np2/win9x/board118.c - diff

Return to board118.c CVS log

Up to [RetroPC.NET] / np2 / win9x

Diff for /np2/win9x/board118.c between versions 1.3 and 1.7

version 1.3, 2004/02/18 20:11:37	version 1.7, 2005/05/13 05:47:25
Line 45 static void romeo_restore(BOOL opna) {	Line 45 static void romeo_restore(BOOL opna) {
juliet_YMF288A(0x1d, opn.reg[0x1d]);	juliet_YMF288A(0x1d, opn.reg[0x1d]);
}	}
for (i=0; i<0x0e; i++) {	for (i=0; i<0x0e; i++) {
juliet_YMF288A(i, ((BYTE *)&psg1.reg)[i]);	juliet_YMF288A(i, ((UINT8 *)&psg1.reg)[i]);
}	}
}	}

Line 54 static void romeo_restore(BOOL opna) {	Line 54 static void romeo_restore(BOOL opna) {

static void IOOUTCALL ymf_o188(UINT port, REG8 dat) {	static void IOOUTCALL ymf_o188(UINT port, REG8 dat) {

opn.opnreg = dat;	opn.addr = dat;
	opn.data = dat;
(void)port;	(void)port;
}	}

static void IOOUTCALL ymf_o18a(UINT port, REG8 dat) {	static void IOOUTCALL ymf_o18a(UINT port, REG8 dat) {

S98_put(NORMAL2608, opn.opnreg, dat);	UINT addr;
if (opn.opnreg < 0x10) {
if (opn.opnreg != 0x0e) {	opn.data = dat;
psggen_setreg(&psg1, opn.opnreg, dat);	addr = opn.addr;
	if (addr >= 0x100) {
	return;
	}
	S98_put(NORMAL2608, addr, dat);
	if (addr < 0x10) {
	if (addr != 0x0e) {
	psggen_setreg(&psg1, addr, dat);
}	}
}	}
else {	else {
if (opn.opnreg < 0x20) {	if (addr < 0x20) {
rhythm_setreg(&rhythm, opn.opnreg, dat);	rhythm_setreg(&rhythm, addr, dat);
}	}
else if (opn.opnreg < 0x30) {	else if (addr < 0x30) {
if (opn.opnreg == 0x28) {	if (addr == 0x28) {
if ((dat & 0x0f) < 3) {	if ((dat & 0x0f) < 3) {
opngen_keyon(dat & 0x0f, dat);	opngen_keyon(dat & 0x0f, dat);
}	}
Line 81 static void IOOUTCALL ymf_o18a(UINT port	Line 89 static void IOOUTCALL ymf_o18a(UINT port
}	}
}	}
else {	else {
fmtimer_setreg(opn.opnreg, dat);	fmtimer_setreg(addr, dat);
}	}
}	}
else if (opn.opnreg < 0xc0) {	else if (addr < 0xc0) {
opngen_setreg(0, opn.opnreg, dat);	opngen_setreg(0, addr, dat);
}	}
opn.reg[opn.opnreg] = dat;	opn.reg[addr] = dat;
}	}
(void)port;	(void)port;
}	}

static void IOOUTCALL ymf_o18c(UINT port, REG8 dat) {	static void IOOUTCALL ymf_o18c(UINT port, REG8 dat) {

opn.extreg = dat;	if (opn.extend) {
	opn.addr = dat + 0x100;
	opn.data = dat;
	}
(void)port;	(void)port;
}	}

static void IOOUTCALL ymf_o18e(UINT port, REG8 dat) {	static void IOOUTCALL ymf_o18e(UINT port, REG8 dat) {

S98_put(EXTEND2608, opn.extreg, dat);	UINT addr;
opn.reg[opn.extreg + 0x100] = dat;
if (opn.extreg >= 0x30) {	if (!opn.extend) {
opngen_setreg(3, opn.extreg, dat);	return;
	}
	opn.data = dat;
	addr = opn.addr - 0x100;
	if (addr >= 0x100) {
	return;
	}
	S98_put(EXTEND2608, addr, dat);
	opn.reg[addr + 0x100] = dat;
	if (addr >= 0x30) {
	opngen_setreg(3, addr, dat);
}	}
else {	else {
if (opn.extreg == 0x10) {	if (addr == 0x10) {
if (!(dat & 0x80)) {	if (!(dat & 0x80)) {
opn.adpcmmask = ~(dat & 0x1c);	opn.adpcmmask = ~(dat & 0x1c);
}	}
Line 123 static REG8 IOINPCALL ymf_i188(UINT port	Line 144 static REG8 IOINPCALL ymf_i188(UINT port

static REG8 IOINPCALL ymf_i18a(UINT port) {	static REG8 IOINPCALL ymf_i18a(UINT port) {

if (opn.opnreg == 0x0e) {	UINT addr;

	addr = opn.addr;
	if (addr == 0x0e) {
return(fmboard_getjoy(&psg1));	return(fmboard_getjoy(&psg1));
}	}
else if (opn.opnreg < 0x10) {	else if (addr < 0x10) {
return(psggen_getreg(&psg1, opn.opnreg));	return(psggen_getreg(&psg1, addr));
	}
	else if (addr == 0xff) {
	return(1);
}	}
(void)port;	(void)port;
return(opn.reg[opn.opnreg]);	return(opn.data);
}	}

static REG8 IOINPCALL ymf_i18c(UINT port) {	static REG8 IOINPCALL ymf_i18c(UINT port) {
Line 142 static REG8 IOINPCALL ymf_i18c(UINT port	Line 169 static REG8 IOINPCALL ymf_i18c(UINT port
return(0xff);	return(0xff);
}	}

static REG8 IOINPCALL ymf_i18e(UINT port) {

if (opn.extend) {
return(opn.reg[opn.opnreg]);
}
(void)port;
return(0xff);
}

static void extendchannel(REG8 enable) {	static void extendchannel(REG8 enable) {

opn.extend = enable;	opn.extend = enable;
Line 183 static REG8 IOINPCALL ymf_ia460(UINT por	Line 201 static REG8 IOINPCALL ymf_ia460(UINT por

static void IOOUTCALL ymfr_o18a(UINT port, REG8 dat) {	static void IOOUTCALL ymfr_o18a(UINT port, REG8 dat) {

S98_put(NORMAL2608, opn.opnreg, dat);	UINT addr;
if (opn.opnreg < 0x10) {
if (opn.opnreg != 0x0e) {	opn.data = dat;
((BYTE )(&psg1.reg) + opn.opnreg) = dat;	addr = opn.addr;
juliet_YMF288A(opn.opnreg, dat);	if (addr >= 0x100) {
if (opn.opnreg == 0x07) {	return;
	}
	S98_put(NORMAL2608, addr, dat);
	if (addr < 0x10) {
	if (addr != 0x0e) {
	((UINT8 )(&psg1.reg) + addr) = dat;
	juliet_YMF288A(addr, dat);
	if (addr == 0x07) {
keydisp_psgmix(&psg1);	keydisp_psgmix(&psg1);
}	}
else if ((opn.opnreg == 0x08) \|\| (opn.opnreg == 0x09) \|\|	else if ((addr == 0x08) \|\| (addr == 0x09) \|\| (addr == 0x0a)) {
(opn.opnreg == 0x0a)) {	keydisp_psgvol(&psg1, (UINT8)(addr - 8));
keydisp_psgvol(&psg1, (BYTE)(opn.opnreg - 8));
}	}
}	}
}	}
else {	else {
if (opn.opnreg < 0x20) {	if (addr < 0x20) {
juliet_YMF288A(opn.opnreg, dat);	juliet_YMF288A(addr, dat);
}	}
else if (opn.opnreg < 0x30) {	else if (addr < 0x30) {
if (opn.opnreg == 0x28) {	if (addr == 0x28) {
juliet_YMF288A(opn.opnreg, dat);	juliet_YMF288A(addr, dat);
if ((dat & 0x0f) < 3) {	if ((dat & 0x0f) < 3) {
keydisp_fmkeyon((BYTE)(dat & 0x0f), dat);	keydisp_fmkeyon((UINT8)(dat & 0x0f), dat);
}	}
else if (((dat & 0x0f) != 3) && ((dat & 0x0f) < 7)) {	else if (((dat & 0x0f) != 3) && ((dat & 0x0f) < 7)) {
keydisp_fmkeyon((UINT8)((dat & 0x0f) - 1), dat);	keydisp_fmkeyon((UINT8)((dat & 0x0f) - 1), dat);
}	}
}	}
else {	else {
fmtimer_setreg(opn.opnreg, dat);	fmtimer_setreg(addr, dat);
}	}
}	}
else if (opn.opnreg < 0xc0) {	else if (addr < 0xc0) {
juliet_YMF288A(opn.opnreg, dat);	juliet_YMF288A(addr, dat);
}	}
opn.reg[opn.opnreg] = dat;	opn.reg[addr] = dat;
}	}
(void)port;	(void)port;
}	}

static void IOOUTCALL ymfr_o18e(UINT port, REG8 dat) {	static void IOOUTCALL ymfr_o18e(UINT port, REG8 dat) {

S98_put(EXTEND2608, opn.extreg, dat);	UINT addr;
opn.reg[opn.extreg + 0x100] = dat;
if (opn.extreg >= 0x30) {	if (!opn.extend) {
juliet_YMF288B(opn.extreg, dat);	return;
	}
	opn.data = dat;
	addr = opn.addr - 0x100;
	if (addr >= 0x100) {
	return;
	}
	S98_put(EXTEND2608, addr, dat);
	opn.reg[addr + 0x100] = dat;
	if (addr >= 0x30) {
	juliet_YMF288B(addr, dat);
}	}
else {	else {
if (opn.extreg == 0x10) {	if (addr == 0x10) {
if (!(dat & 0x80)) {	if (!(dat & 0x80)) {
opn.adpcmmask = ~(dat & 0x1c);	opn.adpcmmask = ~(dat & 0x1c);
}	}
Line 247 static const IOOUT ymf_o[4] = {	Line 281 static const IOOUT ymf_o[4] = {
ymf_o188, ymf_o18a, ymf_o18c, ymf_o18e};	ymf_o188, ymf_o18a, ymf_o18c, ymf_o18e};

static const IOINP ymf_i[4] = {	static const IOINP ymf_i[4] = {
ymf_i188, ymf_i18a, ymf_i18c, ymf_i18e};	ymf_i188, ymf_i18a, ymf_i18c, NULL};

static const IOOUT ymfr_o[4] = {	static const IOOUT ymfr_o[4] = {
ymf_o188, ymfr_o18a, ymf_o18c, ymfr_o18e};	ymf_o188, ymfr_o18a, ymf_o18c, ymfr_o18e};
Line 258 void board118_reset(void) {	Line 292 void board118_reset(void) {
fmtimer_reset(0xc0);	fmtimer_reset(0xc0);
opngen_setcfg(3, OPN_STEREO \| 0x038);	opngen_setcfg(3, OPN_STEREO \| 0x038);
cs4231io_reset();	cs4231io_reset();
soundrom_load(0xcc000, "118");	soundrom_load(0xcc000, OEMTEXT("118"));
fmboard_extreg(extendchannel);	fmboard_extreg(extendchannel);
juliet_YMF288Reset();	juliet_YMF288Reset();
}	}

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

Removed from v.1.3
changed lines
	Added in v.1.7