np2/io/gdc_sub.c - diff

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Diff for /np2/io/gdc_sub.c between versions 1.5 and 1.9

version 1.5, 2004/01/30 14:33:27	version 1.9, 2004/02/11 04:22:18
Line 16 enum {	Line 16 enum {
typedef struct {	typedef struct {
SINT16 x;	SINT16 x;
SINT16 y;	SINT16 y;
SINT16 sx;	SINT16 x2;
SINT16 sy;	SINT16 y2;
} TEXTDIR;	} VECTDIR;

static UINT16 gdc_rt[RT_TABLEMAX+1];	static UINT16 gdc_rt[RT_TABLEMAX+1];

static const TEXTDIR textdir[8] = {	static const VECTDIR vectdir[16] = {
{ 0, 1, 1, 0}, { 1, 1, 1,-1},	{ 0, 1, 1, 0}, { 1, 1, 1,-1},
{ 1, 0, 0,-1}, { 1,-1,-1,-1},	{ 1, 0, 0,-1}, { 1,-1,-1,-1},
{ 0,-1,-1, 0}, {-1,-1,-1, 1},	{ 0,-1,-1, 0}, {-1,-1,-1, 1},
{-1, 0, 0, 1}, {-1, 1, 1, 1}};	{-1, 0, 0, 1}, {-1, 1, 1, 1},

	{ 0, 1, 1, 1}, { 1, 1, 1, 0}, // SL
	{ 1, 0, 1,-1}, { 1,-1, 0,-1},
	{ 0,-1,-1,-1}, {-1,-1,-1, 0},
	{-1, 0,-1, 1}, {-1, 1, 0, 1}};


void gdcsub_init(void) {	void gdcsub_init(void) {
Line 64 static void calc_gdcslavewait(UINT dots)	Line 69 static void calc_gdcslavewait(UINT dots)
nevent_set(NEVENT_GDCSLAVE, clk, gdcslavewait, NEVENT_ABSOLUTE);	nevent_set(NEVENT_GDCSLAVE, clk, gdcslavewait, NEVENT_ABSOLUTE);
}	}

void gdcsub_line(UINT32 csrw, const GDCVECT *vect, UINT16 pat, BYTE ope) {	void gdcsub_null(UINT32 csrw, const GDCVECT *vect, REG16 pat, REG8 ope) {

	(void)csrw;
	(void)vect;
	(void)pat;
	(void)ope;
	}

	void gdcsub_line(UINT32 csrw, const GDCVECT *vect, REG16 pat, REG8 ope) {

_GDCPSET pset;	_GDCPSET pset;
UINT dc;	UINT dc;
UINT16 x;	REG16 x;
UINT16 y;	REG16 y;
UINT i;	UINT i;
UINT16 step;	UINT16 step;
UINT d1;	UINT d1;
Line 87 void gdcsub_line(UINT32 csrw, const GDCV	Line 100 void gdcsub_line(UINT32 csrw, const GDCV
case 0:	case 0:
for (i=0; i<=dc; i++) {	for (i=0; i<=dc; i++) {
step = (UINT16)((((d1 * i) / dc) + 1) >> 1);	step = (UINT16)((((d1 * i) / dc) + 1) >> 1);
gdcpset(&pset, (UINT16)(x + step), y++);	gdcpset(&pset, (REG16)(x + step), y++);
}	}
break;	break;

case 1:	case 1:
for (i=0; i<=dc; i++) {	for (i=0; i<=dc; i++) {
step = (UINT16)((((d1 * i) / dc) + 1) >> 1);	step = (UINT16)((((d1 * i) / dc) + 1) >> 1);
gdcpset(&pset, x++, (UINT16)(y + step));	gdcpset(&pset, x++, (REG16)(y + step));
}	}
break;	break;

case 2:	case 2:
for (i=0; i<=dc; i++) {	for (i=0; i<=dc; i++) {
step = (UINT16)((((d1 * i) / dc) + 1) >> 1);	step = (UINT16)((((d1 * i) / dc) + 1) >> 1);
gdcpset(&pset, x++, (UINT16)(y - step));	gdcpset(&pset, x++, (REG16)(y - step));
}	}
break;	break;

case 3:	case 3:
for (i=0; i<=dc; i++) {	for (i=0; i<=dc; i++) {
step = (UINT16)((((d1 * i) / dc) + 1) >> 1);	step = (UINT16)((((d1 * i) / dc) + 1) >> 1);
gdcpset(&pset, (UINT16)(x + step), y--);	gdcpset(&pset, (REG16)(x + step), y--);
}	}
break;	break;

case 4:	case 4:
for (i=0; i<=dc; i++) {	for (i=0; i<=dc; i++) {
step = (UINT16)((((d1 * i) / dc) + 1) >> 1);	step = (UINT16)((((d1 * i) / dc) + 1) >> 1);
gdcpset(&pset, (UINT16)(x - step), y--);	gdcpset(&pset, (REG16)(x - step), y--);
}	}
break;	break;

case 5:	case 5:
for (i=0; i<=dc; i++) {	for (i=0; i<=dc; i++) {
step = (UINT16)((((d1 * i) / dc) + 1) >> 1);	step = (UINT16)((((d1 * i) / dc) + 1) >> 1);
gdcpset(&pset, x--, (UINT16)(y - step));	gdcpset(&pset, x--, (REG16)(y - step));
}	}
break;	break;

case 6:	case 6:
for (i=0; i<=dc; i++) {	for (i=0; i<=dc; i++) {
step = (UINT16)((((d1 * i) / dc) + 1) >> 1);	step = (UINT16)((((d1 * i) / dc) + 1) >> 1);
gdcpset(&pset, x--, (UINT16)(y + step));	gdcpset(&pset, x--, (REG16)(y + step));
}	}
break;	break;

case 7:	case 7:
for (i=0; i<=dc; i++) {	for (i=0; i<=dc; i++) {
step = (UINT16)((((d1 * i) / dc) + 1) >> 1);	step = (UINT16)((((d1 * i) / dc) + 1) >> 1);
gdcpset(&pset, (UINT16)(x - step), y++);	gdcpset(&pset, (REG16)(x - step), y++);
}	}
break;	break;
}	}
Line 144 void gdcsub_line(UINT32 csrw, const GDCV	Line 157 void gdcsub_line(UINT32 csrw, const GDCV
calc_gdcslavewait(pset.dots);	calc_gdcslavewait(pset.dots);
}	}

void gdcsub_box(UINT32 csrw, const GDCVECT *vect, UINT16 pat, BYTE ope) {	void gdcsub_box(UINT32 csrw, const GDCVECT *vect, REG16 pat, REG8 ope) {

_GDCPSET pset;	_GDCPSET pset;
UINT d;	UINT d;
UINT d2;	UINT d2;
UINT16 x;	REG16 x;
UINT16 y;	REG16 y;
UINT i;	UINT i;
	const VECTDIR *dir;

gdcpset_prepare(&pset, csrw, pat, ope);	gdcpset_prepare(&pset, csrw, pat, ope);
d = (LOADINTELWORD(vect->D)) & 0x3fff;	d = (LOADINTELWORD(vect->D)) & 0x3fff;
Line 159 void gdcsub_box(UINT32 csrw, const GDCVE	Line 173 void gdcsub_box(UINT32 csrw, const GDCVE
x = pset.x;	x = pset.x;
y = pset.y;	y = pset.y;
// ��ž�Ϥʤ��(��ȴ��)	// ��ž�Ϥʤ��(��ȴ��)
switch((vect->ope) & 7) {	dir = vectdir + ((vect->ope) & 7);
case 0:	for (i=0; i<d; i++) {
for (i=0; i<d; i++) {	gdcpset(&pset, x, y);
gdcpset(&pset, x, y++);	x += dir->x;
}	y += dir->y;
for (i=0; i<d2; i++) {	}
gdcpset(&pset, x++, y);	for (i=0; i<d2; i++) {
}	gdcpset(&pset, x, y);
for (i=0; i<d; i++) {	x += dir->x2;
gdcpset(&pset, x, y--);	y += dir->y2;
}	}
for (i=0; i<d2; i++) {	for (i=0; i<d; i++) {
gdcpset(&pset, x--, y);	gdcpset(&pset, x, y);
}	x -= dir->x;
break;	y -= dir->y;
	}
case 2:	for (i=0; i<d2; i++) {
for (i=0; i<d; i++) {	gdcpset(&pset, x, y);
gdcpset(&pset, x++, y);	x -= dir->x2;
}	y -= dir->y2;
for (i=0; i<d2; i++) {
gdcpset(&pset, x, y--);
}
for (i=0; i<d; i++) {
gdcpset(&pset, x--, y);
}
for (i=0; i<d2; i++) {
gdcpset(&pset, x, y++);
}
break;

case 4:
for (i=0; i<d; i++) {
gdcpset(&pset, x, y--);
}
for (i=0; i<d2; i++) {
gdcpset(&pset, x--, y);
}
for (i=0; i<d; i++) {
gdcpset(&pset, x, y++);
}
for (i=0; i<d2; i++) {
gdcpset(&pset, x++, y);
}
break;

case 6:
for (i=0; i<d; i++) {
gdcpset(&pset, x--, y);
}
for (i=0; i<d2; i++) {
gdcpset(&pset, x, y++);
}
for (i=0; i<d; i++) {
gdcpset(&pset, x++, y);
}
for (i=0; i<d2; i++) {
gdcpset(&pset, x, y--);
}
break;
}	}
calc_gdcslavewait(pset.dots);	calc_gdcslavewait(pset.dots);
}	}

void gdcsub_circle(UINT32 csrw, const GDCVECT *vect, UINT16 pat, BYTE ope) {	void gdcsub_circle(UINT32 csrw, const GDCVECT *vect, REG16 pat, REG8 ope) {

_GDCPSET pset;	_GDCPSET pset;
UINT r;	UINT r;
Line 253 void gdcsub_circle(UINT32 csrw, const GD	Line 227 void gdcsub_circle(UINT32 csrw, const GD
for (; i<=t; i++) {	for (; i<=t; i++) {
s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);	s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);
s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;	s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;
gdcpset(&pset, (UINT16)(x + s), (UINT16)(y + i));	gdcpset(&pset, (REG16)(x + s), (REG16)(y + i));
}	}
break;	break;

Line 261 void gdcsub_circle(UINT32 csrw, const GD	Line 235 void gdcsub_circle(UINT32 csrw, const GD
for (; i<=t; i++) {	for (; i<=t; i++) {
s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);	s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);
s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;	s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;
gdcpset(&pset, (UINT16)(x + i), (UINT16)(y + s));	gdcpset(&pset, (REG16)(x + i), (REG16)(y + s));
}	}
break;	break;

Line 269 void gdcsub_circle(UINT32 csrw, const GD	Line 243 void gdcsub_circle(UINT32 csrw, const GD
for (; i<=t; i++) {	for (; i<=t; i++) {
s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);	s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);
s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;	s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;
gdcpset(&pset, (UINT16)(x + i), (UINT16)(y - s));	gdcpset(&pset, (REG16)(x + i), (REG16)(y - s));
}	}
break;	break;

Line 277 void gdcsub_circle(UINT32 csrw, const GD	Line 251 void gdcsub_circle(UINT32 csrw, const GD
for (; i<=t; i++) {	for (; i<=t; i++) {
s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);	s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);
s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;	s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;
gdcpset(&pset, (UINT16)(x + s), (UINT16)(y - i));	gdcpset(&pset, (REG16)(x + s), (REG16)(y - i));
}	}
break;	break;

Line 285 void gdcsub_circle(UINT32 csrw, const GD	Line 259 void gdcsub_circle(UINT32 csrw, const GD
for (; i<=t; i++) {	for (; i<=t; i++) {
s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);	s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);
s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;	s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;
gdcpset(&pset, (UINT16)(x - s), (UINT16)(y - i));	gdcpset(&pset, (REG16)(x - s), (REG16)(y - i));
}	}
break;	break;

Line 293 void gdcsub_circle(UINT32 csrw, const GD	Line 267 void gdcsub_circle(UINT32 csrw, const GD
for (; i<=t; i++) {	for (; i<=t; i++) {
s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);	s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);
s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;	s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;
gdcpset(&pset, (UINT16)(x - i), (UINT16)(y - s));	gdcpset(&pset, (REG16)(x - i), (REG16)(y - s));
}	}
break;	break;

Line 301 void gdcsub_circle(UINT32 csrw, const GD	Line 275 void gdcsub_circle(UINT32 csrw, const GD
for (; i<=t; i++) {	for (; i<=t; i++) {
s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);	s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);
s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;	s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;
gdcpset(&pset, (UINT16)(x - i), (UINT16)(y + s));	gdcpset(&pset, (REG16)(x - i), (REG16)(y + s));
}	}
break;	break;

Line 309 void gdcsub_circle(UINT32 csrw, const GD	Line 283 void gdcsub_circle(UINT32 csrw, const GD
for (; i<=t; i++) {	for (; i<=t; i++) {
s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);	s = (gdc_rt[(i << RT_TABLEBIT) / m] * r);
s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;	s = (s + (1 << (RT_MULBIT - 1))) >> RT_MULBIT;
gdcpset(&pset, (UINT16)(x - s), (UINT16)(y + i));	gdcpset(&pset, (REG16)(x - s), (REG16)(y + i));
}	}
break;	break;
}	}
Line 317 void gdcsub_circle(UINT32 csrw, const GD	Line 291 void gdcsub_circle(UINT32 csrw, const GD
calc_gdcslavewait(pset.dots);	calc_gdcslavewait(pset.dots);
}	}

void gdcsub_text(UINT32 csrw, const GDCVECT *vect, UINT16 pat, BYTE ope) {	void gdcsub_text(UINT32 csrw, const GDCVECT vect, const BYTE pat,
	REG8 ope) {

_GDCPSET pset;	_GDCPSET pset;
BYTE multiple;	BYTE multiple;
UINT sx;	UINT sx;
UINT sy;	UINT sy;
const TEXTDIR *dir;	const VECTDIR *dir;
UINT patnum;	UINT patnum;
BYTE muly;	BYTE muly;
UINT16 cx;	REG16 cx;
UINT16 cy;	REG16 cy;
UINT xrem;	UINT xrem;
BYTE bit;	BYTE bit;
BYTE mulx;	BYTE mulx;

gdcpset_prepare(&pset, csrw, pat, ope);	gdcpset_prepare(&pset, csrw, 0xffff, ope);
multiple = (gdc.s.para[GDC_ZOOM] & 15) + 1;	multiple = (gdc.s.para[GDC_ZOOM] & 15) + 1;
#if 0	#if 1
sx = (LOADINTELWORD(vect->DC)) & 0x3fff) + 1;	sy = LOADINTELWORD(vect->DC);
sy = (LOADINTELWORD(vect->D)) & 0x3fff) + 1;	sy = (sy & 0x3fff) + 1;
	sx = LOADINTELWORD(vect->D);
	sx = ((sx - 1) & 0x3fff) + 1;

	// �Ƥ��ȡ��˥�ߥå�
	if (sx >= 768) {
	sx = 768;
	}
	if (sy >= 768) {
	sy = 768;
	}
#else	#else
sx = 8;	sx = 8;
sy = 8;	sy = 8;
#endif	#endif
dir = textdir + ((vect->ope) & 7);	dir = vectdir + (((vect->ope & 0x80) >> 4) + ((vect->ope) & 7));
patnum = 0;	patnum = 0;

while(sy--) {	while(sy--) {
Line 350 const TEXTDIR *dir;	Line 335 const TEXTDIR *dir;
while(muly--) {	while(muly--) {
cx = pset.x;	cx = pset.x;
cy = pset.y;	cy = pset.y;
bit = gdc.s.para[GDC_TEXTW + (patnum & 7)];	bit = pat[patnum & 7];
xrem = sx;	xrem = sx;
while(xrem--) {	while(xrem--) {
mulx = multiple;	mulx = multiple;
Line 371 const TEXTDIR *dir;	Line 356 const TEXTDIR *dir;
}	}
}	}
}	}
pset.x += dir->sx;	pset.x += dir->x2;
pset.y += dir->sy;	pset.y += dir->y2;
}	}
}	}
calc_gdcslavewait(pset.dots);	calc_gdcslavewait(pset.dots);
Line 394 void gdcsub_write(void) {	Line 379 void gdcsub_write(void) {
TRACEOUT(("gdcsub_write"));	TRACEOUT(("gdcsub_write"));
if (grcg.gdcwithgrcg & 0x8) {	if (grcg.gdcwithgrcg & 0x8) {
MessageBox(NULL, "!!! grcg working", "?", MB_OK);	MessageBox(NULL, "!!! grcg working", "?", MB_OK);
TRACEOUT(("!!! grcg working"));
}	}
#endif	#endif

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Removed from v.1.5
changed lines
	Added in v.1.9