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version 1.12, 2004/08/12 17:57:36
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version 1.16, 2004/08/15 07:52:16
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Line 17 void neitem_fdcbusy(UINT id) {
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Line 17 void neitem_fdcbusy(UINT id) {
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| fdc.s.busy = FALSE; |
fdc.s.busy = FALSE; |
| if (fdc.s.bufdir) { |
if (fdc.s.bufdir) { |
| TRACEOUT(("dma ready!")); |
// TRACEOUT(("dma ready!")); |
| dmac_sendready(TRUE); |
dmac_sendready(TRUE); |
| } |
} |
| (void)id; |
(void)id; |
| } |
} |
| |
|
| static void setbusy(UINT clock) { |
static void setbusy(SINT32 clock) { |
| |
|
| fdc.s.busy = TRUE; |
if (clock > 0) { |
| nevent_set(NEVENT_FDC, clock, neitem_fdcbusy, NEVENT_ABSOLUTE); |
fdc.s.busy = TRUE; |
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nevent_set(NEVENT_FDC, clock, neitem_fdcbusy, NEVENT_ABSOLUTE); |
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} |
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else { |
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fdc.s.busy = FALSE; |
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nevent_reset(NEVENT_FDC); |
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} |
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} |
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static void setmotor(REG8 drvcmd) { |
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UINT drv; |
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SINT32 clock; |
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drv = drvcmd & 3; |
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clock = CPU_CLOCK + CPU_BASECLOCK - CPU_REMCLOCK; |
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if (drvcmd & 0x80) { |
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if (fdc.s.motorevent[drv] == FDCMOTOR_STOP) { |
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fdc.s.motorevent[drv] = FDCMOTOR_STARTING; |
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fdc.s.motorclock[drv] = clock; |
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} |
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else if (fdc.s.motorevent[drv] == FDCMOTOR_STOPING) { |
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fdc.s.motorevent[drv] = FDCMOTOR_READY; |
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} |
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} |
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else { |
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if ((fdc.s.motorevent[drv] == FDCMOTOR_STARTING) || |
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(fdc.s.motorevent[drv] == FDCMOTOR_READY)) { |
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fdc.s.motorevent[drv] = FDCMOTOR_STOPING; |
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fdc.s.motorclock[drv] = clock; |
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} |
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} |
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} |
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void fdc_callback(void) { |
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SINT32 clock; |
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UINT i; |
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clock = CPU_CLOCK + CPU_BASECLOCK - CPU_REMCLOCK; |
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for (i=0; i<4; i++) { |
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if (fdc.s.motorevent[i] == FDCMOTOR_STARTING) { |
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if ((clock - fdc.s.motorclock[i]) >= (SINT32)pccore.realclock) { |
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fdc.s.motorevent[i] = FDCMOTOR_READY; |
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} |
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} |
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else if (fdc.s.motorevent[i] == FDCMOTOR_STOPING) { |
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if ((clock - fdc.s.motorclock[i]) >= (SINT32)pccore.realclock) { |
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fdc.s.motorevent[i] = FDCMOTOR_STOP; |
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} |
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} |
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} |
| } |
} |
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| static REG8 getstat(void) { |
static REG8 getstat(void) { |
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Line 98 static REG8 type2cmd(REG8 sc) {
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Line 149 static REG8 type2cmd(REG8 sc) {
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| FDDFILE fdd; |
FDDFILE fdd; |
| UINT size; |
UINT size; |
| REG8 stat; |
REG8 stat; |
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#if defined(SUPPORT_DISKEXT) |
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SINT32 clock; |
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SINT32 curclock; |
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SINT32 nextclock; |
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UINT32 secinfo; |
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#endif |
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|
| track = (fdc.s.c << 1) + fdc.s.h; |
track = (fdc.s.c << 1) + fdc.s.h; |
| if (!(fdc.s.cmd & 0x20)) { |
if (!(fdc.s.cmd & 0x20)) { |
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Line 110 static REG8 type2cmd(REG8 sc) {
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Line 167 static REG8 type2cmd(REG8 sc) {
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| } |
} |
| size = sizeof(fdc.s.buffer); |
size = sizeof(fdc.s.buffer); |
| fdd = fddfile + fdc.s.drv; |
fdd = fddfile + fdc.s.drv; |
| TRACEOUT(("read %.2x %d %d", fdc.s.drv, track, sc)); |
// TRACEOUT(("read %.2x %d %d", fdc.s.drv, track, sc)); |
| stat = fdd->read(fdd, fdc.s.media, track, sc, p, &size); |
stat = fdd->read(fdd, fdc.s.media, track, sc, p, &size); |
| if (stat & FDDSTAT_RECNFND) { |
if (stat & FDDSTAT_RECNFND) { |
| size = 0; |
size = 0; |
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Line 132 static REG8 type2cmd(REG8 sc) {
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Line 189 static REG8 type2cmd(REG8 sc) {
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| fdc.s.bufpos = 0; |
fdc.s.bufpos = 0; |
| fdc.s.bufsize = size; |
fdc.s.bufsize = size; |
| fdc.s.curtime = 0; |
fdc.s.curtime = 0; |
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|
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#if defined(SUPPORT_DISKEXT) |
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// ウェイト値を計算 |
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clock = 0; |
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if (fdc.s.motorevent[fdc.s.drv] == FDCMOTOR_STARTING) { |
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curclock = CPU_CLOCK + CPU_BASECLOCK - CPU_REMCLOCK; |
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curclock -= fdc.s.motorclock[fdc.s.drv]; |
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if (curclock < (SINT32)pccore.realclock) { |
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nextclock = pccore.realclock - curclock; |
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// TRACEOUT(("motor starting busy %d", nextclock)); |
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clock += nextclock; |
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} |
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} |
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secinfo = fdd->sec(fdd, fdc.s.media, track, sc); |
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if (secinfo) { |
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nextclock = LOW16(secinfo); |
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nextclock *= fdc.s.loopclock; |
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nextclock /= LOW16(secinfo >> 16); |
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curclock = nevent_getwork(NEVENT_RTC); |
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nextclock -= curclock; |
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if (nextclock < 0) { |
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nextclock += fdc.s.loopclock; |
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} |
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// TRACEOUT(("wait clock -> %d [%d/%d]", nextclock, |
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// LOW16(secinfo), LOW16(secinfo >> 16))); |
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clock += nextclock; |
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} |
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setbusy(max(clock, 500)); |
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#else |
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setbusy(500); |
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#endif |
| return(stat); |
return(stat); |
| } |
} |
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Line 156 static REG8 crccmd(void) {
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Line 244 static REG8 crccmd(void) {
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| track = (fdc.s.c << 1) + fdc.s.h; |
track = (fdc.s.c << 1) + fdc.s.h; |
| fdd = fddfile + fdc.s.drv; |
fdd = fddfile + fdc.s.drv; |
| |
// TRACEOUT(("fdd->crc %d %d %d", fdc.s.drv, track, fdc.s.crcnum)); |
| stat = fdd->crc(fdd, fdc.s.media, track, fdc.s.crcnum, fdc.s.buffer); |
stat = fdd->crc(fdd, fdc.s.media, track, fdc.s.crcnum, fdc.s.buffer); |
| if (stat & FDDSTAT_RECNFND) { |
if (stat & FDDSTAT_RECNFND) { |
| fdc.s.crcnum = 0; |
fdc.s.crcnum = 0; |
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Line 165 static REG8 crccmd(void) {
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Line 254 static REG8 crccmd(void) {
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| fdc.s.bufdir = FDCDIR_IN; |
fdc.s.bufdir = FDCDIR_IN; |
| fdc.s.bufsize = 6; |
fdc.s.bufsize = 6; |
| fdc.s.rreg = fdc.s.buffer[0]; |
fdc.s.rreg = fdc.s.buffer[0]; |
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fdc.s.crcnum++; |
| } |
} |
| else { |
else { |
| fdc.s.bufdir = FDCDIR_NONE; |
fdc.s.bufdir = FDCDIR_NONE; |
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Line 199 static void bufposinc(void) {
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Line 289 static void bufposinc(void) {
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| } |
} |
| fdc.s.stat = stat; |
fdc.s.stat = stat; |
| } |
} |
| if (r) { |
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| fdc.s.rreg = fdc.s.r + 1; |
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| stat = type2cmd(fdc.s.rreg); |
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| if (!(stat & FDDSTAT_RECNFND)) { |
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| fdc.s.r = fdc.s.r + 1; |
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| fdc.s.stat = stat; |
|
| } |
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| else { |
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| r = FALSE; |
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| } |
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| } |
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| } |
} |
| if (!r) { |
fdc.s.bufdir = FDCDIR_NONE; |
| fdc.s.bufdir = FDCDIR_NONE; |
dmac_sendready(FALSE); |
| dmac_sendready(FALSE); |
if (r) { |
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fdc.s.rreg = fdc.s.r + 1; |
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stat = type2cmd(fdc.s.rreg); |
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if (!(stat & FDDSTAT_RECNFND)) { |
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fdc.s.r = fdc.s.r + 1; |
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fdc.s.stat = stat; |
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} |
| } |
} |
| } |
} |
| } |
} |
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Line 231 void IOOUTCALL fdc_o(UINT port, REG8 val
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Line 316 void IOOUTCALL fdc_o(UINT port, REG8 val
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| fdc.s.cmd = value; |
fdc.s.cmd = value; |
| cmd = (REG8)(value >> 4); |
cmd = (REG8)(value >> 4); |
| fdc.s.type = fdctype[cmd]; |
fdc.s.type = fdctype[cmd]; |
| TRACEOUT(("fdc cmd: %.2x", value)); |
// TRACEOUT(("fdc cmd: %.2x", value)); |
| if (fdc.s.bufwrite) { |
if (fdc.s.bufwrite) { |
| fdc.s.stat = type2flash(); |
fdc.s.stat = type2flash(); |
| } |
} |
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Line 243 void IOOUTCALL fdc_o(UINT port, REG8 val
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Line 328 void IOOUTCALL fdc_o(UINT port, REG8 val
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| setbusy(20); |
setbusy(20); |
| switch(cmd) { |
switch(cmd) { |
| case 0x00: // リストア |
case 0x00: // リストア |
| // if (value & 8) { // LAYDOCK |
|
| // setbusy(0); |
|
| // } |
|
| fdc.s.motor = 0x80; // モーターOn? |
fdc.s.motor = 0x80; // モーターOn? |
| fdc.s.c = 0; |
fdc.s.c = 0; |
| fdc.s.step = 1; |
fdc.s.step = 1; |
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Line 297 void IOOUTCALL fdc_o(UINT port, REG8 val
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Line 379 void IOOUTCALL fdc_o(UINT port, REG8 val
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| case 0x09: |
case 0x09: |
| case 0x0a: // ライトデータ |
case 0x0a: // ライトデータ |
| case 0x0b: |
case 0x0b: |
| setbusy(500); |
|
| fdc.s.stat = type2cmd(fdc.s.r); |
fdc.s.stat = type2cmd(fdc.s.r); |
| break; |
break; |
| |
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Line 309 void IOOUTCALL fdc_o(UINT port, REG8 val
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Line 390 void IOOUTCALL fdc_o(UINT port, REG8 val
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| case 0x0d: // フォースインタラプト |
case 0x0d: // フォースインタラプト |
| setbusy(0); // 必要ない? |
setbusy(0); // 必要ない? |
| // fdc.s.skip = 0; // 000330 |
// fdc.s.skip = 0; // 000330 |
| |
fdc.s.stat = 0; |
| dmac_sendready(FALSE); |
dmac_sendready(FALSE); |
| break; |
break; |
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Line 358 void IOOUTCALL fdc_o(UINT port, REG8 val
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Line 440 void IOOUTCALL fdc_o(UINT port, REG8 val
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| fdc.s.r = 0; // SACOM TELENET |
fdc.s.r = 0; // SACOM TELENET |
| fdc.s.rreg = 0; |
fdc.s.rreg = 0; |
| } |
} |
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setmotor(value); |
| break; |
break; |
| } |
} |
| } |
} |
| |
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| REG8 IOINPCALL fdc_i(UINT port) { |
REG8 IOINPCALL fdc_i(UINT port) { |
| |
|
| // static BYTE timeoutwait; |
|
| // static BYTE last_r; |
|
| // static short last_off; |
|
| REG8 ret; |
REG8 ret; |
| |
|
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// TRACEOUT(("fdc inp %.4x", port)); |
| |
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| if ((port & (~7)) != 0x0ff8) { |
if ((port & (~7)) != 0x0ff8) { |
| return(0xff); |
return(0xff); |
| } |
} |
| #if 0 |
|
| if ((port &= 0xf) != 8) { |
|
| last_r = -1; |
|
| last_off = -1; |
|
| timeoutwait = 4; |
|
| } |
|
| #endif |
|
| switch(port & 7) { |
switch(port & 7) { |
| case 0: // ステータス |
case 0: // ステータス |
| ret = fdc.s.busy; |
ret = fdc.s.busy; |
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Line 398 REG8 IOINPCALL fdc_i(UINT port) {
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Line 473 REG8 IOINPCALL fdc_i(UINT port) {
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| if (!(ret & 0x02)) { |
if (!(ret & 0x02)) { |
| dmac_sendready(FALSE); |
dmac_sendready(FALSE); |
| } |
} |
| |
// TRACEOUT(("ret->%.2x", ret)); |
| return(ret); |
return(ret); |
| |
|
| case 1: // トラック |
case 1: // トラック |
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Line 410 REG8 IOINPCALL fdc_i(UINT port) {
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Line 486 REG8 IOINPCALL fdc_i(UINT port) {
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| if (fdc.s.motor) { |
if (fdc.s.motor) { |
| if (fdc.s.bufdir == FDCDIR_IN) { |
if (fdc.s.bufdir == FDCDIR_IN) { |
| fdc.s.data = fdc.s.buffer[fdc.s.bufpos]; |
fdc.s.data = fdc.s.buffer[fdc.s.bufpos]; |
| TRACEOUT(("read %.2x %.2x [%.4x]", fdc.s.data, fdc.s.bufpos, Z80_PC)); |
// TRACEOUT(("read %.2x - %.2x [%.4x]", fdc.s.bufpos, fdc.s.data, Z80_PC)); |
| bufposinc(); |
bufposinc(); |
| } |
} |
| } |
} |
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Line 440 void fdc_reset(void) {
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Line 516 void fdc_reset(void) {
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| ZeroMemory(&fdc, sizeof(fdc)); |
ZeroMemory(&fdc, sizeof(fdc)); |
| fdc.s.step = 1; |
fdc.s.step = 1; |
| fdc.s.equip = xmilcfg.fddequip; |
fdc.s.equip = xmilcfg.fddequip; |
| |
fdc.s.loopclock = pccore.realclock / 5; |
| } |
} |
| |
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