np2/io/gdc.c - diff

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Diff for /np2/io/gdc.c between versions 1.29 and 1.40

version 1.29, 2004/03/14 23:45:44	version 1.40, 2007/11/03 00:00:20
Line 45 static const UINT8 defsyncs31[8] = {0x06	Line 45 static const UINT8 defsyncs31[8] = {0x06


static const UINT8 defdegpal[4] = {0x04,0x15,0x26,0x37};	static const UINT8 defdegpal[4] = {0x04,0x15,0x26,0x37};
	static const UINT16 defanapal[16] = {
	0x000,0x007,0x070,0x077,0x700,0x707,0x770,0x777,
	0x444,0x00f,0x0f0,0x0ff,0xf00,0xf0f,0xff0,0xfff};


void gdc_setdegitalpal(int color, REG8 value) {	void gdc_setdegitalpal(int color, REG8 value) {
Line 71 void gdc_setdegitalpal(int color, REG8 v	Line 72 void gdc_setdegitalpal(int color, REG8 v
}	}
}	}

	void gdc_setdegpalpack(int color, REG8 value) {

	if ((gdc.degpal[color] ^ value) & 0x77) {
	gdcs.palchange = GDCSCRN_REDRAW;
	}
	gdc.degpal[color] = (UINT8)value;
	}

void gdc_setanalogpal(int color, int rgb, REG8 value) {	void gdc_setanalogpal(int color, int rgb, REG8 value) {

UINT8 *ptr;	UINT8 *ptr;
Line 84 void gdc_setanalogpal(int color, int rgb	Line 93 void gdc_setanalogpal(int color, int rgb
event = palevent.event + palevent.events;	event = palevent.event + palevent.events;
event->clock = nevent.item[NEVENT_FLAMES].clock -	event->clock = nevent.item[NEVENT_FLAMES].clock -
(CPU_BASECLOCK - CPU_REMCLOCK);	(CPU_BASECLOCK - CPU_REMCLOCK);
event->color = (color * sizeof(RGB32)) + rgb;	event->color = (UINT16)((color * sizeof(RGB32)) + rgb);
event->value = (UINT8)value;	event->value = (UINT8)value;
palevent.events++;	palevent.events++;
}	}
Line 96 void gdc_setanalogpal(int color, int rgb	Line 105 void gdc_setanalogpal(int color, int rgb
*ptr = value;	*ptr = value;
}	}

void gdc_setdegpalpack(int color, REG8 value) {	void gdc_setanalogpalall(const UINT16 *paltbl) {

if ((gdc.degpal[color] ^ value) & 0x77) {	UINT c;
gdcs.palchange = GDCSCRN_REDRAW;	UINT pal;

	for (c=0; c<16; c++) {
	pal = *paltbl++;
	#if defined(SUPPORT_PC9821)
	gdc.anareg[(c * 3) + 0] = (pal >> 8) & 15;
	gdc.anareg[(c * 3) + 1] = (pal >> 4) & 15;
	gdc.anareg[(c * 3) + 2] = (pal >> 0) & 15;
	#endif
	gdc_setanalogpal(c, offsetof(RGB32, p.g), (REG8)((pal >> 8) & 15));
	gdc_setanalogpal(c, offsetof(RGB32, p.r), (REG8)((pal >> 4) & 15));
	gdc_setanalogpal(c, offsetof(RGB32, p.b), (REG8)((pal >> 0) & 15));
}	}
gdc.degpal[color] = (UINT8)value;
}	}


void gdc_paletteinit(void) {	void gdc_paletteinit(void) {

int c;	int c;
Line 128 void gdc_analogext(BOOL extend) {	Line 148 void gdc_analogext(BOOL extend) {

if (extend) {	if (extend) {
gdc.analog \|= (1 << GDCANALOG_256);	gdc.analog \|= (1 << GDCANALOG_256);
vramop.operate \|= 0x20;	vramop.operate \|= (1 << VOPBIT_VGA);
}	}
else {	else {
gdc.analog &= ~(1 << (GDCANALOG_256));	gdc.analog &= ~(1 << (GDCANALOG_256));
vramop.operate &= ~0x20;	vramop.operate &= ~(1 << VOPBIT_VGA);
}	}
gdcs.palchange = GDCSCRN_REDRAW;	gdcs.palchange = GDCSCRN_REDRAW;
gdcs.grphdisp \|= GDCSCRN_EXT \| GDCSCRN_ALLDRAW2;	gdcs.grphdisp \|= GDCSCRN_EXT \| GDCSCRN_ALLDRAW2;
i286_vram_dispatch(vramop.operate);	MEMM_VRAM(vramop.operate);
}	}
#endif	#endif

Line 384 const GDCCLK *clk;	Line 404 const GDCCLK *clk;
y = clk->maxy;	y = clk->maxy;
}	}
hclock = clk->clock / x;	hclock = clk->clock / x;
	gdc.hclock = hclock;
	gdc.vclock = hclock * 10 / y;
cnt = (pccore.baseclock * y) / hclock;	cnt = (pccore.baseclock * y) / hclock;
cnt *= pccore.multiple;	cnt *= pccore.multiple;
gdc.rasterclock = cnt / y;	gdc.rasterclock = cnt / y;
Line 395 const GDCCLK *clk;	Line 417 const GDCCLK *clk;

void gdc_restorekacmode(void) {	void gdc_restorekacmode(void) {

BYTE bit;	UINT8 bit;

bit = (((!np2cfg.uPD72020) && (gdc.mode1 & 0x20))?0x00:0xff);	bit = (((!np2cfg.uPD72020) && (gdc.mode1 & 0x20))?0x00:0xff);
if (gdc.bitac != bit) {	if (gdc.bitac != bit) {
Line 481 static void IOOUTCALL gdc_o6a(UINT port,	Line 503 static void IOOUTCALL gdc_o6a(UINT port,
gdc.analog &= ~(1 << GDCANALOG_16);	gdc.analog &= ~(1 << GDCANALOG_16);
gdc.analog \|= (dat << GDCANALOG_16);	gdc.analog \|= (dat << GDCANALOG_16);
gdcs.palchange = GDCSCRN_REDRAW;	gdcs.palchange = GDCSCRN_REDRAW;
vramop.operate &= VOP_ANALOGMASK;	vramop.operate &= ~(1 << VOPBIT_ANALOG);
vramop.operate \|= dat << 4;	vramop.operate \|= dat << VOPBIT_ANALOG;
i286_vram_dispatch(vramop.operate);	MEMM_VRAM(vramop.operate);
}	}
break;	break;

case 2:	case 2:
if ((gdc.mode2 & 0x08) && (grcg.chip == 3)) {	if ((gdc.mode2 & 0x08) && (grcg.chip == 3)) {
vramop.operate &= VOP_EGCMASK;	vramop.operate &= ~(1 << VOPBIT_EGC);
vramop.operate \|= dat << 1;	vramop.operate \|= dat << VOPBIT_EGC;
i286_vram_dispatch(vramop.operate);	MEMM_VRAM(vramop.operate);
}	}
break;	break;
}	}
Line 603 static REG8 IOINPCALL gdc_i60(UINT port)	Line 625 static REG8 IOINPCALL gdc_i60(UINT port)
UINT16 memv;	UINT16 memv;
addr = CPU_INPADRS;	addr = CPU_INPADRS;
jadr = 0xfa74;	jadr = 0xfa74;
memv = i286_memoryread_w(addr);	memv = MEML_READ16(addr);
while((memv == 0x00eb) \|\| (memv == 0x5fe6)) {	while((memv == 0x00eb) \|\| (memv == 0x5fe6)) {
jadr -= 0x200;	jadr -= 0x200;
addr += 2;	addr += 2;
memv = i286_memoryread_w(addr);	memv = MEML_READ16(addr);
}	}
if ((memv == 0x20a8) \|\| (memv == 0x2024)) {	if ((memv == 0x20a8) \|\| (memv == 0x2024)) {
memv = i286_memoryread_w(addr + 2);	memv = MEML_READ16(addr + 2);
if (memv == jadr) { // je	if (memv == jadr) { // je
if (!gdc.vsync) {	if (!gdc.vsync) {
CPU_REMCLOCK = -1;	CPU_REMCLOCK = -1;
Line 691 static void IOOUTCALL gdc_oa4(UINT port,	Line 713 static void IOOUTCALL gdc_oa4(UINT port,

static void IOOUTCALL gdc_oa6(UINT port, REG8 dat) {	static void IOOUTCALL gdc_oa6(UINT port, REG8 dat) {

if ((gdcs.access ^ dat) & 1) {	dat = dat & 1;
gdcs.access = dat & 1;	if (gdcs.access != dat) {
vramop.operate &= VOP_ACCESSMASK;	gdcs.access = (UINT8)dat;
vramop.operate \|= gdcs.access;	vramop.operate &= ~(1 << VOPBIT_ACCESS);
i286_vram_dispatch(vramop.operate);	vramop.operate \|= dat << VOPBIT_ACCESS;
	MEMM_VRAM(vramop.operate);
}	}
(void)port;	(void)port;
}	}
Line 731 static REG8 IOINPCALL gdc_ia0(UINT port)	Line 754 static REG8 IOINPCALL gdc_ia0(UINT port)
UINT16 memv;	UINT16 memv;
addr = CPU_INPADRS;	addr = CPU_INPADRS;
jadr = 0xfa74;	jadr = 0xfa74;
memv = i286_memoryread_w(addr);	memv = MEML_READ16(addr);
while((memv == 0x00eb) \|\| (memv == 0x5fe6)) {	while((memv == 0x00eb) \|\| (memv == 0x5fe6)) {
jadr -= 0x200;	jadr -= 0x200;
addr += 2;	addr += 2;
memv = i286_memoryread_w(addr);	memv = MEML_READ16(addr);
}	}
if ((memv == 0x20a8) \|\| (memv == 0x2024)) {	if ((memv == 0x20a8) \|\| (memv == 0x2024)) {
memv = i286_memoryread_w(addr + 2);	memv = MEML_READ16(addr + 2);
if (memv == jadr) { // je	if (memv == jadr) { // je
if (!gdc.vsync) {	if (!gdc.vsync) {
CPU_REMCLOCK = -1;	CPU_REMCLOCK = -1;
Line 808 static void IOOUTCALL gdc_oaa(UINT port,	Line 831 static void IOOUTCALL gdc_oaa(UINT port,
#endif	#endif
if (gdc.analog & (1 << GDCANALOG_16)) {	if (gdc.analog & (1 << GDCANALOG_16)) {
#if defined(SUPPORT_PC9821)	#if defined(SUPPORT_PC9821)
gdc.anareg[(gdc.palnum * 3) + 2] = dat;	gdc.anareg[(gdc.palnum * 3) + 0] = dat;
#endif	#endif
gdc_setanalogpal(gdc.palnum & 15, offsetof(RGB32, p.g), dat);	gdc_setanalogpal(gdc.palnum & 15, offsetof(RGB32, p.g), dat);
}	}
Line 829 static void IOOUTCALL gdc_oac(UINT port,	Line 852 static void IOOUTCALL gdc_oac(UINT port,
#endif	#endif
if (gdc.analog & (1 << GDCANALOG_16)) {	if (gdc.analog & (1 << GDCANALOG_16)) {
#if defined(SUPPORT_PC9821)	#if defined(SUPPORT_PC9821)
gdc.anareg[(gdc.palnum * 3) + 2] = dat;	gdc.anareg[(gdc.palnum * 3) + 1] = dat;
#endif	#endif
gdc_setanalogpal(gdc.palnum & 15, offsetof(RGB32, p.r), dat);	gdc_setanalogpal(gdc.palnum & 15, offsetof(RGB32, p.r), dat);
}	}
Line 876 static REG8 IOINPCALL gdc_iaa(UINT port)	Line 899 static REG8 IOINPCALL gdc_iaa(UINT port)
return(gdc.anareg[(16 * 3) + (gdc.palnum * 4) + 0]);	return(gdc.anareg[(16 * 3) + (gdc.palnum * 4) + 0]);
}	}
if (gdc.analog & (1 << GDCANALOG_16)) {	if (gdc.analog & (1 << GDCANALOG_16)) {
return(gdc.anareg[(gdc.palnum * 3) + 2]);	return(gdc.anareg[(gdc.palnum * 3) + 0]);
}	}
(void)port;	(void)port;
return(gdc.degpal[1]);	return(gdc.degpal[1]);
Line 888 static REG8 IOINPCALL gdc_iac(UINT port)	Line 911 static REG8 IOINPCALL gdc_iac(UINT port)
return(gdc.anareg[(16 * 3) + (gdc.palnum * 4) + 1]);	return(gdc.anareg[(16 * 3) + (gdc.palnum * 4) + 1]);
}	}
if (gdc.analog & (1 << GDCANALOG_16)) {	if (gdc.analog & (1 << GDCANALOG_16)) {
return(gdc.anareg[(gdc.palnum * 3) + 2]);	return(gdc.anareg[(gdc.palnum * 3) + 1]);
}	}
(void)port;	(void)port;
return(gdc.degpal[2]);	return(gdc.degpal[2]);
Line 913 static REG8 IOINPCALL gdc_iae(UINT port)	Line 936 static REG8 IOINPCALL gdc_iae(UINT port)
#if defined(SUPPORT_PC9821)	#if defined(SUPPORT_PC9821)
static void IOOUTCALL gdc_o9a0(UINT port, REG8 dat) {	static void IOOUTCALL gdc_o9a0(UINT port, REG8 dat) {

	gdc.ff2 = dat;
(void)port;	(void)port;
(void)dat;
}	}

static REG8 IOINPCALL gdc_i9a0(UINT port) {	static REG8 IOINPCALL gdc_i9a0(UINT port) {

	REG8 ret;

	ret = 0;
	switch(gdc.ff2) {
	case 0x00:
	ret = 0xff;
	break;

	case 0x01:
	ret = (gdc.mode1 >> 1) & 1;
	break;

	case 0x02:
	ret = (gdc.mode1 >> 4) & 1;
	break;

	case 0x03:
	ret = (gdc.mode1 >> 7) & 1;
	break;

	case 0x04:
	ret = (gdc.mode2 >> 0) & 1;
	break;

	case 0x05:
	ret = (gdc.display >> GDCDISP_PLAZMA) & 1;
	break;

	case 0x07:
	ret = (gdc.mode2 >> 2) & 1;
	break;

	case 0x08:
	ret = (gdc.mode2 >> 3) & 1;
	break;

	case 0x09:
	ret = (gdc.clock >> 0) & 1;
	break;

	case 0x0a:
	ret = (gdc.analog >> GDCANALOG_256) & 1;
	break;

	case 0x0b:
	ret = 1;
	break;

	case 0x0d:
	ret = (gdc.analog >> GDCANALOG_256E) & 1;
	break;
	}
	ret \|= (gdc.clock & 2);
(void)port;	(void)port;
return(0);	return(ret);
}	}
#endif	#endif

Line 969 static const IOINP gdcia0[8] = {	Line 1045 static const IOINP gdcia0[8] = {

void gdc_biosreset(void) {	void gdc_biosreset(void) {

	#if defined(SUPPORT_PC9821)
	UINT i;
	UINT j;
	UINT8 tmp;
	UINT8 *pal;
	#endif

if (!(np2cfg.dipsw[0] & 0x01)) {	if (!(np2cfg.dipsw[0] & 0x01)) {
gdc.mode1 = 0x98;	gdc.mode1 = 0x98;
gdc.m.para[GDC_CSRFORM + 0] = 0x0f;	gdc.m.para[GDC_CSRFORM + 0] = 0x0f;
Line 1004 void gdc_biosreset(void) {	Line 1087 void gdc_biosreset(void) {
gdcs.access = 0;	gdcs.access = 0;
gdc.analog &= ~(1 << GDCANALOG_16);	gdc.analog &= ~(1 << GDCANALOG_16);
gdcs.palchange = GDCSCRN_REDRAW;	gdcs.palchange = GDCSCRN_REDRAW;
vramop.operate &= VOP_ACCESSMASK;
vramop.operate &= VOP_EGCMASK;	gdc.mode2 &= ~(1 << 0);
vramop.operate &= VOP_ANALOGMASK;	gdc.mode2 &= ~(1 << 2);
	gdc.mode2 &= ~(1 << 3);
	gdcs.mode2 = gdc.mode2;

	vramop.operate &= ~(1 << VOPBIT_ACCESS);
	vramop.operate &= ~(1 << VOPBIT_EGC);
	vramop.operate &= ~(1 << VOPBIT_ANALOG);
#if defined(SUPPORT_PC9821)	#if defined(SUPPORT_PC9821)
gdc.analog &= ~(1 << (GDCANALOG_256));	gdc.analog &= ~(1 << (GDCANALOG_256));
vramop.operate &= ~0x20;	vramop.operate &= ~(1 << VOPBIT_VGA);
#endif	#endif
i286_vram_dispatch(vramop.operate);	MEMM_VRAM(vramop.operate);

	// palette
	CopyMemory(gdc.degpal, defdegpal, 4);
	if (gdc.display & (1 << GDCDISP_ANALOG)) {
	gdc_setanalogpalall(defanapal);
	}
	#if defined(SUPPORT_PC9821)
	pal = gdc.anareg + (16 * 3);
	for (i=0; i<256; i+=8) {
	tmp = (UINT8)((i)?(i - 4):0);
	pal[0] = tmp;
	pal[1] = tmp;
	pal[2] = tmp;
	pal += 4;
	for (j=1; j<8; j++) {
	pal[0] = (UINT8)((i + 7) * ((j >> 2) & 1));
	pal[1] = (UINT8)((i + 7) * ((j >> 1) & 1));
	pal[2] = (UINT8)((i + 7) * ((j >> 0) & 1));
	pal += 4;
	}
	}
	#endif
gdcs.textdisp = GDCSCRN_ALLDRAW2 \| GDCSCRN_EXT;	gdcs.textdisp = GDCSCRN_ALLDRAW2 \| GDCSCRN_EXT;
gdcs.grphdisp = GDCSCRN_ALLDRAW2 \| GDCSCRN_EXT;	gdcs.grphdisp = GDCSCRN_ALLDRAW2 \| GDCSCRN_EXT;
	gdcs.palchange = GDCSCRN_REDRAW;
screenupdate \|= 2;	screenupdate \|= 2;
}	}

void gdc_reset(void) {	void gdc_reset(const NP2CFG *pConfig) {

ZeroMemory(&gdc, sizeof(gdc));	ZeroMemory(&gdc, sizeof(gdc));
ZeroMemory(&gdcs, sizeof(gdcs));	ZeroMemory(&gdcs, sizeof(gdcs));

	#if defined(SUPPORT_PC9821)
	gdc.display \|= (1 << GDCDISP_ANALOG);
	#else
if (np2cfg.color16 & 1) {	if (np2cfg.color16 & 1) {
gdc.display = (1 << GDCDISP_ANALOG);	gdc.display \|= (1 << GDCDISP_ANALOG);
}	}
	#endif
if (!(np2cfg.dipsw[0] & 0x04)) { // dipsw1-3 on	if (!(np2cfg.dipsw[0] & 0x04)) { // dipsw1-3 on
gdc.display \|= (1 << GDCDISP_PLAZMA2);	gdc.display \|= (1 << GDCDISP_PLAZMA2);
}	}

gdc_biosreset();	gdc_biosreset();
gdc_paletteinit();
	(void)pConfig;
}	}

void gdc_bind(void) {	void gdc_bind(void) {

gdc_updateclock();	gdc_updateclock();
#if defined(SUPPORT_PC9821) // �Ȥꤢ��եå��	#if defined(SUPPORT_PC9821)
iocore_attachout(0x09a0, gdc_o9a0);	iocore_attachout(0x09a0, gdc_o9a0);
iocore_attachinp(0x09a0, gdc_i9a0);	iocore_attachinp(0x09a0, gdc_i9a0);
#endif	#endif

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

Removed from v.1.29
changed lines
	Added in v.1.40