[picodrive.git] / pico / 32x / 32x.c

/*
 * PicoDrive
 * (C) notaz, 2009,2010,2013
 *
 * 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"
#include "../../cpu/sh2/compiler.h"

struct Pico32x Pico32x;
SH2 sh2s[2];

#define SH2_IDLE_STATES (SH2_STATE_CPOLL|SH2_STATE_VPOLL|SH2_STATE_SLEEP)

static int REGPARM(2) sh2_irq_cb(SH2 *sh2, int level)
{
  if (sh2->pending_irl > sh2->pending_int_irq) {
    elprintf(EL_32X, "%csh2 ack/irl %d @ %08x",
      sh2->is_slave ? 's' : 'm', level, sh2->pc);
    return 64 + sh2->pending_irl / 2;
  } else {
    elprintf(EL_32X, "%csh2 ack/int %d/%d @ %08x",
      sh2->is_slave ? 's' : 'm', level, sh2->pending_int_vector, sh2->pc);
    sh2->pending_int_irq = 0; // auto-clear
    sh2->pending_level = sh2->pending_irl;
    return sh2->pending_int_vector;
  }
}

// if !nested_call, must sync CPUs before calling this
void p32x_update_irls(SH2 *active_sh2)
{
  int irqs, mlvl = 0, slvl = 0;
  int m68k_cycles = 0;
  int mrun, srun;

  if (active_sh2 != NULL)
    m68k_cycles = sh2_cycles_done_m68k(active_sh2);

  // msh2
  irqs = (Pico32x.sh2irqs | Pico32x.sh2irqi[0]) & ((Pico32x.sh2irq_mask[0] << 3) | P32XI_VRES);
  while ((irqs >>= 1))
    mlvl++;
  mlvl *= 2;

  // ssh2
  irqs = (Pico32x.sh2irqs | Pico32x.sh2irqi[1]) & ((Pico32x.sh2irq_mask[1] << 3) | P32XI_VRES);
  while ((irqs >>= 1))
    slvl++;
  slvl *= 2;

  mrun = sh2_irl_irq(&msh2, mlvl, active_sh2 != NULL);
  if (mrun)
    p32x_sh2_poll_event(&msh2, SH2_IDLE_STATES, m68k_cycles);

  srun = sh2_irl_irq(&ssh2, slvl, active_sh2 != NULL);
  if (srun)
    p32x_sh2_poll_event(&ssh2, SH2_IDLE_STATES, m68k_cycles);

  elprintf(EL_32X, "update_irls: m %d/%d, s %d/%d", mlvl, mrun, slvl, srun);
}

void Pico32xStartup(void)
{
  elprintf(EL_STATUS|EL_32X, "32X startup");

  // TODO: OOM handling
  PicoAHW |= PAHW_32X;
  sh2_init(&msh2, 0);
  msh2.irq_callback = sh2_irq_cb;
  sh2_init(&ssh2, 1);
  ssh2.irq_callback = sh2_irq_cb;

  PicoMemSetup32x();
  p32x_pwm_ctl_changed();
  p32x_timers_recalc();

  if (!Pico.m.pal)
    Pico32x.vdp_regs[0] |= P32XV_nPAL;

  PREG8(Pico32xMem->sh2_peri_regs[0], 4) =
  PREG8(Pico32xMem->sh2_peri_regs[1], 4) = 0x84; // SCI SSR

  rendstatus_old = -1;

  emu_32x_startup();
}

#define HWSWAP(x) (((x) << 16) | ((x) >> 16))
void p32x_reset_sh2s(void)
{
  elprintf(EL_32X, "sh2 reset");

  sh2_reset(&msh2);
  sh2_reset(&ssh2);

  // if we don't have BIOS set, perform it's work here.
  // MSH2
  if (p32x_bios_m == NULL) {
    unsigned int idl_src, idl_dst, idl_size; // initial data load
    unsigned int vbr;

    // initial data
    idl_src = HWSWAP(*(unsigned int *)(Pico.rom + 0x3d4)) & ~0xf0000000;
    idl_dst = HWSWAP(*(unsigned int *)(Pico.rom + 0x3d8)) & ~0xf0000000;
    idl_size= HWSWAP(*(unsigned int *)(Pico.rom + 0x3dc));
    if (idl_size > Pico.romsize || idl_src + idl_size > Pico.romsize ||
        idl_size > 0x40000 || idl_dst + idl_size > 0x40000 || (idl_src & 3) || (idl_dst & 3)) {
      elprintf(EL_STATUS|EL_ANOMALY, "32x: invalid initial data ptrs: %06x -> %06x, %06x",
        idl_src, idl_dst, idl_size);
    }
    else
      memcpy(Pico32xMem->sdram + idl_dst, Pico.rom + idl_src, idl_size);

    // GBR/VBR
    vbr = HWSWAP(*(unsigned int *)(Pico.rom + 0x3e8));
    sh2_set_gbr(0, 0x20004000);
    sh2_set_vbr(0, vbr);

    // checksum and M_OK
    Pico32x.regs[0x28 / 2] = *(unsigned short *)(Pico.rom + 0x18e);
    // program will set M_OK
  }

  // SSH2
  if (p32x_bios_s == NULL) {
    unsigned int vbr;

    // GBR/VBR
    vbr = HWSWAP(*(unsigned int *)(Pico.rom + 0x3ec));
    sh2_set_gbr(1, 0x20004000);
    sh2_set_vbr(1, vbr);
    // program will set S_OK
  }

  msh2.m68krcycles_done = ssh2.m68krcycles_done = SekCyclesDoneT();
}

void Pico32xInit(void)
{
  if (msh2.mult_m68k_to_sh2 == 0 || msh2.mult_sh2_to_m68k == 0)
    Pico32xSetClocks(PICO_MSH2_HZ, 0);
  if (ssh2.mult_m68k_to_sh2 == 0 || ssh2.mult_sh2_to_m68k == 0)
    Pico32xSetClocks(0, PICO_MSH2_HZ);
}

void PicoPower32x(void)
{
  memset(&Pico32x, 0, sizeof(Pico32x));

  Pico32x.regs[0] = P32XS_REN|P32XS_nRES; // verified
  Pico32x.vdp_regs[0x0a/2] = P32XV_VBLK|P32XV_HBLK|P32XV_PEN;
  Pico32x.sh2_regs[0] = P32XS2_ADEN;
}

void PicoUnload32x(void)
{
  if (Pico32xMem != NULL)
    plat_munmap(Pico32xMem, sizeof(*Pico32xMem));
  Pico32xMem = NULL;
  sh2_finish(&msh2);
  sh2_finish(&ssh2);

  PicoAHW &= ~PAHW_32X;
}

void PicoReset32x(void)
{
  if (PicoAHW & PAHW_32X) {
    Pico32x.sh2irqs |= P32XI_VRES;
    p32x_update_irls(NULL);
    p32x_sh2_poll_event(&msh2, SH2_IDLE_STATES, 0);
    p32x_sh2_poll_event(&ssh2, SH2_IDLE_STATES, 0);
    p32x_pwm_ctl_changed();
    p32x_timers_recalc();
  }
}

static void p32x_start_blank(void)
{
  if (Pico32xDrawMode != PDM32X_OFF && !PicoSkipFrame) {
    int offs, lines;

    pprof_start(draw);

    offs = 8; lines = 224;
    if ((Pico.video.reg[1] & 8) && !(PicoOpt & POPT_ALT_RENDERER)) {
      offs = 0;
      lines = 240;
    }

    // XXX: no proper handling of 32col mode..
    if ((Pico32x.vdp_regs[0] & P32XV_Mx) != 0 && // 32x not blanking
        (Pico.video.reg[12] & 1) && // 40col mode
        (PicoDrawMask & PDRAW_32X_ON))
    {
      int md_bg = Pico.video.reg[7] & 0x3f;

      // we draw full layer (not line-by-line)
      PicoDraw32xLayer(offs, lines, md_bg);
    }
    else if (Pico32xDrawMode != PDM32X_32X_ONLY)
      PicoDraw32xLayerMdOnly(offs, lines);

    pprof_end(draw);
  }

  // enter vblank
  Pico32x.vdp_regs[0x0a/2] |= P32XV_VBLK|P32XV_PEN;

  // FB swap waits until vblank
  if ((Pico32x.vdp_regs[0x0a/2] ^ Pico32x.pending_fb) & P32XV_FS) {
    Pico32x.vdp_regs[0x0a/2] &= ~P32XV_FS;
    Pico32x.vdp_regs[0x0a/2] |= Pico32x.pending_fb;
    Pico32xSwapDRAM(Pico32x.pending_fb ^ 1);
  }

  Pico32x.sh2irqs |= P32XI_VINT;
  p32x_update_irls(NULL);
  p32x_sh2_poll_event(&msh2, SH2_STATE_VPOLL, 0);
  p32x_sh2_poll_event(&ssh2, SH2_STATE_VPOLL, 0);
}

// compare cycles, handling overflows
// check if a > b
#define CYCLES_GT(a, b) \
  ((int)((a) - (b)) > 0)
// check if a >= b
#define CYCLES_GE(a, b) \
  ((int)((a) - (b)) >= 0)

/* events */
static void fillend_event(unsigned int now)
{
  Pico32x.vdp_regs[0x0a/2] &= ~P32XV_nFEN;
  p32x_sh2_poll_event(&msh2, SH2_STATE_VPOLL, now);
  p32x_sh2_poll_event(&ssh2, SH2_STATE_VPOLL, now);
}

typedef void (event_cb)(unsigned int now);

unsigned int event_times[P32X_EVENT_COUNT];
static unsigned int event_time_next;
static event_cb *event_cbs[] = {
  [P32X_EVENT_PWM]      = p32x_pwm_irq_event,
  [P32X_EVENT_FILLEND]  = fillend_event,
};

// schedule event at some time 'after', in m68k clocks
void p32x_event_schedule(unsigned int now, enum p32x_event event, int after)
{
  unsigned int when;

  when = (now + after) | 1;

  elprintf(EL_32X, "new event #%u %u->%u", event, now, when);
  event_times[event] = when;

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

void p32x_event_schedule_sh2(SH2 *sh2, enum p32x_event event, int after)
{
  unsigned int now = sh2_cycles_done_m68k(sh2);
  int left_to_next;

  p32x_event_schedule(now, event, after);

  left_to_next = (event_time_next - now) * 3;
  if (sh2_cycles_left(sh2) > left_to_next)
    sh2_end_run(sh2, left_to_next);
}

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

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

    for (i = 0; i < P32X_EVENT_COUNT; i++) {
      if (event_times[i]) {
        diff = event_times[i] - until;
        if (diff < oldest_diff) {
          oldest_diff = diff;
          oldest = i;
        }
      }
    }

    if (oldest_diff <= 0) {
      time = event_times[oldest];
      event_times[oldest] = 0;
      elprintf(EL_32X, "run event #%d %u", oldest, time);
      event_cbs[oldest](time);
    }
    else if (oldest_diff < 0x7fffffff) {
      event_time_next = event_times[oldest];
      break;
    }
    else {
      event_time_next = 0;
      break;
    }
  }

  if (oldest != -1)
    elprintf(EL_32X, "next event #%d at %u", oldest, event_time_next);
}

static inline void run_sh2(SH2 *sh2, int m68k_cycles)
{
  int cycles, done;

  pevt_log_sh2_o(sh2, EVT_RUN_START);
  sh2->state |= SH2_STATE_RUN;
  cycles = C_M68K_TO_SH2(*sh2, m68k_cycles);
  elprintf(EL_32X, "%csh2 +run %u %d",
    sh2->is_slave?'s':'m', sh2->m68krcycles_done, cycles);

  done = sh2_execute(sh2, cycles);

  sh2->m68krcycles_done += C_SH2_TO_M68K(*sh2, done);
  sh2->state &= ~SH2_STATE_RUN;
  pevt_log_sh2_o(sh2, EVT_RUN_END);
  elprintf(EL_32X, "%csh2 -run %u %d",
    sh2->is_slave?'s':'m', sh2->m68krcycles_done, done);
}

// sync other sh2 to this one
// note: recursive call
void p32x_sync_other_sh2(SH2 *sh2, unsigned int m68k_target)
{
  SH2 *osh2 = &sh2s[sh2->is_slave ^ 1];
  int left_to_event;
  int m68k_cycles;

  if (osh2->state & SH2_STATE_RUN)
    return;

  m68k_cycles = m68k_target - osh2->m68krcycles_done;
  if (m68k_cycles < 200)
    return;

  if (osh2->state & SH2_IDLE_STATES) {
    osh2->m68krcycles_done = m68k_target;
    return;
  }

  elprintf(EL_32X, "%csh2 sync to %u %d",
    osh2->is_slave?'s':'m', m68k_target, m68k_cycles);

  run_sh2(osh2, m68k_cycles);

  // there might be new event to schedule current sh2 to
  if (event_time_next) {
    left_to_event = event_time_next - m68k_target;
    left_to_event *= 3;
    if (sh2_cycles_left(sh2) > left_to_event) {
      if (left_to_event < 1)
        left_to_event = 1;
      sh2_end_run(sh2, left_to_event);
    }
  }
}

#define sync_sh2s_normal p32x_sync_sh2s
//#define sync_sh2s_lockstep p32x_sync_sh2s

/* most timing is in 68k clock */
void sync_sh2s_normal(unsigned int m68k_target)
{
  unsigned int now, target, timer_cycles;
  int cycles;

  elprintf(EL_32X, "sh2 sync to %u", m68k_target);

  if (!(Pico32x.regs[0] & P32XS_nRES)) {
    msh2.m68krcycles_done = ssh2.m68krcycles_done = m68k_target;
    return; // rare
  }

  now = msh2.m68krcycles_done;
  if (CYCLES_GT(now, ssh2.m68krcycles_done))
    now = ssh2.m68krcycles_done;
  timer_cycles = now;

  while (CYCLES_GT(m68k_target, now))
  {
    if (event_time_next && CYCLES_GE(now, event_time_next))
      run_events(now);

    target = m68k_target;
    if (event_time_next && CYCLES_GT(target, event_time_next))
      target = event_time_next;

    while (CYCLES_GT(target, now))
    {
      elprintf(EL_32X, "sh2 exec to %u %d,%d/%d, flags %x", target,
        target - msh2.m68krcycles_done, target - ssh2.m68krcycles_done,
        m68k_target - now, Pico32x.emu_flags);

      if (!(ssh2.state & SH2_IDLE_STATES)) {
        cycles = target - ssh2.m68krcycles_done;
        if (cycles > 0) {
          run_sh2(&ssh2, cycles);

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

      if (!(msh2.state & SH2_IDLE_STATES)) {
        cycles = target - msh2.m68krcycles_done;
        if (cycles > 0) {
          run_sh2(&msh2, cycles);

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

      now = target;
      if (!(msh2.state & SH2_IDLE_STATES)) {
        if (CYCLES_GT(now, msh2.m68krcycles_done))
          now = msh2.m68krcycles_done;
      }
      if (!(ssh2.state & SH2_IDLE_STATES)) {
        if (CYCLES_GT(now, ssh2.m68krcycles_done))
          now = ssh2.m68krcycles_done;
      }
    }

    p32x_timers_do(now - timer_cycles);
    timer_cycles = now;
  }

  // advance idle CPUs
  if (msh2.state & SH2_IDLE_STATES) {
    if (CYCLES_GT(m68k_target, msh2.m68krcycles_done))
      msh2.m68krcycles_done = m68k_target;
  }
  if (ssh2.state & SH2_IDLE_STATES) {
    if (CYCLES_GT(m68k_target, ssh2.m68krcycles_done))
      ssh2.m68krcycles_done = m68k_target;
  }
}

#define STEP_68K 24

void sync_sh2s_lockstep(unsigned int m68k_target)
{
  unsigned int mcycles;
  
  mcycles = msh2.m68krcycles_done;
  if (ssh2.m68krcycles_done < mcycles)
    mcycles = ssh2.m68krcycles_done;

  while (mcycles < m68k_target) {
    mcycles += STEP_68K;
    sync_sh2s_normal(mcycles);
  }
}

#define CPUS_RUN(m68k_cycles,s68k_cycles) do { \
  SekRunM68k(m68k_cycles); \
  if (Pico32x.emu_flags & (P32XF_68KCPOLL|P32XF_68KVPOLL)) \
    p32x_sync_sh2s(SekCyclesDoneT2()); \
} while (0)

#define PICO_32X
#include "../pico_cmn.c"

void PicoFrame32x(void)
{
  Pico32x.vdp_regs[0x0a/2] &= ~P32XV_VBLK; // get out of vblank
  if ((Pico32x.vdp_regs[0] & P32XV_Mx) != 0) // no forced blanking
    Pico32x.vdp_regs[0x0a/2] &= ~P32XV_PEN; // no palette access

  p32x_sh2_poll_event(&msh2, SH2_STATE_VPOLL, 0);
  p32x_sh2_poll_event(&ssh2, SH2_STATE_VPOLL, 0);

  PicoFrameStart();
  PicoFrameHints();
  sh2_drc_frame();

  elprintf(EL_32X, "poll: %02x %02x %02x",
    Pico32x.emu_flags & 3, msh2.state, ssh2.state);
}

// calculate multipliers against 68k clock (7670442)
// normally * 3, but effectively slower due to high latencies everywhere
// however using something lower breaks MK2 animations
void Pico32xSetClocks(int msh2_hz, int ssh2_hz)
{
  float m68k_clk = (float)(OSC_NTSC / 7);
  if (msh2_hz > 0) {
    msh2.mult_m68k_to_sh2 = (int)((float)msh2_hz * (1 << CYCLE_MULT_SHIFT) / m68k_clk);
    msh2.mult_sh2_to_m68k = (int)(m68k_clk * (1 << CYCLE_MULT_SHIFT) / (float)msh2_hz);
  }
  if (ssh2_hz > 0) {
    ssh2.mult_m68k_to_sh2 = (int)((float)ssh2_hz * (1 << CYCLE_MULT_SHIFT) / m68k_clk);
    ssh2.mult_sh2_to_m68k = (int)(m68k_clk * (1 << CYCLE_MULT_SHIFT) / (float)ssh2_hz);
  }
}

void Pico32xStateLoaded(int is_early)
{
  if (is_early) {
    Pico32xMemStateLoaded();
    return;
  }

  SekCycleCnt = 0;
  sh2s[0].m68krcycles_done = sh2s[1].m68krcycles_done = SekCycleCntT;
  p32x_update_irls(NULL);
  p32x_pwm_state_loaded();
  run_events(SekCycleCntT);
}

// vim:shiftwidth=2:ts=2:expandtab
Commit	Line	Data
	1	/*
	2	* PicoDrive
	3	* (C) notaz, 2009,2010,2013
	4	*
	5	* This work is licensed under the terms of MAME license.
	6	* See COPYING file in the top-level directory.
	7	*/
	8	#include "../pico_int.h"
	9	#include "../sound/ym2612.h"
	10	#include "../../cpu/sh2/compiler.h"
	11
	12	struct Pico32x Pico32x;
	13	SH2 sh2s[2];
	14
	15	#define SH2_IDLE_STATES (SH2_STATE_CPOLL\|SH2_STATE_VPOLL\|SH2_STATE_SLEEP)
	16
	17	static int REGPARM(2) sh2_irq_cb(SH2 *sh2, int level)
	18	{
	19	if (sh2->pending_irl > sh2->pending_int_irq) {
	20	elprintf(EL_32X, "%csh2 ack/irl %d @ %08x",
	21	sh2->is_slave ? 's' : 'm', level, sh2->pc);
	22	return 64 + sh2->pending_irl / 2;
	23	} else {
	24	elprintf(EL_32X, "%csh2 ack/int %d/%d @ %08x",
	25	sh2->is_slave ? 's' : 'm', level, sh2->pending_int_vector, sh2->pc);
	26	sh2->pending_int_irq = 0; // auto-clear
	27	sh2->pending_level = sh2->pending_irl;
	28	return sh2->pending_int_vector;
	29	}
	30	}
	31
	32	// if !nested_call, must sync CPUs before calling this
	33	void p32x_update_irls(SH2 *active_sh2)
	34	{
	35	int irqs, mlvl = 0, slvl = 0;
	36	int m68k_cycles = 0;
	37	int mrun, srun;
	38
	39	if (active_sh2 != NULL)
	40	m68k_cycles = sh2_cycles_done_m68k(active_sh2);
	41
	42	// msh2
	43	irqs = (Pico32x.sh2irqs \| Pico32x.sh2irqi[0]) & ((Pico32x.sh2irq_mask[0] << 3) \| P32XI_VRES);
	44	while ((irqs >>= 1))
	45	mlvl++;
	46	mlvl *= 2;
	47
	48	// ssh2
	49	irqs = (Pico32x.sh2irqs \| Pico32x.sh2irqi[1]) & ((Pico32x.sh2irq_mask[1] << 3) \| P32XI_VRES);
	50	while ((irqs >>= 1))
	51	slvl++;
	52	slvl *= 2;
	53
	54	mrun = sh2_irl_irq(&msh2, mlvl, active_sh2 != NULL);
	55	if (mrun)
	56	p32x_sh2_poll_event(&msh2, SH2_IDLE_STATES, m68k_cycles);
	57
	58	srun = sh2_irl_irq(&ssh2, slvl, active_sh2 != NULL);
	59	if (srun)
	60	p32x_sh2_poll_event(&ssh2, SH2_IDLE_STATES, m68k_cycles);
	61
	62	elprintf(EL_32X, "update_irls: m %d/%d, s %d/%d", mlvl, mrun, slvl, srun);
	63	}
	64
	65	void Pico32xStartup(void)
	66	{
	67	elprintf(EL_STATUS\|EL_32X, "32X startup");
	68
	69	// TODO: OOM handling
	70	PicoAHW \|= PAHW_32X;
	71	sh2_init(&msh2, 0);
	72	msh2.irq_callback = sh2_irq_cb;
	73	sh2_init(&ssh2, 1);
	74	ssh2.irq_callback = sh2_irq_cb;
	75
	76	PicoMemSetup32x();
	77	p32x_pwm_ctl_changed();
	78	p32x_timers_recalc();
	79
	80	if (!Pico.m.pal)
	81	Pico32x.vdp_regs[0] \|= P32XV_nPAL;
	82
	83	PREG8(Pico32xMem->sh2_peri_regs[0], 4) =
	84	PREG8(Pico32xMem->sh2_peri_regs[1], 4) = 0x84; // SCI SSR
	85
	86	rendstatus_old = -1;
	87
	88	emu_32x_startup();
	89	}
	90
	91	#define HWSWAP(x) (((x) << 16) \| ((x) >> 16))
	92	void p32x_reset_sh2s(void)
	93	{
	94	elprintf(EL_32X, "sh2 reset");
	95
	96	sh2_reset(&msh2);
	97	sh2_reset(&ssh2);
	98
	99	// if we don't have BIOS set, perform it's work here.
	100	// MSH2
	101	if (p32x_bios_m == NULL) {
	102	unsigned int idl_src, idl_dst, idl_size; // initial data load
	103	unsigned int vbr;
	104
	105	// initial data
	106	idl_src = HWSWAP((unsigned int )(Pico.rom + 0x3d4)) & ~0xf0000000;
	107	idl_dst = HWSWAP((unsigned int )(Pico.rom + 0x3d8)) & ~0xf0000000;
	108	idl_size= HWSWAP((unsigned int )(Pico.rom + 0x3dc));
	109	if (idl_size > Pico.romsize \|\| idl_src + idl_size > Pico.romsize \|\|
	110	idl_size > 0x40000 \|\| idl_dst + idl_size > 0x40000 \|\| (idl_src & 3) \|\| (idl_dst & 3)) {
	111	elprintf(EL_STATUS\|EL_ANOMALY, "32x: invalid initial data ptrs: %06x -> %06x, %06x",
	112	idl_src, idl_dst, idl_size);
	113	}
	114	else
	115	memcpy(Pico32xMem->sdram + idl_dst, Pico.rom + idl_src, idl_size);
	116
	117	// GBR/VBR
	118	vbr = HWSWAP((unsigned int )(Pico.rom + 0x3e8));
	119	sh2_set_gbr(0, 0x20004000);
	120	sh2_set_vbr(0, vbr);
	121
	122	// checksum and M_OK
	123	Pico32x.regs[0x28 / 2] = (unsigned short )(Pico.rom + 0x18e);
	124	// program will set M_OK
	125	}
	126
	127	// SSH2
	128	if (p32x_bios_s == NULL) {
	129	unsigned int vbr;
	130
	131	// GBR/VBR
	132	vbr = HWSWAP((unsigned int )(Pico.rom + 0x3ec));
	133	sh2_set_gbr(1, 0x20004000);
	134	sh2_set_vbr(1, vbr);
	135	// program will set S_OK
	136	}
	137
	138	msh2.m68krcycles_done = ssh2.m68krcycles_done = SekCyclesDoneT();
	139	}
	140
	141	void Pico32xInit(void)
	142	{
	143	if (msh2.mult_m68k_to_sh2 == 0 \|\| msh2.mult_sh2_to_m68k == 0)
	144	Pico32xSetClocks(PICO_MSH2_HZ, 0);
	145	if (ssh2.mult_m68k_to_sh2 == 0 \|\| ssh2.mult_sh2_to_m68k == 0)
	146	Pico32xSetClocks(0, PICO_MSH2_HZ);
	147	}
	148
	149	void PicoPower32x(void)
	150	{
	151	memset(&Pico32x, 0, sizeof(Pico32x));
	152
	153	Pico32x.regs[0] = P32XS_REN\|P32XS_nRES; // verified
	154	Pico32x.vdp_regs[0x0a/2] = P32XV_VBLK\|P32XV_HBLK\|P32XV_PEN;
	155	Pico32x.sh2_regs[0] = P32XS2_ADEN;
	156	}
	157
	158	void PicoUnload32x(void)
	159	{
	160	if (Pico32xMem != NULL)
	161	plat_munmap(Pico32xMem, sizeof(*Pico32xMem));
	162	Pico32xMem = NULL;
	163	sh2_finish(&msh2);
	164	sh2_finish(&ssh2);
	165
	166	PicoAHW &= ~PAHW_32X;
	167	}
	168
	169	void PicoReset32x(void)
	170	{
	171	if (PicoAHW & PAHW_32X) {
	172	Pico32x.sh2irqs \|= P32XI_VRES;
	173	p32x_update_irls(NULL);
	174	p32x_sh2_poll_event(&msh2, SH2_IDLE_STATES, 0);
	175	p32x_sh2_poll_event(&ssh2, SH2_IDLE_STATES, 0);
	176	p32x_pwm_ctl_changed();
	177	p32x_timers_recalc();
	178	}
	179	}
	180
	181	static void p32x_start_blank(void)
	182	{
	183	if (Pico32xDrawMode != PDM32X_OFF && !PicoSkipFrame) {
	184	int offs, lines;
	185
	186	pprof_start(draw);
	187
	188	offs = 8; lines = 224;
	189	if ((Pico.video.reg[1] & 8) && !(PicoOpt & POPT_ALT_RENDERER)) {
	190	offs = 0;
	191	lines = 240;
	192	}
	193
	194	// XXX: no proper handling of 32col mode..
	195	if ((Pico32x.vdp_regs[0] & P32XV_Mx) != 0 && // 32x not blanking
	196	(Pico.video.reg[12] & 1) && // 40col mode
	197	(PicoDrawMask & PDRAW_32X_ON))
	198	{
	199	int md_bg = Pico.video.reg[7] & 0x3f;
	200
	201	// we draw full layer (not line-by-line)
	202	PicoDraw32xLayer(offs, lines, md_bg);
	203	}
	204	else if (Pico32xDrawMode != PDM32X_32X_ONLY)
	205	PicoDraw32xLayerMdOnly(offs, lines);
	206
	207	pprof_end(draw);
	208	}
	209
	210	// enter vblank
	211	Pico32x.vdp_regs[0x0a/2] \|= P32XV_VBLK\|P32XV_PEN;
	212
	213	// FB swap waits until vblank
	214	if ((Pico32x.vdp_regs[0x0a/2] ^ Pico32x.pending_fb) & P32XV_FS) {
	215	Pico32x.vdp_regs[0x0a/2] &= ~P32XV_FS;
	216	Pico32x.vdp_regs[0x0a/2] \|= Pico32x.pending_fb;
	217	Pico32xSwapDRAM(Pico32x.pending_fb ^ 1);
	218	}
	219
	220	Pico32x.sh2irqs \|= P32XI_VINT;
	221	p32x_update_irls(NULL);
	222	p32x_sh2_poll_event(&msh2, SH2_STATE_VPOLL, 0);
	223	p32x_sh2_poll_event(&ssh2, SH2_STATE_VPOLL, 0);
	224	}
	225
	226	// compare cycles, handling overflows
	227	// check if a > b
	228	#define CYCLES_GT(a, b) \
	229	((int)((a) - (b)) > 0)
	230	// check if a >= b
	231	#define CYCLES_GE(a, b) \
	232	((int)((a) - (b)) >= 0)
	233
	234	/* events */
	235	static void fillend_event(unsigned int now)
	236	{
	237	Pico32x.vdp_regs[0x0a/2] &= ~P32XV_nFEN;
	238	p32x_sh2_poll_event(&msh2, SH2_STATE_VPOLL, now);
	239	p32x_sh2_poll_event(&ssh2, SH2_STATE_VPOLL, now);
	240	}
	241
	242	typedef void (event_cb)(unsigned int now);
	243
	244	unsigned int event_times[P32X_EVENT_COUNT];
	245	static unsigned int event_time_next;
	246	static event_cb *event_cbs[] = {
	247	[P32X_EVENT_PWM] = p32x_pwm_irq_event,
	248	[P32X_EVENT_FILLEND] = fillend_event,
	249	};
	250
	251	// schedule event at some time 'after', in m68k clocks
	252	void p32x_event_schedule(unsigned int now, enum p32x_event event, int after)
	253	{
	254	unsigned int when;
	255
	256	when = (now + after) \| 1;
	257
	258	elprintf(EL_32X, "new event #%u %u->%u", event, now, when);
	259	event_times[event] = when;
	260
	261	if (event_time_next == 0 \|\| CYCLES_GT(event_time_next, when))
	262	event_time_next = when;
	263	}
	264
	265	void p32x_event_schedule_sh2(SH2 *sh2, enum p32x_event event, int after)
	266	{
	267	unsigned int now = sh2_cycles_done_m68k(sh2);
	268	int left_to_next;
	269
	270	p32x_event_schedule(now, event, after);
	271
	272	left_to_next = (event_time_next - now) * 3;
	273	if (sh2_cycles_left(sh2) > left_to_next)
	274	sh2_end_run(sh2, left_to_next);
	275	}
	276
	277	static void run_events(unsigned int until)
	278	{
	279	int oldest, oldest_diff, time;
	280	int i, diff;
	281
	282	while (1) {
	283	oldest = -1, oldest_diff = 0x7fffffff;
	284
	285	for (i = 0; i < P32X_EVENT_COUNT; i++) {
	286	if (event_times[i]) {
	287	diff = event_times[i] - until;
	288	if (diff < oldest_diff) {
	289	oldest_diff = diff;
	290	oldest = i;
	291	}
	292	}
	293	}
	294
	295	if (oldest_diff <= 0) {
	296	time = event_times[oldest];
	297	event_times[oldest] = 0;
	298	elprintf(EL_32X, "run event #%d %u", oldest, time);
	299	event_cbs[oldest](time);
	300	}
	301	else if (oldest_diff < 0x7fffffff) {
	302	event_time_next = event_times[oldest];
	303	break;
	304	}
	305	else {
	306	event_time_next = 0;
	307	break;
	308	}
	309	}
	310
	311	if (oldest != -1)
	312	elprintf(EL_32X, "next event #%d at %u", oldest, event_time_next);
	313	}
	314
	315	static inline void run_sh2(SH2 *sh2, int m68k_cycles)
	316	{
	317	int cycles, done;
	318
	319	pevt_log_sh2_o(sh2, EVT_RUN_START);
	320	sh2->state \|= SH2_STATE_RUN;
	321	cycles = C_M68K_TO_SH2(*sh2, m68k_cycles);
	322	elprintf(EL_32X, "%csh2 +run %u %d",
	323	sh2->is_slave?'s':'m', sh2->m68krcycles_done, cycles);
	324
	325	done = sh2_execute(sh2, cycles);
	326
	327	sh2->m68krcycles_done += C_SH2_TO_M68K(*sh2, done);
	328	sh2->state &= ~SH2_STATE_RUN;
	329	pevt_log_sh2_o(sh2, EVT_RUN_END);
	330	elprintf(EL_32X, "%csh2 -run %u %d",
	331	sh2->is_slave?'s':'m', sh2->m68krcycles_done, done);
	332	}
	333
	334	// sync other sh2 to this one
	335	// note: recursive call
	336	void p32x_sync_other_sh2(SH2 *sh2, unsigned int m68k_target)
	337	{
	338	SH2 *osh2 = &sh2s[sh2->is_slave ^ 1];
	339	int left_to_event;
	340	int m68k_cycles;
	341
	342	if (osh2->state & SH2_STATE_RUN)
	343	return;
	344
	345	m68k_cycles = m68k_target - osh2->m68krcycles_done;
	346	if (m68k_cycles < 200)
	347	return;
	348
	349	if (osh2->state & SH2_IDLE_STATES) {
	350	osh2->m68krcycles_done = m68k_target;
	351	return;
	352	}
	353
	354	elprintf(EL_32X, "%csh2 sync to %u %d",
	355	osh2->is_slave?'s':'m', m68k_target, m68k_cycles);
	356
	357	run_sh2(osh2, m68k_cycles);
	358
	359	// there might be new event to schedule current sh2 to
	360	if (event_time_next) {
	361	left_to_event = event_time_next - m68k_target;
	362	left_to_event *= 3;
	363	if (sh2_cycles_left(sh2) > left_to_event) {
	364	if (left_to_event < 1)
	365	left_to_event = 1;
	366	sh2_end_run(sh2, left_to_event);
	367	}
	368	}
	369	}
	370
	371	#define sync_sh2s_normal p32x_sync_sh2s
	372	//#define sync_sh2s_lockstep p32x_sync_sh2s
	373
	374	/* most timing is in 68k clock */
	375	void sync_sh2s_normal(unsigned int m68k_target)
	376	{
	377	unsigned int now, target, timer_cycles;
	378	int cycles;
	379
	380	elprintf(EL_32X, "sh2 sync to %u", m68k_target);
	381
	382	if (!(Pico32x.regs[0] & P32XS_nRES)) {
	383	msh2.m68krcycles_done = ssh2.m68krcycles_done = m68k_target;
	384	return; // rare
	385	}
	386
	387	now = msh2.m68krcycles_done;
	388	if (CYCLES_GT(now, ssh2.m68krcycles_done))
	389	now = ssh2.m68krcycles_done;
	390	timer_cycles = now;
	391
	392	while (CYCLES_GT(m68k_target, now))
	393	{
	394	if (event_time_next && CYCLES_GE(now, event_time_next))
	395	run_events(now);
	396
	397	target = m68k_target;
	398	if (event_time_next && CYCLES_GT(target, event_time_next))
	399	target = event_time_next;
	400
	401	while (CYCLES_GT(target, now))
	402	{
	403	elprintf(EL_32X, "sh2 exec to %u %d,%d/%d, flags %x", target,
	404	target - msh2.m68krcycles_done, target - ssh2.m68krcycles_done,
	405	m68k_target - now, Pico32x.emu_flags);
	406
	407	if (!(ssh2.state & SH2_IDLE_STATES)) {
	408	cycles = target - ssh2.m68krcycles_done;
	409	if (cycles > 0) {
	410	run_sh2(&ssh2, cycles);
	411
	412	if (event_time_next && CYCLES_GT(target, event_time_next))
	413	target = event_time_next;
	414	}
	415	}
	416
	417	if (!(msh2.state & SH2_IDLE_STATES)) {
	418	cycles = target - msh2.m68krcycles_done;
	419	if (cycles > 0) {
	420	run_sh2(&msh2, cycles);
	421
	422	if (event_time_next && CYCLES_GT(target, event_time_next))
	423	target = event_time_next;
	424	}
	425	}
	426
	427	now = target;
	428	if (!(msh2.state & SH2_IDLE_STATES)) {
	429	if (CYCLES_GT(now, msh2.m68krcycles_done))
	430	now = msh2.m68krcycles_done;
	431	}
	432	if (!(ssh2.state & SH2_IDLE_STATES)) {
	433	if (CYCLES_GT(now, ssh2.m68krcycles_done))
	434	now = ssh2.m68krcycles_done;
	435	}
	436	}
	437
	438	p32x_timers_do(now - timer_cycles);
	439	timer_cycles = now;
	440	}
	441
	442	// advance idle CPUs
	443	if (msh2.state & SH2_IDLE_STATES) {
	444	if (CYCLES_GT(m68k_target, msh2.m68krcycles_done))
	445	msh2.m68krcycles_done = m68k_target;
	446	}
	447	if (ssh2.state & SH2_IDLE_STATES) {
	448	if (CYCLES_GT(m68k_target, ssh2.m68krcycles_done))
	449	ssh2.m68krcycles_done = m68k_target;
	450	}
	451	}
	452
	453	#define STEP_68K 24
	454
	455	void sync_sh2s_lockstep(unsigned int m68k_target)
	456	{
	457	unsigned int mcycles;
	458
	459	mcycles = msh2.m68krcycles_done;
	460	if (ssh2.m68krcycles_done < mcycles)
	461	mcycles = ssh2.m68krcycles_done;
	462
	463	while (mcycles < m68k_target) {
	464	mcycles += STEP_68K;
	465	sync_sh2s_normal(mcycles);
	466	}
	467	}
	468
	469	#define CPUS_RUN(m68k_cycles,s68k_cycles) do { \
	470	SekRunM68k(m68k_cycles); \
	471	if (Pico32x.emu_flags & (P32XF_68KCPOLL\|P32XF_68KVPOLL)) \
	472	p32x_sync_sh2s(SekCyclesDoneT2()); \
	473	} while (0)
	474
	475	#define PICO_32X
	476	#include "../pico_cmn.c"
	477
	478	void PicoFrame32x(void)
	479	{
	480	Pico32x.vdp_regs[0x0a/2] &= ~P32XV_VBLK; // get out of vblank
	481	if ((Pico32x.vdp_regs[0] & P32XV_Mx) != 0) // no forced blanking
	482	Pico32x.vdp_regs[0x0a/2] &= ~P32XV_PEN; // no palette access
	483
	484	p32x_sh2_poll_event(&msh2, SH2_STATE_VPOLL, 0);
	485	p32x_sh2_poll_event(&ssh2, SH2_STATE_VPOLL, 0);
	486
	487	PicoFrameStart();
	488	PicoFrameHints();
	489	sh2_drc_frame();
	490
	491	elprintf(EL_32X, "poll: %02x %02x %02x",
	492	Pico32x.emu_flags & 3, msh2.state, ssh2.state);
	493	}
	494
	495	// calculate multipliers against 68k clock (7670442)
	496	// normally * 3, but effectively slower due to high latencies everywhere
	497	// however using something lower breaks MK2 animations
	498	void Pico32xSetClocks(int msh2_hz, int ssh2_hz)
	499	{
	500	float m68k_clk = (float)(OSC_NTSC / 7);
	501	if (msh2_hz > 0) {
	502	msh2.mult_m68k_to_sh2 = (int)((float)msh2_hz * (1 << CYCLE_MULT_SHIFT) / m68k_clk);
	503	msh2.mult_sh2_to_m68k = (int)(m68k_clk * (1 << CYCLE_MULT_SHIFT) / (float)msh2_hz);
	504	}
	505	if (ssh2_hz > 0) {
	506	ssh2.mult_m68k_to_sh2 = (int)((float)ssh2_hz * (1 << CYCLE_MULT_SHIFT) / m68k_clk);
	507	ssh2.mult_sh2_to_m68k = (int)(m68k_clk * (1 << CYCLE_MULT_SHIFT) / (float)ssh2_hz);
	508	}
	509	}
	510
	511	void Pico32xStateLoaded(int is_early)
	512	{
	513	if (is_early) {
	514	Pico32xMemStateLoaded();
	515	return;
	516	}
	517
	518	SekCycleCnt = 0;
	519	sh2s[0].m68krcycles_done = sh2s[1].m68krcycles_done = SekCycleCntT;
	520	p32x_update_irls(NULL);
	521	p32x_pwm_state_loaded();
	522	run_events(SekCycleCntT);
	523	}
	524
	525	// vim:shiftwidth=2:ts=2:expandtab