#include "compiler.h"
#include "pccore.h"
#include "iocore.h"
#include "cbuscore.h"
#include "boardspb.h"
#include "sound.h"
#include "fmboard.h"
#include "s98.h"
static void IOOUTCALL spb_o188(UINT port, REG8 dat) {
opn.addr = dat;
opn.data = dat;
(void)port;
}
static void IOOUTCALL spb_o18a(UINT port, REG8 dat) {
UINT addr;
opn.data = 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 {
if (addr < 0x20) {
rhythm_setreg(&rhythm, addr, dat);
}
else if (addr < 0x30) {
if (addr == 0x28) {
if ((dat & 0x0f) < 3) {
opngen_keyon(dat & 0x0f, dat);
}
else if (((dat & 0x0f) != 3) &&
((dat & 0x0f) < 7)) {
opngen_keyon((dat & 0x0f) - 1, dat);
}
}
else {
fmtimer_setreg(addr, dat);
if (addr == 0x27) {
opnch[2].extop = dat & 0xc0;
}
}
}
else if (addr < 0xc0) {
opngen_setreg(0, addr, dat);
}
opn.reg[addr] = dat;
}
(void)port;
}
static void IOOUTCALL spb_o18c(UINT port, REG8 dat) {
opn.addr = dat + 0x100;
opn.data = dat;
(void)port;
}
static void IOOUTCALL spb_o18e(UINT port, REG8 dat) {
UINT addr;
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 if (addr < 0x12) {
adpcm_setreg(&adpcm, addr, dat);
}
(void)port;
}
static REG8 IOINPCALL spb_i188(UINT port) {
(void)port;
return((fmtimer.status & 3) | adpcm_status(&adpcm));
}
static REG8 IOINPCALL spb_i18a(UINT port) {
UINT addr;
addr = opn.addr;
if (addr == 0x0e) {
return(fmboard_getjoy(&psg1));
}
else if (addr < 0x10) {
return(psggen_getreg(&psg1, addr));
}
else if (addr == 0xff) {
return(1);
}
else {
(void)port;
return(opn.data);
}
}
static REG8 IOINPCALL spb_i18e(UINT port) {
UINT addr;
addr = opn.addr - 0x100;
if (addr == 0x08) {
return(adpcm_readsample(&adpcm));
}
else if (addr == 0x0f) {
return(opn.reg[addr + 0x100]);
}
else {
(void)port;
return(opn.data);
}
}
// ---- spark board
static void IOOUTCALL spr_o588(UINT port, REG8 dat) {
opn.addr2 = dat;
// opn.data2 = dat;
(void)port;
}
static void IOOUTCALL spr_o58a(UINT port, REG8 dat) {
UINT addr;
// opn.data2 = dat;
addr = opn.addr2;
if (addr >= 0x100) {
return;
}
if (addr < 0x30) {
if (addr == 0x28) {
if ((dat & 0x0f) < 3) {
opngen_keyon((dat & 0x0f) + 6, dat);
}
else if (((dat & 0x0f) != 3) &&
((dat & 0x0f) < 7)) {
opngen_keyon((dat & 0x0f) + 5, dat);
}
}
else {
if (addr == 0x27) {
opnch[8].extop = dat & 0xc0;
}
}
}
else if (addr < 0xc0) {
opngen_setreg(6, addr, dat);
}
opn.reg[addr + 0x200] = dat;
(void)port;
}
static void IOOUTCALL spr_o58c(UINT port, REG8 dat) {
opn.addr2 = dat + 0x100;
// opn.data2 = dat;
(void)port;
}
static void IOOUTCALL spr_o58e(UINT port, REG8 dat) {
UINT addr;
// opn.data2 = dat;
addr = opn.addr2 - 0x100;
if (addr >= 0x100) {
return;
}
opn.reg[addr + 0x300] = dat;
if (addr >= 0x30) {
opngen_setreg(9, addr, dat);
}
(void)port;
}
static REG8 IOINPCALL spr_i588(UINT port) {
(void)port;
return(fmtimer.status);
}
static REG8 IOINPCALL spr_i58a(UINT port) {
UINT addr;
addr = opn.addr2;
if ((addr >= 0x20) && (addr < 0xff)) {
return(opn.reg[addr + 0x200]);
}
else if (addr == 0xff) {
return(0);
}
else {
(void)port;
// return(opn.data2);
return(0xff);
}
}
static REG8 IOINPCALL spr_i58c(UINT port) {
(void)port;
return(fmtimer.status & 3);
}
static REG8 IOINPCALL spr_i58e(UINT port) {
UINT addr;
addr = opn.addr2;
if (addr < 0x100) {
return(opn.reg[addr + 0x200]);
}
else {
(void)port;
// return(opn.data2);
return(0xff);
}
}
// ----
static const IOOUT spb_o[4] = {
spb_o188, spb_o18a, spb_o18c, spb_o18e};
static const IOINP spb_i[4] = {
spb_i188, spb_i18a, spb_i188, spb_i18e};
void boardspb_reset(const NP2CFG *pConfig) {
fmtimer_reset(pConfig->spbopt & 0xc0);
opn.channels = 6;
opngen_setcfg(6, OPN_STEREO | 0x03f);
soundrom_loadex(pConfig->spbopt & 7, OEMTEXT("SPB"));
opn.base = ((pConfig->spbopt & 0x10)?0x000:0x100);
}
void boardspb_bind(void) {
fmboard_fmrestore(0, 0);
fmboard_fmrestore(3, 1);
psggen_restore(&psg1);
fmboard_rhyrestore(&rhythm, 0);
sound_streamregist(&opngen, (SOUNDCB)opngen_getpcmvr);
sound_streamregist(&psg1, (SOUNDCB)psggen_getpcm);
rhythm_bind(&rhythm);
sound_streamregist(&adpcm, (SOUNDCB)adpcm_getpcm);
cbuscore_attachsndex(0x188 - opn.base, spb_o, spb_i);
}
// ----
static const IOOUT spr_o[4] = {
spr_o588, spr_o58a, spr_o58c, spr_o58e};
static const IOINP spr_i[4] = {
spr_i588, spr_i58a, spr_i58c, spr_i58e};
void boardspr_reset(const NP2CFG *pConfig) {
fmtimer_reset(pConfig->spbopt & 0xc0);
opn.reg[0x2ff] = 0;
opn.channels = 12;
opngen_setcfg(12, OPN_STEREO | 0x03f);
soundrom_loadex(pConfig->spbopt & 7, OEMTEXT("SPB"));
opn.base = (pConfig->spbopt & 0x10)?0x000:0x100;
}
void boardspr_bind(void) {
fmboard_fmrestore(0, 0);
fmboard_fmrestore(3, 1);
fmboard_fmrestore(6, 2);
fmboard_fmrestore(9, 3);
psggen_restore(&psg1);
fmboard_rhyrestore(&rhythm, 0);
sound_streamregist(&opngen, (SOUNDCB)opngen_getpcmvr);
sound_streamregist(&psg1, (SOUNDCB)psggen_getpcm);
rhythm_bind(&rhythm);
sound_streamregist(&adpcm, (SOUNDCB)adpcm_getpcm);
cbuscore_attachsndex(0x188 - opn.base, spb_o, spb_i);
cbuscore_attachsndex(0x588 - opn.base, spr_o, spr_i);
}
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