[picodrive.git] / pico / cd / mcd.c

/*
 * PicoDrive
 * (C) notaz, 2007,2013
 *
 * This work is licensed under the terms of MAME license.
 * See COPYING file in the top-level directory.
 */

#include "../pico_int.h"
#include "../sound/ym2612.h"

extern unsigned char formatted_bram[4*0x10];

static unsigned int mcd_m68k_cycle_mult;
static unsigned int mcd_m68k_cycle_base;
static unsigned int mcd_s68k_cycle_base;

void (*PicoMCDopenTray)(void) = NULL;
void (*PicoMCDcloseTray)(void) = NULL;


PICO_INTERNAL void PicoInitMCD(void)
{
  SekInitS68k();
  Init_CD_Driver();
  gfx_init();
}

PICO_INTERNAL void PicoExitMCD(void)
{
  End_CD_Driver();
}

PICO_INTERNAL void PicoPowerMCD(void)
{
  SekCycleCntS68k = SekCycleAimS68k = 0;

  int fmt_size = sizeof(formatted_bram);
  memset(Pico_mcd->prg_ram,    0, sizeof(Pico_mcd->prg_ram));
  memset(Pico_mcd->word_ram2M, 0, sizeof(Pico_mcd->word_ram2M));
  memset(Pico_mcd->pcm_ram,    0, sizeof(Pico_mcd->pcm_ram));
  memset(Pico_mcd->bram, 0, sizeof(Pico_mcd->bram));
  memcpy(Pico_mcd->bram + sizeof(Pico_mcd->bram) - fmt_size,
    formatted_bram, fmt_size);
  memset(Pico_mcd->s68k_regs, 0, sizeof(Pico_mcd->s68k_regs));
  memset(&Pico_mcd->pcm, 0, sizeof(Pico_mcd->pcm));
  memset(&Pico_mcd->m, 0, sizeof(Pico_mcd->m));

  Reset_CD();

  // cold reset state (tested)
  Pico_mcd->m.state_flags = PCD_ST_S68K_RST;
  Pico_mcd->m.busreq = 2;     // busreq on, s68k in reset
  Pico_mcd->s68k_regs[3] = 1; // 2M word RAM mode, m68k access
  memset(Pico_mcd->bios + 0x70, 0xff, 4);
}

void pcd_soft_reset(void)
{
  // Reset_CD(); // breaks Fahrenheit CD swap

  LC89510_Reset();
#ifdef _ASM_CD_MEMORY_C
  //PicoMemResetCDdecode(1); // don't have to call this in 2M mode
#endif

  pcd_event_schedule_s68k(PCD_EVENT_CDC, 12500000/75);

  // TODO: test if register state/timers change
}

PICO_INTERNAL int PicoResetMCD(void)
{
  // reset button doesn't affect MCD hardware

  // use SRam.data for RAM cart
  if (PicoOpt & POPT_EN_MCD_RAMCART) {
    if (SRam.data == NULL)
      SRam.data = calloc(1, 0x12000);
  }
  else if (SRam.data != NULL) {
    free(SRam.data);
    SRam.data = NULL;
  }
  SRam.start = SRam.end = 0; // unused

  return 0;
}

static __inline void SekRunS68k(unsigned int to)
{
  int cyc_do;

  SekCycleAimS68k = to;
  if ((cyc_do = SekCycleAimS68k - SekCycleCntS68k) <= 0)
    return;

  if (SekShouldInterrupt())
    Pico_mcd->m.s68k_poll_a = 0;

  SekCycleCntS68k += cyc_do;
#if defined(EMU_C68K)
  PicoCpuCS68k.cycles = cyc_do;
  CycloneRun(&PicoCpuCS68k);
  SekCycleCntS68k -= PicoCpuCS68k.cycles;
#elif defined(EMU_M68K)
  m68k_set_context(&PicoCpuMS68k);
  SekCycleCntS68k += m68k_execute(cyc_do) - cyc_do;
  m68k_set_context(&PicoCpuMM68k);
#elif defined(EMU_F68K)
  g_m68kcontext = &PicoCpuFS68k;
  SekCycleCntS68k += fm68k_emulate(cyc_do, 0) - cyc_do;
  g_m68kcontext = &PicoCpuFM68k;
#endif
}

static void pcd_set_cycle_mult(void)
{
  // ~1.63 for NTSC, ~1.645 for PAL
  if (Pico.m.pal)
    mcd_m68k_cycle_mult = ((12500000ull << 16) / (50*312*488));
  else
    mcd_m68k_cycle_mult = ((12500000ull << 16) / (60*262*488)) + 1;
}

unsigned int pcd_cycles_m68k_to_s68k(unsigned int c)
{
  return (long long)c * mcd_m68k_cycle_mult >> 16;
}

/* events */
static void pcd_cdc_event(unsigned int now)
{
  // 75Hz CDC update
  Check_CD_Command();
  pcd_event_schedule(now, PCD_EVENT_CDC, 12500000/75);
}

static void pcd_int3_timer_event(unsigned int now)
{
  if (Pico_mcd->s68k_regs[0x33] & PCDS_IEN3) {
    elprintf(EL_INTS|EL_CD, "s68k: timer irq 3");
    SekInterruptS68k(3);
  }

  if (Pico_mcd->s68k_regs[0x31] != 0)
    pcd_event_schedule(now, PCD_EVENT_TIMER3,
      Pico_mcd->s68k_regs[0x31] * 384);
}

static void pcd_dma_event(unsigned int now)
{
  int ddx = Pico_mcd->s68k_regs[4] & 7;
	Update_CDC_TRansfer(ddx);
}

typedef void (event_cb)(unsigned int now);

/* times are in s68k (12.5MHz) cycles */
unsigned int pcd_event_times[PCD_EVENT_COUNT];
static unsigned int event_time_next;
static event_cb *pcd_event_cbs[PCD_EVENT_COUNT] = {
  [PCD_EVENT_CDC]      = pcd_cdc_event,
  [PCD_EVENT_TIMER3]   = pcd_int3_timer_event,
  [PCD_EVENT_GFX]      = gfx_update,
  [PCD_EVENT_DMA]      = pcd_dma_event,
};

void pcd_event_schedule(unsigned int now, enum pcd_event event, int after)
{
  unsigned int when;

  when = now + after;
  if (when == 0) {
    // event cancelled
    pcd_event_times[event] = 0;
    return;
  }

  when |= 1;

  elprintf(EL_CD, "cd: new event #%u %u->%u", event, now, when);
  pcd_event_times[event] = when;

  if (event_time_next == 0 || CYCLES_GT(event_time_next, when))
    event_time_next = when;
}

void pcd_event_schedule_s68k(enum pcd_event event, int after)
{
  if (SekCyclesLeftS68k > after)
    SekEndRunS68k(after);

  pcd_event_schedule(SekCyclesDoneS68k(), event, after);
}

static void pcd_run_events(unsigned int until)
{
  int oldest, oldest_diff, time;
  int i, diff;

  while (1) {
    oldest = -1, oldest_diff = 0x7fffffff;

    for (i = 0; i < PCD_EVENT_COUNT; i++) {
      if (pcd_event_times[i]) {
        diff = pcd_event_times[i] - until;
        if (diff < oldest_diff) {
          oldest_diff = diff;
          oldest = i;
        }
      }
    }

    if (oldest_diff <= 0) {
      time = pcd_event_times[oldest];
      pcd_event_times[oldest] = 0;
      elprintf(EL_CD, "cd: run event #%d %u", oldest, time);
      pcd_event_cbs[oldest](time);
    }
    else if (oldest_diff < 0x7fffffff) {
      event_time_next = pcd_event_times[oldest];
      break;
    }
    else {
      event_time_next = 0;
      break;
    }
  }

  if (oldest != -1)
    elprintf(EL_CD, "cd: next event #%d at %u",
      oldest, event_time_next);
}

int pcd_sync_s68k(unsigned int m68k_target, int m68k_poll_sync)
{
  #define now SekCycleCntS68k
  unsigned int s68k_target;
  unsigned int target;

  target = m68k_target - mcd_m68k_cycle_base;
  s68k_target = mcd_s68k_cycle_base +
    ((unsigned long long)target * mcd_m68k_cycle_mult >> 16);

  elprintf(EL_CD, "s68k sync to %u, %u->%u",
    m68k_target, now, s68k_target);

  if (Pico_mcd->m.busreq != 1) { /* busreq/reset */
    SekCycleCntS68k = SekCycleAimS68k = s68k_target;
    pcd_run_events(m68k_target);
    return 0;
  }

  while (CYCLES_GT(s68k_target, now)) {
    if (event_time_next && CYCLES_GE(now, event_time_next))
      pcd_run_events(now);

    target = s68k_target;
    if (event_time_next && CYCLES_GT(target, event_time_next))
      target = event_time_next;

    SekRunS68k(target);
    if (m68k_poll_sync && Pico_mcd->m.m68k_poll_cnt == 0)
      break;
  }

  return s68k_target - now;
  #undef now
}

#define pcd_run_cpus_normal pcd_run_cpus
//#define pcd_run_cpus_lockstep pcd_run_cpus

static void SekSyncM68k(void);

void pcd_run_cpus_normal(int m68k_cycles)
{
  SekCycleAim += m68k_cycles;
  if (SekShouldInterrupt() || Pico_mcd->m.m68k_poll_cnt < 12)
    Pico_mcd->m.m68k_poll_cnt = 0;
  else if (Pico_mcd->m.m68k_poll_cnt >= 16) {
    int s68k_left = pcd_sync_s68k(SekCycleAim, 1);
    if (s68k_left <= 0) {
      elprintf(EL_CDPOLL, "m68k poll [%02x] x%d @%06x",
        Pico_mcd->m.m68k_poll_a, Pico_mcd->m.m68k_poll_cnt, SekPc);
      SekCycleCnt = SekCycleAim;
      return;
    }
    SekCycleCnt = SekCycleAim - (s68k_left * 40220 >> 16);
  }

  SekSyncM68k();
}

void pcd_run_cpus_lockstep(int m68k_cycles)
{
  unsigned int target = SekCycleAim + m68k_cycles;
  do {
    SekCycleAim += 8;
    SekSyncM68k();
    pcd_sync_s68k(SekCycleAim, 0);
  } while (CYCLES_GT(target, SekCycleAim));

  SekCycleAim = target;
}

#define PICO_CD
#define CPUS_RUN(m68k_cycles) \
  pcd_run_cpus(m68k_cycles)

#include "../pico_cmn.c"


void pcd_prepare_frame(void)
{
  pcd_set_cycle_mult();

  // need this because we can't have direct mapping between
  // master<->slave cycle counters because of overflows
  mcd_m68k_cycle_base = SekCycleAim;
  mcd_s68k_cycle_base = SekCycleAimS68k;
}

PICO_INTERNAL void PicoFrameMCD(void)
{
  PicoFrameStart();

  pcd_prepare_frame();
  PicoFrameHints();
}

void pcd_state_loaded(void)
{
  unsigned int cycles;
  int diff;

  pcd_set_cycle_mult();
  pcd_state_loaded_mem();

  memset(Pico_mcd->pcm_mixbuf, 0, sizeof(Pico_mcd->pcm_mixbuf));
  Pico_mcd->pcm_mixbuf_dirty = 0;
  Pico_mcd->pcm_mixpos = 0;
  Pico_mcd->pcm_regs_dirty = 1;

  // old savestates..
  cycles = pcd_cycles_m68k_to_s68k(SekCycleAim);
  diff = cycles - SekCycleAimS68k;
  if (diff < -1000 || diff > 1000) {
    SekCycleCntS68k = SekCycleAimS68k = cycles;
  }
  if (pcd_event_times[PCD_EVENT_CDC] == 0) {
    pcd_event_schedule(SekCycleAimS68k, PCD_EVENT_CDC, 12500000/75);

    if (Pico_mcd->s68k_regs[0x31])
      pcd_event_schedule(SekCycleAimS68k, PCD_EVENT_TIMER3,
        Pico_mcd->s68k_regs[0x31] * 384);

    if (Pico_mcd->scd.Status_CDC & 0x08)
	    Update_CDC_TRansfer(Pico_mcd->s68k_regs[4] & 7);
  }

  diff = cycles - Pico_mcd->pcm.update_cycles;
  if ((unsigned int)diff > 12500000/50)
    Pico_mcd->pcm.update_cycles = cycles;

  // reschedule
  event_time_next = 0;
  pcd_run_events(SekCycleCntS68k);
}

// vim:shiftwidth=2:ts=2:expandtab
Commit	Line	Data
	1	/*
	2	* PicoDrive
	3	* (C) notaz, 2007,2013
	4	*
	5	* This work is licensed under the terms of MAME license.
	6	* See COPYING file in the top-level directory.
	7	*/
	8
	9	#include "../pico_int.h"
	10	#include "../sound/ym2612.h"
	11
	12	extern unsigned char formatted_bram[4*0x10];
	13
	14	static unsigned int mcd_m68k_cycle_mult;
	15	static unsigned int mcd_m68k_cycle_base;
	16	static unsigned int mcd_s68k_cycle_base;
	17
	18	void (*PicoMCDopenTray)(void) = NULL;
	19	void (*PicoMCDcloseTray)(void) = NULL;
	20
	21
	22	PICO_INTERNAL void PicoInitMCD(void)
	23	{
	24	SekInitS68k();
	25	Init_CD_Driver();
	26	gfx_init();
	27	}
	28
	29	PICO_INTERNAL void PicoExitMCD(void)
	30	{
	31	End_CD_Driver();
	32	}
	33
	34	PICO_INTERNAL void PicoPowerMCD(void)
	35	{
	36	SekCycleCntS68k = SekCycleAimS68k = 0;
	37
	38	int fmt_size = sizeof(formatted_bram);
	39	memset(Pico_mcd->prg_ram, 0, sizeof(Pico_mcd->prg_ram));
	40	memset(Pico_mcd->word_ram2M, 0, sizeof(Pico_mcd->word_ram2M));
	41	memset(Pico_mcd->pcm_ram, 0, sizeof(Pico_mcd->pcm_ram));
	42	memset(Pico_mcd->bram, 0, sizeof(Pico_mcd->bram));
	43	memcpy(Pico_mcd->bram + sizeof(Pico_mcd->bram) - fmt_size,
	44	formatted_bram, fmt_size);
	45	memset(Pico_mcd->s68k_regs, 0, sizeof(Pico_mcd->s68k_regs));
	46	memset(&Pico_mcd->pcm, 0, sizeof(Pico_mcd->pcm));
	47	memset(&Pico_mcd->m, 0, sizeof(Pico_mcd->m));
	48
	49	Reset_CD();
	50
	51	// cold reset state (tested)
	52	Pico_mcd->m.state_flags = PCD_ST_S68K_RST;
	53	Pico_mcd->m.busreq = 2; // busreq on, s68k in reset
	54	Pico_mcd->s68k_regs[3] = 1; // 2M word RAM mode, m68k access
	55	memset(Pico_mcd->bios + 0x70, 0xff, 4);
	56	}
	57
	58	void pcd_soft_reset(void)
	59	{
	60	// Reset_CD(); // breaks Fahrenheit CD swap
	61
	62	LC89510_Reset();
	63	#ifdef _ASM_CD_MEMORY_C
	64	//PicoMemResetCDdecode(1); // don't have to call this in 2M mode
	65	#endif
	66
	67	pcd_event_schedule_s68k(PCD_EVENT_CDC, 12500000/75);
	68
	69	// TODO: test if register state/timers change
	70	}
	71
	72	PICO_INTERNAL int PicoResetMCD(void)
	73	{
	74	// reset button doesn't affect MCD hardware
	75
	76	// use SRam.data for RAM cart
	77	if (PicoOpt & POPT_EN_MCD_RAMCART) {
	78	if (SRam.data == NULL)
	79	SRam.data = calloc(1, 0x12000);
	80	}
	81	else if (SRam.data != NULL) {
	82	free(SRam.data);
	83	SRam.data = NULL;
	84	}
	85	SRam.start = SRam.end = 0; // unused
	86
	87	return 0;
	88	}
	89
	90	static __inline void SekRunS68k(unsigned int to)
	91	{
	92	int cyc_do;
	93
	94	SekCycleAimS68k = to;
	95	if ((cyc_do = SekCycleAimS68k - SekCycleCntS68k) <= 0)
	96	return;
	97
	98	if (SekShouldInterrupt())
	99	Pico_mcd->m.s68k_poll_a = 0;
	100
	101	SekCycleCntS68k += cyc_do;
	102	#if defined(EMU_C68K)
	103	PicoCpuCS68k.cycles = cyc_do;
	104	CycloneRun(&PicoCpuCS68k);
	105	SekCycleCntS68k -= PicoCpuCS68k.cycles;
	106	#elif defined(EMU_M68K)
	107	m68k_set_context(&PicoCpuMS68k);
	108	SekCycleCntS68k += m68k_execute(cyc_do) - cyc_do;
	109	m68k_set_context(&PicoCpuMM68k);
	110	#elif defined(EMU_F68K)
	111	g_m68kcontext = &PicoCpuFS68k;
	112	SekCycleCntS68k += fm68k_emulate(cyc_do, 0) - cyc_do;
	113	g_m68kcontext = &PicoCpuFM68k;
	114	#endif
	115	}
	116
	117	static void pcd_set_cycle_mult(void)
	118	{
	119	// ~1.63 for NTSC, ~1.645 for PAL
	120	if (Pico.m.pal)
	121	mcd_m68k_cycle_mult = ((12500000ull << 16) / (50312488));
	122	else
	123	mcd_m68k_cycle_mult = ((12500000ull << 16) / (60262488)) + 1;
	124	}
	125
	126	unsigned int pcd_cycles_m68k_to_s68k(unsigned int c)
	127	{
	128	return (long long)c * mcd_m68k_cycle_mult >> 16;
	129	}
	130
	131	/* events */
	132	static void pcd_cdc_event(unsigned int now)
	133	{
	134	// 75Hz CDC update
	135	Check_CD_Command();
	136	pcd_event_schedule(now, PCD_EVENT_CDC, 12500000/75);
	137	}
	138
	139	static void pcd_int3_timer_event(unsigned int now)
	140	{
	141	if (Pico_mcd->s68k_regs[0x33] & PCDS_IEN3) {
	142	elprintf(EL_INTS\|EL_CD, "s68k: timer irq 3");
	143	SekInterruptS68k(3);
	144	}
	145
	146	if (Pico_mcd->s68k_regs[0x31] != 0)
	147	pcd_event_schedule(now, PCD_EVENT_TIMER3,
	148	Pico_mcd->s68k_regs[0x31] * 384);
	149	}
	150
	151	static void pcd_dma_event(unsigned int now)
	152	{
	153	int ddx = Pico_mcd->s68k_regs[4] & 7;
	154	Update_CDC_TRansfer(ddx);
	155	}
	156
	157	typedef void (event_cb)(unsigned int now);
	158
	159	/* times are in s68k (12.5MHz) cycles */
	160	unsigned int pcd_event_times[PCD_EVENT_COUNT];
	161	static unsigned int event_time_next;
	162	static event_cb *pcd_event_cbs[PCD_EVENT_COUNT] = {
	163	[PCD_EVENT_CDC] = pcd_cdc_event,
	164	[PCD_EVENT_TIMER3] = pcd_int3_timer_event,
	165	[PCD_EVENT_GFX] = gfx_update,
	166	[PCD_EVENT_DMA] = pcd_dma_event,
	167	};
	168
	169	void pcd_event_schedule(unsigned int now, enum pcd_event event, int after)
	170	{
	171	unsigned int when;
	172
	173	when = now + after;
	174	if (when == 0) {
	175	// event cancelled
	176	pcd_event_times[event] = 0;
	177	return;
	178	}
	179
	180	when \|= 1;
	181
	182	elprintf(EL_CD, "cd: new event #%u %u->%u", event, now, when);
	183	pcd_event_times[event] = when;
	184
	185	if (event_time_next == 0 \|\| CYCLES_GT(event_time_next, when))
	186	event_time_next = when;
	187	}
	188
	189	void pcd_event_schedule_s68k(enum pcd_event event, int after)
	190	{
	191	if (SekCyclesLeftS68k > after)
	192	SekEndRunS68k(after);
	193
	194	pcd_event_schedule(SekCyclesDoneS68k(), event, after);
	195	}
	196
	197	static void pcd_run_events(unsigned int until)
	198	{
	199	int oldest, oldest_diff, time;
	200	int i, diff;
	201
	202	while (1) {
	203	oldest = -1, oldest_diff = 0x7fffffff;
	204
	205	for (i = 0; i < PCD_EVENT_COUNT; i++) {
	206	if (pcd_event_times[i]) {
	207	diff = pcd_event_times[i] - until;
	208	if (diff < oldest_diff) {
	209	oldest_diff = diff;
	210	oldest = i;
	211	}
	212	}
	213	}
	214
	215	if (oldest_diff <= 0) {
	216	time = pcd_event_times[oldest];
	217	pcd_event_times[oldest] = 0;
	218	elprintf(EL_CD, "cd: run event #%d %u", oldest, time);
	219	pcd_event_cbs[oldest](time);
	220	}
	221	else if (oldest_diff < 0x7fffffff) {
	222	event_time_next = pcd_event_times[oldest];
	223	break;
	224	}
	225	else {
	226	event_time_next = 0;
	227	break;
	228	}
	229	}
	230
	231	if (oldest != -1)
	232	elprintf(EL_CD, "cd: next event #%d at %u",
	233	oldest, event_time_next);
	234	}
	235
	236	int pcd_sync_s68k(unsigned int m68k_target, int m68k_poll_sync)
	237	{
	238	#define now SekCycleCntS68k
	239	unsigned int s68k_target;
	240	unsigned int target;
	241
	242	target = m68k_target - mcd_m68k_cycle_base;
	243	s68k_target = mcd_s68k_cycle_base +
	244	((unsigned long long)target * mcd_m68k_cycle_mult >> 16);
	245
	246	elprintf(EL_CD, "s68k sync to %u, %u->%u",
	247	m68k_target, now, s68k_target);
	248
	249	if (Pico_mcd->m.busreq != 1) { /* busreq/reset */
	250	SekCycleCntS68k = SekCycleAimS68k = s68k_target;
	251	pcd_run_events(m68k_target);
	252	return 0;
	253	}
	254
	255	while (CYCLES_GT(s68k_target, now)) {
	256	if (event_time_next && CYCLES_GE(now, event_time_next))
	257	pcd_run_events(now);
	258
	259	target = s68k_target;
	260	if (event_time_next && CYCLES_GT(target, event_time_next))
	261	target = event_time_next;
	262
	263	SekRunS68k(target);
	264	if (m68k_poll_sync && Pico_mcd->m.m68k_poll_cnt == 0)
	265	break;
	266	}
	267
	268	return s68k_target - now;
	269	#undef now
	270	}
	271
	272	#define pcd_run_cpus_normal pcd_run_cpus
	273	//#define pcd_run_cpus_lockstep pcd_run_cpus
	274
	275	static void SekSyncM68k(void);
	276
	277	void pcd_run_cpus_normal(int m68k_cycles)
	278	{
	279	SekCycleAim += m68k_cycles;
	280	if (SekShouldInterrupt() \|\| Pico_mcd->m.m68k_poll_cnt < 12)
	281	Pico_mcd->m.m68k_poll_cnt = 0;
	282	else if (Pico_mcd->m.m68k_poll_cnt >= 16) {
	283	int s68k_left = pcd_sync_s68k(SekCycleAim, 1);
	284	if (s68k_left <= 0) {
	285	elprintf(EL_CDPOLL, "m68k poll [%02x] x%d @%06x",
	286	Pico_mcd->m.m68k_poll_a, Pico_mcd->m.m68k_poll_cnt, SekPc);
	287	SekCycleCnt = SekCycleAim;
	288	return;
	289	}
	290	SekCycleCnt = SekCycleAim - (s68k_left * 40220 >> 16);
	291	}
	292
	293	SekSyncM68k();
	294	}
	295
	296	void pcd_run_cpus_lockstep(int m68k_cycles)
	297	{
	298	unsigned int target = SekCycleAim + m68k_cycles;
	299	do {
	300	SekCycleAim += 8;
	301	SekSyncM68k();
	302	pcd_sync_s68k(SekCycleAim, 0);
	303	} while (CYCLES_GT(target, SekCycleAim));
	304
	305	SekCycleAim = target;
	306	}
	307
	308	#define PICO_CD
	309	#define CPUS_RUN(m68k_cycles) \
	310	pcd_run_cpus(m68k_cycles)
	311
	312	#include "../pico_cmn.c"
	313
	314
	315	void pcd_prepare_frame(void)
	316	{
	317	pcd_set_cycle_mult();
	318
	319	// need this because we can't have direct mapping between
	320	// master<->slave cycle counters because of overflows
	321	mcd_m68k_cycle_base = SekCycleAim;
	322	mcd_s68k_cycle_base = SekCycleAimS68k;
	323	}
	324
	325	PICO_INTERNAL void PicoFrameMCD(void)
	326	{
	327	PicoFrameStart();
	328
	329	pcd_prepare_frame();
	330	PicoFrameHints();
	331	}
	332
	333	void pcd_state_loaded(void)
	334	{
	335	unsigned int cycles;
	336	int diff;
	337
	338	pcd_set_cycle_mult();
	339	pcd_state_loaded_mem();
	340
	341	memset(Pico_mcd->pcm_mixbuf, 0, sizeof(Pico_mcd->pcm_mixbuf));
	342	Pico_mcd->pcm_mixbuf_dirty = 0;
	343	Pico_mcd->pcm_mixpos = 0;
	344	Pico_mcd->pcm_regs_dirty = 1;
	345
	346	// old savestates..
	347	cycles = pcd_cycles_m68k_to_s68k(SekCycleAim);
	348	diff = cycles - SekCycleAimS68k;
	349	if (diff < -1000 \|\| diff > 1000) {
	350	SekCycleCntS68k = SekCycleAimS68k = cycles;
	351	}
	352	if (pcd_event_times[PCD_EVENT_CDC] == 0) {
	353	pcd_event_schedule(SekCycleAimS68k, PCD_EVENT_CDC, 12500000/75);
	354
	355	if (Pico_mcd->s68k_regs[0x31])
	356	pcd_event_schedule(SekCycleAimS68k, PCD_EVENT_TIMER3,
	357	Pico_mcd->s68k_regs[0x31] * 384);
	358
	359	if (Pico_mcd->scd.Status_CDC & 0x08)
	360	Update_CDC_TRansfer(Pico_mcd->s68k_regs[4] & 7);
	361	}
	362
	363	diff = cycles - Pico_mcd->pcm.update_cycles;
	364	if ((unsigned int)diff > 12500000/50)
	365	Pico_mcd->pcm.update_cycles = cycles;
	366
	367	// reschedule
	368	event_time_next = 0;
	369	pcd_run_events(SekCycleCntS68k);
	370	}
	371
	372	// vim:shiftwidth=2:ts=2:expandtab