np2/i286c/memory.c - diff

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Diff for /np2/i286c/memory.c between versions 1.1.1.1 and 1.3

version 1.1.1.1, 2003/10/16 17:57:47	version 1.3, 2003/11/15 07:10:02
Line 19 static void MEMCALL i286_wt(UINT32 addre	Line 19 static void MEMCALL i286_wt(UINT32 addre

static void MEMCALL tram_wt(UINT32 address, BYTE value) {	static void MEMCALL tram_wt(UINT32 address, BYTE value) {

nevent.remainclock -= vramop.tramwait;	I286_REMCLOCK -= vramop.tramwait;
if (address < 0xa2000) {	if (address < 0xa2000) {
mem[address] = value;	mem[address] = value;
tramupdate[(address >> 1) & 0x0fff] = 1;	tramupdate[(address >> 1) & 0x0fff] = 1;
Line 44 static void MEMCALL tram_wt(UINT32 addre	Line 44 static void MEMCALL tram_wt(UINT32 addre
else if (address < 0xa5000) {	else if (address < 0xa5000) {
if ((address & 1) && (cgwindow.writable & 1)) {	if ((address & 1) && (cgwindow.writable & 1)) {
cgwindow.writable \|= 0x80;	cgwindow.writable \|= 0x80;
font[cgwindow.high + ((address >> 1) & 0x0f)] = value;	fontrom[cgwindow.high + ((address >> 1) & 0x0f)] = value;
}	}
}	}
}	}

static void MEMCALL vram_w0(UINT32 address, BYTE value) {	static void MEMCALL vram_w0(UINT32 address, BYTE value) {

nevent.remainclock -= vramop.vramwait;	I286_REMCLOCK -= vramop.vramwait;
mem[address] = value;	mem[address] = value;
vramupdate[address & 0x7fff] \|= 1;	vramupdate[address & 0x7fff] \|= 1;
gdcs.grphdisp \|= 1;	gdcs.grphdisp \|= 1;
Line 59 static void MEMCALL vram_w0(UINT32 addre	Line 59 static void MEMCALL vram_w0(UINT32 addre

static void MEMCALL vram_w1(UINT32 address, BYTE value) {	static void MEMCALL vram_w1(UINT32 address, BYTE value) {

nevent.remainclock -= vramop.vramwait;	I286_REMCLOCK -= vramop.vramwait;
mem[address + VRAM_STEP] = value;	mem[address + VRAM_STEP] = value;
vramupdate[address & 0x7fff] \|= 2;	vramupdate[address & 0x7fff] \|= 2;
gdcs.grphdisp \|= 2;	gdcs.grphdisp \|= 2;
Line 70 static void MEMCALL grcg_rmw0(UINT32 add	Line 70 static void MEMCALL grcg_rmw0(UINT32 add
BYTE mask;	BYTE mask;
BYTE *vram;	BYTE *vram;

nevent.remainclock -= vramop.grcgwait;	I286_REMCLOCK -= vramop.grcgwait;
mask = ~value;	mask = ~value;
address &= 0x7fff;	address &= 0x7fff;
vramupdate[address] \|= 1;	vramupdate[address] \|= 1;
Line 99 static void MEMCALL grcg_rmw1(UINT32 add	Line 99 static void MEMCALL grcg_rmw1(UINT32 add
BYTE mask;	BYTE mask;
BYTE *vram;	BYTE *vram;

nevent.remainclock -= vramop.grcgwait;	I286_REMCLOCK -= vramop.grcgwait;
mask = ~value;	mask = ~value;
address &= 0x7fff;	address &= 0x7fff;
vramupdate[address] \|= 2;	vramupdate[address] \|= 2;
Line 127 static void MEMCALL grcg_tdw0(UINT32 add	Line 127 static void MEMCALL grcg_tdw0(UINT32 add

BYTE *vram;	BYTE *vram;

nevent.remainclock -= vramop.grcgwait;	I286_REMCLOCK -= vramop.grcgwait;
address &= 0x7fff;	address &= 0x7fff;
vramupdate[address] \|= 1;	vramupdate[address] \|= 1;
gdcs.grphdisp \|= 1;	gdcs.grphdisp \|= 1;
Line 151 static void MEMCALL grcg_tdw1(UINT32 add	Line 151 static void MEMCALL grcg_tdw1(UINT32 add

BYTE *vram;	BYTE *vram;

nevent.remainclock -= vramop.grcgwait;	I286_REMCLOCK -= vramop.grcgwait;
address &= 0x7fff;	address &= 0x7fff;
vramupdate[address] \|= 2;	vramupdate[address] \|= 2;
gdcs.grphdisp \|= 2;	gdcs.grphdisp \|= 2;
Line 197 static BYTE MEMCALL i286_rd(UINT32 addre	Line 197 static BYTE MEMCALL i286_rd(UINT32 addre

static BYTE MEMCALL tram_rd(UINT32 address) {	static BYTE MEMCALL tram_rd(UINT32 address) {

nevent.remainclock -= vramop.tramwait;	I286_REMCLOCK -= vramop.tramwait;
if (address < 0xa4000) {	if (address < 0xa4000) {
return(mem[address]);	return(mem[address]);
}	}
else if (address < 0xa5000) {	else if (address < 0xa5000) {
if (address & 1) {	if (address & 1) {
return(font[cgwindow.high + ((address >> 1) & 0x0f)]);	return(fontrom[cgwindow.high + ((address >> 1) & 0x0f)]);
}	}
else {	else {
return(font[cgwindow.low + ((address >> 1) & 0x0f)]);	return(fontrom[cgwindow.low + ((address >> 1) & 0x0f)]);
}	}
}	}
return(mem[address]);	return(mem[address]);
Line 214 static BYTE MEMCALL tram_rd(UINT32 addre	Line 214 static BYTE MEMCALL tram_rd(UINT32 addre

static BYTE MEMCALL vram_r0(UINT32 address) {	static BYTE MEMCALL vram_r0(UINT32 address) {

nevent.remainclock -= vramop.vramwait;	I286_REMCLOCK -= vramop.vramwait;
return(mem[address]);	return(mem[address]);
}	}

static BYTE MEMCALL vram_r1(UINT32 address) {	static BYTE MEMCALL vram_r1(UINT32 address) {

nevent.remainclock -= vramop.vramwait;	I286_REMCLOCK -= vramop.vramwait;
return(mem[address + VRAM_STEP]);	return(mem[address + VRAM_STEP]);
}	}

Line 229 static BYTE MEMCALL grcg_tcr0(UINT32 add	Line 229 static BYTE MEMCALL grcg_tcr0(UINT32 add
const BYTE *vram;	const BYTE *vram;
BYTE ret;	BYTE ret;

nevent.remainclock -= vramop.grcgwait;	I286_REMCLOCK -= vramop.grcgwait;
vram = mem + (address & 0x7fff);	vram = mem + (address & 0x7fff);
ret = 0;	ret = 0;
if (!(grcg.modereg & 1)) {	if (!(grcg.modereg & 1)) {
Line 252 static BYTE MEMCALL grcg_tcr1(UINT32 add	Line 252 static BYTE MEMCALL grcg_tcr1(UINT32 add
BYTE *vram;	BYTE *vram;
BYTE ret;	BYTE ret;

nevent.remainclock -= vramop.grcgwait;	I286_REMCLOCK -= vramop.grcgwait;
ret = 0;	ret = 0;
vram = mem + (address & 0x7fff);	vram = mem + (address & 0x7fff);
if (!(grcg.modereg & 1)) {	if (!(grcg.modereg & 1)) {
Line 339 static void MEMCALL tramw_wt(UINT32 addr	Line 339 static void MEMCALL tramw_wt(UINT32 addr
}	}
if (cgwindow.writable & 1) {	if (cgwindow.writable & 1) {
cgwindow.writable \|= 0x80;	cgwindow.writable \|= 0x80;
font[cgwindow.high + ((address >> 1) & 0x0f)] = (BYTE)value;	fontrom[cgwindow.high + ((address >> 1) & 0x0f)] = (BYTE)value;
}	}
}	}
}	}


#define GRCGW_NON(page) { \	#define GRCGW_NON(page) { \
nevent.remainclock -= vramop.vramwait; \	I286_REMCLOCK -= vramop.vramwait; \
STOREINTELWORD(mem + address + VRAM_STEP*(page), value); \	STOREINTELWORD(mem + address + VRAM_STEP*(page), value); \
vramupdate[address & 0x7fff] \|= (1 << page); \	vramupdate[address & 0x7fff] \|= (1 << page); \
vramupdate[(address + 1) & 0x7fff] \|= (1 << page); \	vramupdate[(address + 1) & 0x7fff] \|= (1 << page); \
Line 355 static void MEMCALL tramw_wt(UINT32 addr	Line 355 static void MEMCALL tramw_wt(UINT32 addr

#define GRCGW_RMW(page) { \	#define GRCGW_RMW(page) { \
BYTE *vram; \	BYTE *vram; \
nevent.remainclock -= vramop.grcgwait; \	I286_REMCLOCK -= vramop.grcgwait; \
address &= 0x7fff; \	address &= 0x7fff; \
vramupdate[address] \|= (1 << page); \	vramupdate[address] \|= (1 << page); \
vramupdate[address + 1] \|= (1 << page); \	vramupdate[address + 1] \|= (1 << page); \
Line 401 static void MEMCALL tramw_wt(UINT32 addr	Line 401 static void MEMCALL tramw_wt(UINT32 addr

#define GRCGW_TDW(page) { \	#define GRCGW_TDW(page) { \
BYTE *vram; \	BYTE *vram; \
nevent.remainclock -= vramop.grcgwait; \	I286_REMCLOCK -= vramop.grcgwait; \
address &= 0x7fff; \	address &= 0x7fff; \
vramupdate[address] \|= (1 << page); \	vramupdate[address] \|= (1 << page); \
vramupdate[address + 1] \|= (1 << page); \	vramupdate[address + 1] \|= (1 << page); \
Line 483 static UINT16 MEMCALL i286w_rd(UINT32 ad	Line 483 static UINT16 MEMCALL i286w_rd(UINT32 ad

static UINT16 MEMCALL tramw_rd(UINT32 address) {	static UINT16 MEMCALL tramw_rd(UINT32 address) {

nevent.remainclock -= vramop.tramwait;	I286_REMCLOCK -= vramop.tramwait;
if (address < (0xa4000 - 1)) {	if (address < (0xa4000 - 1)) {
return(LOADINTELWORD(mem + address));	return(LOADINTELWORD(mem + address));
}	}
else if (address == 0xa3fff) {	else if (address == 0xa3fff) {
return(mem[address] + (font[cgwindow.low] << 8));	return(mem[address] + (fontrom[cgwindow.low] << 8));
}	}
else if (address < 0xa4fff) {	else if (address < 0xa4fff) {
if (address & 1) {	if (address & 1) {
UINT16 ret;	UINT16 ret;
ret = font[cgwindow.high + ((address >> 1) & 0x0f)];	ret = fontrom[cgwindow.high + ((address >> 1) & 0x0f)];
ret += font[cgwindow.low + (((address + 1) >> 1) & 0x0f)] << 8;	ret += fontrom[cgwindow.low + (((address + 1) >> 1) & 0x0f)] << 8;
return(ret);	return(ret);
}	}
else {	else {
UINT16 ret;	UINT16 ret;
ret = font[cgwindow.low + ((address >> 1) & 0x0f)];	ret = fontrom[cgwindow.low + ((address >> 1) & 0x0f)];
ret += font[cgwindow.high + ((address >> 1) & 0x0f)] << 8;	ret += fontrom[cgwindow.high + ((address >> 1) & 0x0f)] << 8;
return(ret);	return(ret);
}	}
}	}
else if (address == 0xa4fff) {	else if (address == 0xa4fff) {
return((mem[0xa5000] << 8) \| font[cgwindow.high + 15]);	return((mem[0xa5000] << 8) \| fontrom[cgwindow.high + 15]);
}	}
return(LOADINTELWORD(mem + address));	return(LOADINTELWORD(mem + address));
}	}

static UINT16 MEMCALL vramw_r0(UINT32 address) {	static UINT16 MEMCALL vramw_r0(UINT32 address) {

nevent.remainclock -= vramop.vramwait;	I286_REMCLOCK -= vramop.vramwait;
return(LOADINTELWORD(mem + address));	return(LOADINTELWORD(mem + address));
}	}

static UINT16 MEMCALL vramw_r1(UINT32 address) {	static UINT16 MEMCALL vramw_r1(UINT32 address) {

nevent.remainclock -= vramop.vramwait;	I286_REMCLOCK -= vramop.vramwait;
return(LOADINTELWORD(mem + address + VRAM_STEP));	return(LOADINTELWORD(mem + address + VRAM_STEP));
}	}

Line 527 static UINT16 MEMCALL grcgw_tcr0(UINT32	Line 527 static UINT16 MEMCALL grcgw_tcr0(UINT32
BYTE *vram;	BYTE *vram;
UINT16 ret;	UINT16 ret;

nevent.remainclock -= vramop.grcgwait;	I286_REMCLOCK -= vramop.grcgwait;
ret = 0;	ret = 0;
vram = mem + (address & 0x7fff);	vram = mem + (address & 0x7fff);
if (!(grcg.modereg & 1)) {	if (!(grcg.modereg & 1)) {
Line 550 static UINT16 MEMCALL grcgw_tcr1(UINT32	Line 550 static UINT16 MEMCALL grcgw_tcr1(UINT32
BYTE *vram;	BYTE *vram;
UINT16 ret;	UINT16 ret;

nevent.remainclock -= vramop.grcgwait;	I286_REMCLOCK -= vramop.grcgwait;
ret = 0;	ret = 0;
vram = mem + (address & 0x7fff);	vram = mem + (address & 0x7fff);
if (!(grcg.modereg & 1)) {	if (!(grcg.modereg & 1)) {

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

Removed from v.1.1.1.1
changed lines
	Added in v.1.3