 631 do { \	Line 598 do { \
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) = (SQWORD)(d) * (SQWORD)(s); \
CPU_OV = (DWORD)(((r) + 0x80000000ULL) >> 32); \	CPU_OV = (DWORD)(((r) + QWORD_CONST(0x80000000)) >> 32); \
if (CPU_OV) { \	if (CPU_OV) { \
CPU_FLAGL \|= C_FLAG; \	CPU_FLAGL \|= C_FLAG; \
} \	} \
Line 738 do { \	Line 705 do { \
#define REGPUSH0(reg) \	#define REGPUSH0(reg) \
do { \	do { \
CPU_SP -= 2; \	CPU_SP -= 2; \
cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_SP, reg); \	cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_SP, (WORD)reg); \
} 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; \	CPU_ESP -= 2; \
cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_ESP, reg); \	cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_ESP, (WORD)reg); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

/* Operand Size == 32 && Stack Size == 16 */	/* Operand Size == 32 && Stack Size == 16 */
Line 761 do { \	Line 728 do { \
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_ESP, reg); \	cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_ESP, reg); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define SP_PUSH(reg, clock) \
do { \
WORD sp = CPU_SP; \
CPU_SP -= 2; \
cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_SP, sp); \
CPU_WORKCLOCK(clock); \
} while (/CONSTCOND/ 0)

#define SP_PUSH0(reg) \
do { \
WORD sp = CPU_SP; \
CPU_SP -= 2; \
cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_SP, sp); \
} while (/CONSTCOND/ 0)

#define SP_PUSH0_16_32(reg) \
do { \
WORD sp = CPU_SP; \
CPU_ESP -= 2; \
cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_ESP, sp); \
} while (/CONSTCOND/ 0)

#define ESP_PUSH(reg, clock) \
do { \
DWORD esp = CPU_ESP; \
CPU_ESP -= 4; \
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_ESP, esp); \
CPU_WORKCLOCK(clock); \
} while (/CONSTCOND/ 0)

#define ESP_PUSH0_32_16(reg) \
do { \
DWORD esp = CPU_ESP; \
CPU_SP -= 4; \
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_SP, esp); \
} while (/CONSTCOND/ 0)

#define ESP_PUSH0_32(reg) \
do { \
DWORD esp = CPU_ESP; \
CPU_ESP -= 4; \
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_ESP, esp); \
} while (/CONSTCOND/ 0)

#define PUSH0_16(reg) \	#define PUSH0_16(reg) \
do { \	do { \
if (!CPU_STAT_SS32) { \	if (!CPU_STAT_SS32) { \
Line 816 do { \	Line 739 do { \

#define PUSH0_32(reg) \	#define PUSH0_32(reg) \
do { \	do { \
if (!CPU_STAT_SS32) { \	if (CPU_STAT_SS32) { \
REGPUSH0_32_16(reg); \
} else { \
REGPUSH0_32(reg); \	REGPUSH0_32(reg); \
	} else { \
	REGPUSH0_32_16(reg); \
} \	} \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

Line 832 do { \	Line 755 do { \
} \	} \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define SP_PUSH0_16(reg) \
do { \
WORD sp = CPU_SP; \
if (!CPU_STAT_SS32) { \
CPU_SP -= 2; \
cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_SP, sp); \
} else { \
CPU_ESP -= 2; \
cpu_vmemorywrite_w(CPU_SS_INDEX, CPU_ESP, sp); \
} \
} while (/CONSTCOND/ 0)

#define SP_PUSH0_32(reg) \
do { \
DWORD esp = CPU_ESP; \
if (!CPU_STAT_SS32) { \
CPU_SP -= 4; \
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_SP, esp); \
} else { \
CPU_ESP -= 4; \
cpu_vmemorywrite_d(CPU_SS_INDEX, CPU_ESP, esp); \
} \
} while (/CONSTCOND/ 0)

#define REGPOP(reg, clock) \	#define REGPOP(reg, clock) \
do { \	do { \
(reg) = cpu_vmemoryread_w(CPU_SS_INDEX, CPU_SP); \	(reg) = cpu_vmemoryread_w(CPU_SS_INDEX, CPU_SP); \
Line 905 do { \	Line 804 do { \

#define POP0_32(reg) \	#define POP0_32(reg) \
do { \	do { \
if (!CPU_STAT_SS32) { \	if (CPU_STAT_SS32) { \
	REGPOP0_32(reg); \
	} else { \
REGPOP0_32_16(reg); \	REGPOP0_32_16(reg); \
	} \
	} while (/CONSTCOND/ 0)

	/*
	* stack pointer
	*/
	#define SP_PUSH_16(reg) \
	do { \
	WORD sp = CPU_SP; \
	if (!CPU_STAT_SS32) { \
	REGPUSH0(sp); \
} else { \	} else { \
REGPOP0_32(reg); \	REGPUSH0_16_32(sp); \
} \	} \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define SP_POP0_16(reg) \	#define ESP_PUSH_32(reg) \
do { \	do { \
	DWORD sp = CPU_ESP; \
if (!CPU_STAT_SS32) { \	if (!CPU_STAT_SS32) { \
(reg) = cpu_vmemoryread_w(CPU_SS_INDEX, CPU_SP); \	REGPUSH0_32_16(sp); \
} else { \	} else { \
(reg) = cpu_vmemoryread_w(CPU_SS_INDEX, CPU_ESP); \	REGPUSH0_32(sp); \
} \	} \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

#define ESP_POP0_32(reg) \	#define SP_POP_16(reg) \
do { \	do { \
	DWORD sp; \
if (!CPU_STAT_SS32) { \	if (!CPU_STAT_SS32) { \
(reg) = cpu_vmemoryread_d(CPU_SS_INDEX, CPU_SP); \	sp = CPU_SP; \
} else { \	} else { \
(reg) = cpu_vmemoryread_d(CPU_SS_INDEX, CPU_ESP); \	sp = CPU_ESP; \
} \	} \
	CPU_SP = cpu_vmemoryread_w(CPU_SS_INDEX, sp); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

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


/*	/*
* jump	* jump
*/	*/
Line 944 do { \	Line 871 do { \

#define JMPNEAR(clock) \	#define JMPNEAR(clock) \
do { \	do { \
WORD __ip; \	DWORD __ip; \
CPU_WORKCLOCK(clock); \	CPU_WORKCLOCK(clock); \
__ip = __CWDE(cpu_codefetch_w(CPU_EIP)); \	__ip = __CWDE(cpu_codefetch_w(CPU_EIP)); \
__ip += 2; \	__ip += 2; \
Line 966 do { \	Line 893 do { \
ADD_EIP((d)); \	ADD_EIP((d)); \
} while (/CONSTCOND/ 0)	} while (/CONSTCOND/ 0)

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

#endif /* IA32_CPU_IA32_MCR__ */	#endif /* IA32_CPU_IA32_MCR__ */

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Removed from v.1.1
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	Added in v.1.12