np2/i286c/i286c.c - diff

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Diff for /np2/i286c/i286c.c between versions 1.1.1.1 and 1.11

version 1.1.1.1, 2003/10/16 17:57:37	version 1.11, 2003/12/01 10:45:46
Line 1	Line 1
#include "compiler.h"	#include "compiler.h"
#include "i286.h"	#include "i286.h"
#include "i286c.h"	#include "i286c.h"
	#include "v30patch.h"
#include "memory.h"	#include "memory.h"
#include "pccore.h"	#include "pccore.h"
#include "iocore.h"	#include "iocore.h"
Line 8	Line 9
#include "i286c.mcr"	#include "i286c.mcr"


I286REGS i286r;	I286CORE i286core;
I286STAT i286s;
I286DTR GDTR;
I286DTR IDTR;
UINT16 MSW;

const BYTE iflags[256] = { // Z_FLAG, S_FLAG, P_FLAG	const BYTE iflags[256] = { // Z_FLAG, S_FLAG, P_FLAG
0x44, 0x00, 0x00, 0x04, 0x00, 0x04, 0x04, 0x00,	0x44, 0x00, 0x00, 0x04, 0x00, 0x04, 0x04, 0x00,
Line 51 const BYTE iflags[256] = { // Z_FLAG	Line 48 const BYTE iflags[256] = { // Z_FLAG

// ----	// ----

DWORD EA_FIX;	BYTE _szpcflag8[0x200];
BYTE *reg8_b53[256];
BYTE *reg8_b20[256];
UINT16 *reg16_b53[256];
UINT16 *reg16_b20[256];
BYTE szpcflag[0x200];
BYTE szpflag_w[0x10000];
CALCEA c_calc_ea_dst[256];
CALCLEA c_calc_lea[192];
GETLEA c_get_ea[192];

	#if !defined(MEMOPTIMIZE)
	BYTE _szpflag16[0x10000];
	#endif

static UINT32 ea_nop(void) {	#if !defined(MEMOPTIMIZE) \|\| (MEMOPTIMIZE < 2)
	BYTE *_reg8_b53[256];
return(0);	BYTE *_reg8_b20[256];
}	#endif
	#if !defined(MEMOPTIMIZE) \|\| (MEMOPTIMIZE < 2)
	UINT16 *_reg16_b53[256];
	UINT16 *_reg16_b20[256];
	#endif

void i286_initialize(void) {	void i286_initialize(void) {

UINT i;	UINT i;
UINT bit;	UINT bit;
BYTE f;	BYTE f;
int pos;

for (i=0; i<0x100; i++) {	for (i=0; i<0x100; i++) {
f = P_FLAG;	f = P_FLAG;
Line 88 void i286_initialize(void) {	Line 82 void i286_initialize(void) {
if (i & 0x80) {	if (i & 0x80) {
f \|= S_FLAG;	f \|= S_FLAG;
}	}
szpcflag[i+0x000] = f;	_szpcflag8[i+0x000] = f;
szpcflag[i+0x100] = f \| C_FLAG;	_szpcflag8[i+0x100] = f \| C_FLAG;
}	}

	#if !defined(MEMOPTIMIZE) \|\| (MEMOPTIMIZE < 2)
for (i=0; i<0x100; i++) {	for (i=0; i<0x100; i++) {
	int pos;
#if defined(BYTESEX_LITTLE)	#if defined(BYTESEX_LITTLE)
pos = ((i & 0x20)?1:0);	pos = ((i & 0x20)?1:0);
#else	#else
pos = ((i & 0x20)?0:1);	pos = ((i & 0x20)?0:1);
#endif	#endif
pos += ((i >> 3) & 3) * 2;	pos += ((i >> 3) & 3) * 2;
reg8_b53[i] = ((BYTE *)&i286r) + pos;	_reg8_b53[i] = ((BYTE *)&I286_REG) + pos;
#if defined(BYTESEX_LITTLE)	#if defined(BYTESEX_LITTLE)
pos = ((i & 0x4)?1:0);	pos = ((i & 0x4)?1:0);
#else	#else
pos = ((i & 0x4)?0:1);	pos = ((i & 0x4)?0:1);
#endif	#endif
pos += (i & 3) * 2;	pos += (i & 3) * 2;
reg8_b20[i] = ((BYTE *)&i286r) + pos;	_reg8_b20[i] = ((BYTE *)&I286_REG) + pos;
reg16_b53[i] = ((UINT16 *)&i286r) + ((i >> 3) & 7);	#if !defined(MEMOPTIMIZE) \|\| (MEMOPTIMIZE < 2)
reg16_b20[i] = ((UINT16 *)&i286r) + (i & 7);	_reg16_b53[i] = ((UINT16 *)&I286_REG) + ((i >> 3) & 7);
	_reg16_b20[i] = ((UINT16 *)&I286_REG) + (i & 7);
	#endif
}	}
	#endif

for (i=0; i<0xc0; i++) {	#if !defined(MEMOPTIMIZE)
pos = ((i >> 3) & 0x18) + (i & 0x07);
c_calc_ea_dst[i] = i286c_ea_dst_tbl[pos];
c_calc_lea[i] = i286c_lea_tbl[pos];
c_get_ea[i] = i286c_ea_tbl[pos];
}
for (; i<0x100; i++) {
c_calc_ea_dst[i] = ea_nop;
}
for (i=0; i<0x10000; i++) {	for (i=0; i<0x10000; i++) {
f = P_FLAG;	f = P_FLAG;
for (bit=0x80; bit; bit>>=1) {	for (bit=0x80; bit; bit>>=1) {
Line 133 void i286_initialize(void) {	Line 124 void i286_initialize(void) {
if (i & 0x8000) {	if (i & 0x8000) {
f \|= S_FLAG;	f \|= S_FLAG;
}	}
szpflag_w[i] = f;	_szpflag16[i] = f;
}	}
	#endif
	#if !defined(MEMOPTIMIZE) \|\| (MEMOPTIMIZE < 2)
	i286cea_initialize();
	#endif
	v30init();
}	}

void i286_reset(void) {	void i286_reset(void) {

i286_initialize();	i286_initialize();
ZeroMemory(&i286r, sizeof(i286r));	ZeroMemory(&i286core.s, sizeof(i286core.s));
ZeroMemory(&i286s, sizeof(i286s));
I286_CS = 0x1fc0;	I286_CS = 0x1fc0;
CS_BASE = 0x1fc00;	CS_BASE = 0x1fc00;
ZeroMemory(&GDTR, sizeof(GDTR));	i286core.s.adrsmask = 0xfffff;
ZeroMemory(&IDTR, sizeof(IDTR));
MSW = 0;
}	}

void i286_resetprefetch(void) {	void i286_resetprefetch(void) {
}	}

void CPUCALL i286_intnum(DWORD vect, WORD IP) {	void CPUCALL i286_intnum(UINT vect, REG16 IP) {

const BYTE *ptr;	const BYTE *ptr;

Line 167 const BYTE *ptr;	Line 160 const BYTE *ptr;
I286_IP = LOADINTELWORD(ptr+0); // real mode!	I286_IP = LOADINTELWORD(ptr+0); // real mode!
I286_CS = LOADINTELWORD(ptr+2); // real mode!	I286_CS = LOADINTELWORD(ptr+2); // real mode!
CS_BASE = I286_CS << 4;	CS_BASE = I286_CS << 4;
I286_CLOCK(20)	I286_WORKCLOCK(20);
}	}

void CPUCALL i286_interrupt(BYTE vect) {	void CPUCALL i286_interrupt(BYTE vect) {

BYTE op;	UINT op;
const BYTE *ptr;	const BYTE *ptr;

op = i286_memoryread(I286_IP + CS_BASE);	op = i286_memoryread(I286_IP + CS_BASE);
if (op == 0xf4) { // hlt	if (op == 0xf4) { // hlt
I286_IP++;	I286_IP++;
}	}
REGPUSH0(REAL_FLAGREG)	REGPUSH0(REAL_FLAGREG) // ��V30��ʤ�
REGPUSH0(I286_CS)	REGPUSH0(I286_CS)
REGPUSH0(I286_IP)	REGPUSH0(I286_IP)

Line 189 const BYTE *ptr;	Line 182 const BYTE *ptr;
ptr = I286_MEM + (vect * 4);	ptr = I286_MEM + (vect * 4);
I286_IP = LOADINTELWORD(ptr+0); // real mode!	I286_IP = LOADINTELWORD(ptr+0); // real mode!
I286_CS = LOADINTELWORD(ptr+2); // real mode!	I286_CS = LOADINTELWORD(ptr+2); // real mode!
CS_BASE = (UINT32)I286_CS << 4;	CS_BASE = I286_CS << 4;
I286_CLOCK(20)	I286_WORKCLOCK(20);
}	}

void i286(void) {	void i286(void) {
Line 205 void i286(void) {	Line 198 void i286(void) {
i286_interrupt(1);	i286_interrupt(1);
}	}
dmap_i286();	dmap_i286();
} while(nevent.remainclock > 0);	} while(I286_REMCLOCK > 0);
}	}
else if (dmac.working) {	else if (dmac.working) {
do {	do {
GET_PCBYTE(opcode);	GET_PCBYTE(opcode);
i286op[opcode]();	i286op[opcode]();
dmap_i286();	dmap_i286();
} while(nevent.remainclock > 0);	} while(I286_REMCLOCK > 0);
}	}
else {	else {
do {	do {
GET_PCBYTE(opcode);	GET_PCBYTE(opcode);
i286op[opcode]();	i286op[opcode]();
} while(nevent.remainclock > 0);	} while(I286_REMCLOCK > 0);
}	}
}	}

Line 239 void i286_step(void) {	Line 232 void i286_step(void) {
dmap_i286();	dmap_i286();
}	}


	// ---- test

	#if defined(I286C_TEST)
	BYTE BYTESZPF(UINT r) {

	if (r & (~0xff)) {
	TRACEOUT(("BYTESZPF bound error: %x", r));
	}
	return(_szpcflag8[r & 0xff]);
	}

	BYTE BYTESZPCF(UINT r) {

	if (r & (~0x1ff)) {
	TRACEOUT(("BYTESZPCF bound error: %x", r));
	}
	return(_szpcflag8[r & 0x1ff]);
	}

	BYTE WORDSZPF(UINT32 r) {

	BYTE f1;
	BYTE f2;

	if (r & (~0xffff)) {
	TRACEOUT(("WORDSZPF bound error: %x", r));
	}
	f1 = _szpflag16[r & 0xffff];
	f2 = _szpcflag8[r & 0xff] & P_FLAG;
	f2 += (r)?0:Z_FLAG;
	f2 += (r >> 8) & S_FLAG;
	if (f1 != f2) {
	TRACEOUT(("word flag error: %.2x %.2x", f1, f2));
	}
	return(f1);
	}

	BYTE WORDSZPCF(UINT32 r) {

	BYTE f1;
	BYTE f2;

	if ((r & 0xffff0000) && (!(r & 0x00010000))) {
	TRACEOUT(("WORDSZPCF bound error: %x", r));
	}
	f1 = (r >> 16) & 1;
	f1 += _szpflag16[LOW16(r)];

	f2 = _szpcflag8[r & 0xff] & P_FLAG;
	f2 += (LOW16(r))?0:Z_FLAG;
	f2 += (r >> 8) & S_FLAG;
	f2 += (r >> 16) & 1;

	if (f1 != f2) {
	TRACEOUT(("word flag error: %.2x %.2x", f1, f2));
	}
	return(f1);
	}
	#endif

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Removed from v.1.1.1.1
changed lines
	Added in v.1.11