*/
#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) {
}
}
-// if !nested_call, must sync CPUs before calling this
-void p32x_update_irls(int nested_call)
+// MUST specify active_sh2 when called from sh2 memhandlers
+void p32x_update_irls(SH2 *active_sh2, int m68k_cycles)
{
int irqs, mlvl = 0, slvl = 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))
slvl++;
slvl *= 2;
- mrun = sh2_irl_irq(&msh2, mlvl, nested_call);
- srun = sh2_irl_irq(&ssh2, slvl, nested_call);
- p32x_poll_event(mrun | (srun << 1), 0);
+ mrun = sh2_irl_irq(&msh2, mlvl, active_sh2 == &msh2);
+ if (mrun) {
+ p32x_sh2_poll_event(&msh2, SH2_IDLE_STATES, m68k_cycles);
+ if (active_sh2 == &msh2)
+ sh2_end_run(active_sh2, 1);
+ }
+
+ srun = sh2_irl_irq(&ssh2, slvl, active_sh2 == &ssh2);
+ if (srun) {
+ p32x_sh2_poll_event(&ssh2, SH2_IDLE_STATES, m68k_cycles);
+ if (active_sh2 == &ssh2)
+ sh2_end_run(active_sh2, 1);
+ }
+
elprintf(EL_32X, "update_irls: m %d/%d, s %d/%d", mlvl, mrun, slvl, srun);
}
// TODO: OOM handling
PicoAHW |= PAHW_32X;
- sh2_init(&msh2, 0);
+ sh2_init(&msh2, 0, &ssh2);
msh2.irq_callback = sh2_irq_cb;
- sh2_init(&ssh2, 1);
+ sh2_init(&ssh2, 1, &msh2);
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();
sh2_reset(&msh2);
sh2_reset(&ssh2);
+ sh2_peripheral_reset(&msh2);
+ sh2_peripheral_reset(&ssh2);
// if we don't have BIOS set, perform it's work here.
// MSH2
{
if (PicoAHW & PAHW_32X) {
Pico32x.sh2irqs |= P32XI_VRES;
- p32x_update_irls(0);
- p32x_poll_event(3, 0);
+ p32x_update_irls(NULL, SekCyclesDoneT2());
+ 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();
}
}
}
Pico32x.sh2irqs |= P32XI_VINT;
- p32x_update_irls(0);
- p32x_poll_event(3, 1);
+ p32x_update_irls(NULL, SekCyclesDoneT2());
+ p32x_sh2_poll_event(&msh2, SH2_STATE_VPOLL, 0);
+ p32x_sh2_poll_event(&ssh2, SH2_STATE_VPOLL, 0);
}
-/* events */
-static void pwm_irq_event(unsigned int now)
-{
- Pico32x.emu_flags &= ~P32XF_PWM_PEND;
- p32x_pwm_schedule(now);
-
- Pico32x.sh2irqs |= P32XI_PWM;
- p32x_update_irls(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_poll_event(3, 1);
+ 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] = pwm_irq_event,
+ [P32X_EVENT_PWM] = p32x_pwm_irq_event,
[P32X_EVENT_FILLEND] = fillend_event,
};
-// schedule event at some time (in m68k clocks)
-void p32x_event_schedule(enum p32x_event event, unsigned int now, int after)
+// 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 = (now + after) | 1;
+ 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 || (int)(event_time_next - now) > after)
+ 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;
+ sh2_end_run(sh2, left_to_next);
+}
+
static void run_events(unsigned int until)
{
int oldest, oldest_diff, time;
elprintf(EL_32X, "next event #%d at %u", oldest, event_time_next);
}
-// 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)
+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 = sh2->other_sh2;
+ 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
void sync_sh2s_normal(unsigned int m68k_target)
{
unsigned int now, target, timer_cycles;
- int cycles, done;
+ int cycles;
elprintf(EL_32X, "sh2 sync to %u", m68k_target);
- if (!(Pico32x.regs[0] & P32XS_nRES))
+ 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))
target - msh2.m68krcycles_done, target - ssh2.m68krcycles_done,
m68k_target - now, Pico32x.emu_flags);
- if (Pico32x.emu_flags & (P32XF_SSH2POLL|P32XF_SSH2VPOLL)) {
- ssh2.m68krcycles_done = target;
- }
- else {
+ if (!(ssh2.state & SH2_IDLE_STATES)) {
cycles = target - ssh2.m68krcycles_done;
if (cycles > 0) {
- done = sh2_execute(&ssh2, C_M68K_TO_SH2(ssh2, cycles));
- ssh2.m68krcycles_done += C_SH2_TO_M68K(ssh2, done);
+ run_sh2(&ssh2, cycles);
if (event_time_next && CYCLES_GT(target, event_time_next))
target = event_time_next;
}
}
- if (Pico32x.emu_flags & (P32XF_MSH2POLL|P32XF_MSH2VPOLL)) {
- msh2.m68krcycles_done = target;
- }
- else {
+ if (!(msh2.state & SH2_IDLE_STATES)) {
cycles = target - msh2.m68krcycles_done;
if (cycles > 0) {
- done = sh2_execute(&msh2, C_M68K_TO_SH2(msh2, cycles));
- msh2.m68krcycles_done += C_SH2_TO_M68K(msh2, done);
+ run_sh2(&msh2, cycles);
if (event_time_next && CYCLES_GT(target, event_time_next))
target = event_time_next;
}
}
- now = msh2.m68krcycles_done;
- if (CYCLES_GT(now, ssh2.m68krcycles_done))
- now = ssh2.m68krcycles_done;
+ 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
#define CPUS_RUN(m68k_cycles,s68k_cycles) do { \
SekRunM68k(m68k_cycles); \
- if (Pico32x.emu_flags & P32XF_68KPOLL) \
- p32x_sync_sh2s(SekCycleCntT + SekCycleCnt); \
+ if (Pico32x.emu_flags & (P32XF_68KCPOLL|P32XF_68KVPOLL)) \
+ p32x_sync_sh2s(SekCyclesDoneT2()); \
} while (0)
#define PICO_32X
if ((Pico32x.vdp_regs[0] & P32XV_Mx) != 0) // no forced blanking
Pico32x.vdp_regs[0x0a/2] &= ~P32XV_PEN; // no palette access
- p32x_poll_event(3, 1);
+ p32x_sh2_poll_event(&msh2, SH2_STATE_VPOLL, 0);
+ p32x_sh2_poll_event(&ssh2, SH2_STATE_VPOLL, 0);
PicoFrameStart();
PicoFrameHints();
- elprintf(EL_32X, "poll: %02x", Pico32x.emu_flags);
+ sh2_drc_frame();
+
+ elprintf(EL_32X, "poll: %02x %02x %02x",
+ Pico32x.emu_flags & 3, msh2.state, ssh2.state);
}
// calculate multipliers against 68k clock (7670442)
}
}
+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, SekCycleCntT);
+ p32x_pwm_state_loaded();
+ run_events(SekCycleCntT);
+}
+
// vim:shiftwidth=2:ts=2:expandtab