np2/lio/gput1.c - diff

Return to gput1.c CVS log

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Diff for /np2/lio/gput1.c between versions 1.10 and 1.16

version 1.10, 2004/02/21 20:48:52	version 1.16, 2005/02/07 14:46:12
Line 8	Line 8


typedef struct {	typedef struct {
BYTE x1[2];	UINT8 x1[2];
BYTE y1[2];	UINT8 y1[2];
BYTE x2[2];	UINT8 x2[2];
BYTE y2[2];	UINT8 y2[2];
BYTE off[2];	UINT8 off[2];
BYTE seg[2];	UINT8 seg[2];
BYTE leng[2];	UINT8 leng[2];
} GGET;	} GGET;

typedef struct {	typedef struct {
BYTE x[2];	UINT8 x[2];
BYTE y[2];	UINT8 y[2];
BYTE off[2];	UINT8 off[2];
BYTE seg[2];	UINT8 seg[2];
BYTE leng[2];	UINT8 leng[2];
BYTE mode;	UINT8 mode;
BYTE colorsw;	UINT8 colorsw;
BYTE fg;	UINT8 fg;
BYTE bg;	UINT8 bg;
} GPUT1;	} GPUT1;

typedef struct {	typedef struct {
BYTE x[2];	UINT8 x[2];
BYTE y[2];	UINT8 y[2];
BYTE chr[2];	UINT8 chr[2];
BYTE mode;	UINT8 mode;
BYTE colorsw;	UINT8 colorsw;
BYTE fg;	UINT8 fg;
BYTE bg;	UINT8 bg;
} GPUT2;	} GPUT2;

typedef struct {	typedef struct {
Line 53 typedef struct {	Line 53 typedef struct {
} LIOPUT;	} LIOPUT;

typedef struct {	typedef struct {
BYTE *baseptr;	UINT8 *baseptr;
UINT addr;	UINT addr;
UINT sft;	UINT sft;
UINT width;	UINT width;
Line 61 typedef struct {	Line 61 typedef struct {
} GETCNTX;	} GETCNTX;

typedef struct {	typedef struct {
BYTE *baseptr;	UINT8 *baseptr;
UINT addr;	UINT addr;
UINT sft;	UINT sft;
UINT width;	UINT width;
Line 69 typedef struct {	Line 69 typedef struct {
UINT8 maskr;	UINT8 maskr;
UINT8 masklr;	UINT8 masklr;
UINT8 mask;	UINT8 mask;
BYTE pat[84];	UINT8 pat[84];
} PUTCNTX;	} PUTCNTX;


static void getvram(const GETCNTX gt, BYTE dst) {	static void getvram(const GETCNTX gt, UINT8 dst) {

BYTE *baseptr;	UINT8 *baseptr;
UINT addr;	UINT addr;
UINT width;	UINT width;
UINT dat;	UINT dat;
Line 116 static void setdirty(UINT addr, UINT wid	Line 116 static void setdirty(UINT addr, UINT wid

static void putor(const PUTCNTX *pt) {	static void putor(const PUTCNTX *pt) {

BYTE *baseptr;	UINT8 *baseptr;
UINT addr;	UINT addr;
const BYTE *src;	const UINT8 *src;
UINT width;	UINT width;
UINT dat;	UINT dat;

Line 150 const BYTE *src;	Line 150 const BYTE *src;

static void putorn(const PUTCNTX *pt) {	static void putorn(const PUTCNTX *pt) {

BYTE *baseptr;	UINT8 *baseptr;
UINT addr;	UINT addr;
const BYTE *src;	const UINT8 *src;
UINT width;	UINT width;
UINT dat;	UINT dat;

Line 184 const BYTE *src;	Line 184 const BYTE *src;

static void putand(const PUTCNTX *pt) {	static void putand(const PUTCNTX *pt) {

BYTE *baseptr;	UINT8 *baseptr;
UINT addr;	UINT addr;
const BYTE *src;	const UINT8 *src;
UINT width;	UINT width;
UINT dat;	UINT dat;

Line 218 const BYTE *src;	Line 218 const BYTE *src;

static void putandn(const PUTCNTX *pt) {	static void putandn(const PUTCNTX *pt) {

BYTE *baseptr;	UINT8 *baseptr;
UINT addr;	UINT addr;
const BYTE *src;	const UINT8 *src;
UINT width;	UINT width;
UINT dat;	UINT dat;

Line 252 const BYTE *src;	Line 252 const BYTE *src;

static void putxor(const PUTCNTX *pt) {	static void putxor(const PUTCNTX *pt) {

BYTE *baseptr;	UINT8 *baseptr;
UINT addr;	UINT addr;
const BYTE *src;	const UINT8 *src;
UINT width;	UINT width;
UINT dat;	UINT dat;

Line 286 const BYTE *src;	Line 286 const BYTE *src;

static void putxorn(const PUTCNTX *pt) {	static void putxorn(const PUTCNTX *pt) {

BYTE *baseptr;	UINT8 *baseptr;
UINT addr;	UINT addr;
const BYTE *src;	const UINT8 *src;
UINT width;	UINT width;
UINT dat;	UINT dat;

Line 371 static REG8 putsub(GLIO lio, const LIOPU	Line 371 static REG8 putsub(GLIO lio, const LIOPU
flag >>= 1;	flag >>= 1;
if (flag & 8) {	if (flag & 8) {
pt.baseptr = mem + lio->draw.base + lioplaneadrs[pl];	pt.baseptr = mem + lio->draw.base + lioplaneadrs[pl];
i286_memstr_read(lput->seg, off, pt.pat, datacnt);	MEML_READSTR(lput->seg, off, pt.pat, datacnt);
if (lput->sw) {	if (lput->sw) {
off += datacnt;	off += datacnt;
}	}
Line 469 REG8 lio_gget(GLIO lio) {	Line 469 REG8 lio_gget(GLIO lio) {
UINT datacnt;	UINT datacnt;
UINT mask;	UINT mask;
GETCNTX gt;	GETCNTX gt;
BYTE pat[84];	UINT8 pat[84];
UINT pl;	UINT pl;

lio_updatedraw(lio);	lio_updatedraw(lio);
i286_memstr_read(CPU_DS, CPU_BX, &dat, sizeof(dat));	MEML_READSTR(CPU_DS, CPU_BX, &dat, sizeof(dat));
x = (SINT16)LOADINTELWORD(dat.x1);	x = (SINT16)LOADINTELWORD(dat.x1);
y = (SINT16)LOADINTELWORD(dat.y1);	y = (SINT16)LOADINTELWORD(dat.y1);
x2 = (SINT16)LOADINTELWORD(dat.x2);	x2 = (SINT16)LOADINTELWORD(dat.x2);
Line 509 REG8 lio_gget(GLIO lio) {	Line 509 REG8 lio_gget(GLIO lio) {
if (leng < (size + 4)) {	if (leng < (size + 4)) {
return(LIO_ILLEGALFUNC);	return(LIO_ILLEGALFUNC);
}	}
i286_memword_write(seg, off, (REG16)x2);	MEML_WRITE16(seg, off, (REG16)x2);
i286_memword_write(seg, off+2, (REG16)y2);	MEML_WRITE16(seg, off+2, (REG16)y2);
off += 4;	off += 4;
gt.addr = (x >> 3) + (y * 80);	gt.addr = (x >> 3) + (y * 80);
if (lio->draw.flag & LIODRAW_UPPER) {	if (lio->draw.flag & LIODRAW_UPPER) {
Line 526 REG8 lio_gget(GLIO lio) {	Line 526 REG8 lio_gget(GLIO lio) {
if (mask & 8) {	if (mask & 8) {
gt.baseptr = mem + lio->draw.base + lioplaneadrs[pl];	gt.baseptr = mem + lio->draw.base + lioplaneadrs[pl];
getvram(&gt, pat);	getvram(&gt, pat);
i286_memstr_write(seg, off, pat, datacnt);	MEML_WRITESTR(seg, off, pat, datacnt);
off += datacnt;	off += datacnt;
}	}
}	}
Line 547 REG8 lio_gput1(GLIO lio) {	Line 547 REG8 lio_gput1(GLIO lio) {
UINT size;	UINT size;

lio_updatedraw(lio);	lio_updatedraw(lio);
i286_memstr_read(CPU_DS, CPU_BX, &dat, sizeof(dat));	MEML_READSTR(CPU_DS, CPU_BX, &dat, sizeof(dat));
lput.x = (SINT16)LOADINTELWORD(dat.x);	lput.x = (SINT16)LOADINTELWORD(dat.x);
lput.y = (SINT16)LOADINTELWORD(dat.y);	lput.y = (SINT16)LOADINTELWORD(dat.y);
lput.off = (UINT16)(LOADINTELWORD(dat.off) + 4);	lput.off = (UINT16)(LOADINTELWORD(dat.off) + 4);
lput.seg = LOADINTELWORD(dat.seg);	lput.seg = LOADINTELWORD(dat.seg);
lput.mode = dat.mode;	lput.mode = dat.mode;
leng = LOADINTELWORD(dat.leng);	leng = LOADINTELWORD(dat.leng);
lput.width = i286_memword_read(lput.seg, lput.off - 4);	lput.width = MEML_READ16(lput.seg, lput.off - 4);
lput.height = i286_memword_read(lput.seg, lput.off - 2);	lput.height = MEML_READ16(lput.seg, lput.off - 2);
size = ((lput.width + 7) >> 3) * lput.height;	size = ((lput.width + 7) >> 3) * lput.height;
if (leng < (size + 4)) {	if (leng < (size + 4)) {
return(LIO_ILLEGALFUNC);	return(LIO_ILLEGALFUNC);
Line 594 REG8 lio_gput2(GLIO lio) {	Line 594 REG8 lio_gput2(GLIO lio) {
GPUT2 dat;	GPUT2 dat;
LIOPUT lput;	LIOPUT lput;
UINT16 jis;	UINT16 jis;
	int pat;
REG16 size;	REG16 size;

lio_updatedraw(lio);	lio_updatedraw(lio);
i286_memstr_read(CPU_DS, CPU_BX, &dat, sizeof(dat));	MEML_READSTR(CPU_DS, CPU_BX, &dat, sizeof(dat));
lput.x = (SINT16)LOADINTELWORD(dat.x);	lput.x = (SINT16)LOADINTELWORD(dat.x);
lput.y = (SINT16)LOADINTELWORD(dat.y);	lput.y = (SINT16)LOADINTELWORD(dat.y);
	lput.off = 0x104e;
	lput.seg = CPU_DS;
jis = LOADINTELWORD(dat.chr);	jis = LOADINTELWORD(dat.chr);
if (jis & 0xff00) {	pat = 0;
lput.off = 0x104e;	if (jis < 0x200) {
lput.seg = CPU_DS;	if (jis < 0x80) {
if (jis < 0x200) { // 1/4ANK	if (jis == 0x7c) {
	pat = 1;
	}
	else if (jis == 0x7e) {
	pat = 2;
	}
	else {
	jis += 0x2900;
	}
	}
	else if (jis < 0x100) {
	if ((jis - 0x20) & 0x40) {
	pat = (jis & 0x3f) + 3;
	}
	else {
	jis += 0x2980;
	}
	}
	else {
jis &= 0xff;	jis &= 0xff;
}	}
	}
	if (!pat) {
size = bios0x18_14(lput.seg, 0x104c, jis);	size = bios0x18_14(lput.seg, 0x104c, jis);
lput.width = (size & 0xff00) >> (8 - 3);
lput.height = (size & 0xff) << 3;
}	}
else {	else {
return(0);	MEML_WRITESTR(lput.seg, lput.off, mem + (LIO_SEGMENT << 4) +
	LIO_FONT + ((pat - 1) << 4), 0x10);
	size = 0x0102;
}	}
	lput.width = (size & 0xff00) >> (8 - 3);
	lput.height = (size & 0xff) << 3;
lput.mode = dat.mode;	lput.mode = dat.mode;
lput.sw = 0;	lput.sw = 0;
if (dat.colorsw) {	if (dat.colorsw) {

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

Removed from v.1.10
changed lines
	Added in v.1.16