void ContinueExecution()
{
static BOOL pageflipping = 0; //?
const double fUsecPerSec = 1.e6;
#if 1
const UINT nExecutionPeriodUsec = 1000; // 1.0ms
// const UINT nExecutionPeriodUsec = 100; // 0.1ms
const double fExecutionPeriodClks = g_fCurrentCLK6502 * ((double)nExecutionPeriodUsec / fUsecPerSec);
#else
const double fExecutionPeriodClks = 1800.0;
const UINT nExecutionPeriodUsec = (UINT) (fUsecPerSec * (fExecutionPeriodClks / g_fCurrentCLK6502));
#endif
//
bool bScrollLock_FullSpeed = g_uScrollLockToggle
? g_bScrollLock_FullSpeed
: (GetKeyState(VK_SCROLL) < 0);
g_bFullSpeed = ( (g_dwSpeed == SPEED_MAX) ||
bScrollLock_FullSpeed ||
(DiskIsSpinning() && enhancedisk && !Spkr_IsActive() && !MB_IsActive()) );
if(g_bFullSpeed)
{
// Don't call Spkr_Mute() - will get speaker clicks
MB_Mute();
SysClk_StopTimer();
g_nCpuCyclesFeedback = 0; // For the case when this is a big -ve number
}
else
{
// Don't call Spkr_Demute()
MB_Demute();
SysClk_StartTimerUsec(nExecutionPeriodUsec);
}
//
int nCyclesToExecute = (int) fExecutionPeriodClks + g_nCpuCyclesFeedback;
if(nCyclesToExecute < 0)
nCyclesToExecute = 0;
DWORD dwExecutedCycles = CpuExecute(nCyclesToExecute);
g_dwCyclesThisFrame += dwExecutedCycles;
//
cyclenum = dwExecutedCycles;
DiskUpdatePosition(dwExecutedCycles);
JoyUpdatePosition();
VideoUpdateVbl(g_dwCyclesThisFrame);
SpkrUpdate(cyclenum);
sg_SSC.CommUpdate(cyclenum);
PrintUpdate(cyclenum);
//
const DWORD CLKS_PER_MS = (DWORD)g_fCurrentCLK6502 / 1000;
emulmsec_frac += dwExecutedCycles;
if(emulmsec_frac > CLKS_PER_MS)
{
emulmsec += emulmsec_frac / CLKS_PER_MS;
emulmsec_frac %= CLKS_PER_MS;
}
//
// DETERMINE WHETHER THE SCREEN WAS UPDATED, THE DISK WAS SPINNING,
// OR THE KEYBOARD I/O PORTS WERE BEING EXCESSIVELY QUERIED THIS CLOCKTICK
VideoCheckPage(0);
BOOL screenupdated = VideoHasRefreshed();
BOOL systemidle = 0; //(KeybGetNumQueries() > (clockgran << 2)); // && (!ranfinegrain); // TO DO
if(screenupdated)
pageflipping = 3;
//
if(g_dwCyclesThisFrame >= dwClksPerFrame)
{
g_dwCyclesThisFrame -= dwClksPerFrame;
if(g_nAppMode != MODE_LOGO)
{
VideoUpdateFlash();
static BOOL anyupdates = 0;
static DWORD lastcycles = 0;
static BOOL lastupdates[2] = {0,0};
anyupdates |= screenupdated;
//
lastcycles = cumulativecycles;
if ((!anyupdates) && (!lastupdates[0]) && (!lastupdates[1]) && VideoApparentlyDirty())
{
VideoCheckPage(1);
static DWORD lasttime = 0;
DWORD currtime = GetTickCount();
if ((!g_bFullSpeed) ||
(currtime-lasttime >= (DWORD)((graphicsmode || !systemidle) ? 100 : 25)))
{
VideoRefreshScreen();
lasttime = currtime;
}
screenupdated = 1;
}
lastupdates[1] = lastupdates[0];
lastupdates[0] = anyupdates;
anyupdates = 0;
if (pageflipping)
pageflipping--;
}
MB_EndOfVideoFrame();
}
//
if(!g_bFullSpeed)
{
SysClk_WaitTimer();
#if DBG_CALC_FREQ
if(g_nPerfFreq)
{
QueryPerformanceCounter((LARGE_INTEGER*)&nTime1);
LONGLONG nTimeDiff = nTime1 - nTime0;
double fTime = (double)nTimeDiff / (double)(LONGLONG)g_nPerfFreq;
g_fDbg[g_nIdx] = fTime;
g_nIdx = (g_nIdx+1) & (MAX_CNT-1);
g_fMeanPeriod = 0.0;
for(UINT n=0; n<MAX_CNT; n++)
g_fMeanPeriod += g_fDbg[n];
g_fMeanPeriod /= (double)MAX_CNT;
g_fMeanFreq = 1.0 / g_fMeanPeriod;
}
#endif
}
}
void ContinueExecution(void)
{
const double fUsecPerSec = 1.e6;
#if 1
const UINT nExecutionPeriodUsec = 1000; // 1.0ms
// const UINT nExecutionPeriodUsec = 100; // 0.1ms
const double fExecutionPeriodClks = g_fCurrentCLK6502 * ((double)nExecutionPeriodUsec / fUsecPerSec);
#else
const double fExecutionPeriodClks = 1800.0;
const UINT nExecutionPeriodUsec = (UINT) (fUsecPerSec * (fExecutionPeriodClks / g_fCurrentCLK6502));
#endif
//
bool bScrollLock_FullSpeed = sg_PropertySheet.GetScrollLockToggle()
? g_bScrollLock_FullSpeed
: (GetKeyState(VK_SCROLL) < 0);
g_bFullSpeed = ( (g_dwSpeed == SPEED_MAX) ||
bScrollLock_FullSpeed ||
(DiskIsSpinning() && enhancedisk && !Spkr_IsActive() && !MB_IsActive()) );
if (g_bFullSpeed)
{
// Don't call Spkr_Mute() - will get speaker clicks
MB_Mute();
SysClk_StopTimer();
#ifdef USE_SPEECH_API
g_Speech.Reset(); // TODO: Put this on a timer (in emulated cycles)... otherwise CATALOG cuts out
#endif
g_nCpuCyclesFeedback = 0; // For the case when this is a big -ve number
// Switch to normal priority so that APPLEWIN process doesn't hog machine!
//. EG: No disk in Drive-1, and boot Apple: Windows will start to crawl!
SetPriorityNormal();
}
else
{
// Don't call Spkr_Demute()
MB_Demute();
SysClk_StartTimerUsec(nExecutionPeriodUsec);
// Switch to higher priority, eg. for audio (BUG #015394)
SetPriorityAboveNormal();
}
//
int nCyclesToExecute = (int) fExecutionPeriodClks + g_nCpuCyclesFeedback;
if (nCyclesToExecute < 0)
nCyclesToExecute = 0;
DWORD dwExecutedCycles = CpuExecute(nCyclesToExecute);
g_dwCyclesThisFrame += dwExecutedCycles;
//
cyclenum = dwExecutedCycles;
DiskUpdatePosition(dwExecutedCycles);
JoyUpdatePosition();
SpkrUpdate(cyclenum);
sg_SSC.CommUpdate(cyclenum);
PrintUpdate(cyclenum);
//
const DWORD CLKS_PER_MS = (DWORD)g_fCurrentCLK6502 / 1000;
emulmsec_frac += dwExecutedCycles;
if (emulmsec_frac > CLKS_PER_MS)
{
emulmsec += emulmsec_frac / CLKS_PER_MS;
emulmsec_frac %= CLKS_PER_MS;
}
// DETERMINE WHETHER THE SCREEN WAS UPDATED THIS CLOCKTICK
static BOOL anyupdates = 0;
VideoCheckPage(0); // force=0
anyupdates |= VideoHasRefreshed(); // Only called from here. Returns & clears 'hasrefreshed' flag
//
if (g_dwCyclesThisFrame >= dwClksPerFrame)
{
g_dwCyclesThisFrame -= dwClksPerFrame;
VideoUpdateFlash();
static BOOL lastupdates[2] = {0,0};
if (!anyupdates && !lastupdates[0] && !lastupdates[1] && VideoApparentlyDirty())
{
VideoCheckPage(1); // force=1
static DWORD lasttime = 0;
DWORD currtime = GetTickCount();
if ((!g_bFullSpeed) ||
(currtime-lasttime >= (DWORD)(g_bGraphicsMode ? 100 : 25)))
{
VideoRefreshScreen();
lasttime = currtime;
}
}
lastupdates[1] = lastupdates[0];
lastupdates[0] = anyupdates;
anyupdates = 0;
MB_EndOfVideoFrame();
}
//
if (!g_bFullSpeed)
{
SysClk_WaitTimer();
#if DBG_CALC_FREQ
if (g_nPerfFreq)
{
QueryPerformanceCounter((LARGE_INTEGER*)&nTime1);
LONGLONG nTimeDiff = nTime1 - nTime0;
double fTime = (double)nTimeDiff / (double)(LONGLONG)g_nPerfFreq;
g_fDbg[g_nIdx] = fTime;
g_nIdx = (g_nIdx+1) & (MAX_CNT-1);
g_fMeanPeriod = 0.0;
for(UINT n=0; n<MAX_CNT; n++)
g_fMeanPeriod += g_fDbg[n];
g_fMeanPeriod /= (double)MAX_CNT;
g_fMeanFreq = 1.0 / g_fMeanPeriod;
}
#endif
}
}
void ContinueExecution()
{
static BOOL pageflipping = 0; //?
const double fUsecPerSec = 1.e6;
#if 1
const UINT nExecutionPeriodUsec = 1000; // 1.0ms
// const UINT nExecutionPeriodUsec = 100; // 0.1ms
const double fExecutionPeriodClks = g_fCurrentCLK6502 * ((double)nExecutionPeriodUsec / fUsecPerSec);
#else
const double fExecutionPeriodClks = 1800.0;
const UINT nExecutionPeriodUsec = (UINT) (fUsecPerSec * (fExecutionPeriodClks / g_fCurrentCLK6502));
#endif
//
bool bScrollLock_FullSpeed = g_uScrollLockToggle
? g_bScrollLock_FullSpeed
: (GetKeyState(VK_SCROLL) < 0);
g_bFullSpeed = ( (g_dwSpeed == SPEED_MAX) ||
bScrollLock_FullSpeed ||
(DiskIsSpinning() && enhancedisk && !Spkr_IsActive() && !MB_IsActive()) );
if(g_bFullSpeed)
{
// Don't call Spkr_Mute() - will get speaker clicks
MB_Mute();
SysClk_StopTimer();
#ifdef USE_SPEECH_API
g_Speech.Reset(); // TODO: Put this on a timer (in emulated cycles)... otherwise CATALOG cuts out
#endif
g_nCpuCyclesFeedback = 0; // For the case when this is a big -ve number
// Switch to normal priority so that APPLEWIN process doesn't hog machine!
//. EG: No disk in Drive-1, and boot Apple: Windows will start to crawl!
SetPriorityNormal();
}
else
{
// Don't call Spkr_Demute()
MB_Demute();
SysClk_StartTimerUsec(nExecutionPeriodUsec);
// Switch to higher priority, eg. for audio (BUG #015394)
SetPriorityAboveNormal();
}
#ifdef WS_VIDEO
wsVideoNewDirtyRect.ulx = FRAMEBUFFER_W;
wsVideoNewDirtyRect.uly = FRAMEBUFFER_H;
wsVideoNewDirtyRect.lrx = 0;
wsVideoNewDirtyRect.lry = 0;
#endif
//
int nCyclesToExecute = (int) fExecutionPeriodClks + g_nCpuCyclesFeedback;
if(nCyclesToExecute < 0)
nCyclesToExecute = 0;
DWORD dwExecutedCycles = CpuExecute(nCyclesToExecute);
g_dwCyclesThisFrame += dwExecutedCycles;
//
cyclenum = dwExecutedCycles;
DiskUpdatePosition(dwExecutedCycles);
JoyUpdatePosition();
SpkrUpdate(cyclenum);
sg_SSC.CommUpdate(cyclenum);
PrintUpdate(cyclenum);
//
const DWORD CLKS_PER_MS = (DWORD)g_fCurrentCLK6502 / 1000;
emulmsec_frac += dwExecutedCycles;
if(emulmsec_frac > CLKS_PER_MS)
{
emulmsec += emulmsec_frac / CLKS_PER_MS;
emulmsec_frac %= CLKS_PER_MS;
}
#ifdef WS_VIDEO
if (wsVideoNewDirtyRect.lrx > wsVideoNewDirtyRect.ulx)
{
if (wsVideoNewDirtyRect.ulx < wsVideoAllDirtyRect.ulx) wsVideoAllDirtyRect.ulx = wsVideoNewDirtyRect.ulx;
if (wsVideoNewDirtyRect.uly < wsVideoAllDirtyRect.uly) wsVideoAllDirtyRect.uly = wsVideoNewDirtyRect.uly;
if (wsVideoNewDirtyRect.lrx > wsVideoAllDirtyRect.lrx) wsVideoAllDirtyRect.lrx = wsVideoNewDirtyRect.lrx;
if (wsVideoNewDirtyRect.lry > wsVideoAllDirtyRect.lry) wsVideoAllDirtyRect.lry = wsVideoNewDirtyRect.lry;
}
if(g_dwCyclesThisFrame >= dwClksPerFrame)
{
g_dwCyclesThisFrame -= dwClksPerFrame;
wsVideoRefresh();
}
#else
//
// DETERMINE WHETHER THE SCREEN WAS UPDATED, THE DISK WAS SPINNING,
// OR THE KEYBOARD I/O PORTS WERE BEING EXCESSIVELY QUERIED THIS CLOCKTICK
VideoCheckPage(0);
BOOL screenupdated = VideoHasRefreshed();
BOOL systemidle = 0; //(KeybGetNumQueries() > (clockgran << 2)); // && (!ranfinegrain); // TO DO
if(screenupdated)
pageflipping = 3;
//
if(g_dwCyclesThisFrame >= dwClksPerFrame)
{
g_dwCyclesThisFrame -= dwClksPerFrame;
if(g_nAppMode != MODE_LOGO)
{
VideoUpdateFlash();
static BOOL anyupdates = 0;
static DWORD lastcycles = 0;
static BOOL lastupdates[2] = {0,0};
anyupdates |= screenupdated;
//
lastcycles = cumulativecycles;
if ((!anyupdates) && (!lastupdates[0]) && (!lastupdates[1]) && VideoApparentlyDirty())
{
VideoCheckPage(1);
static DWORD lasttime = 0;
DWORD currtime = GetTickCount();
if ((!g_bFullSpeed) ||
(currtime-lasttime >= (DWORD)((g_bGraphicsMode || !systemidle) ? 100 : 25)))
{
VideoRefreshScreen();
lasttime = currtime;
}
screenupdated = 1;
}
lastupdates[1] = lastupdates[0];
lastupdates[0] = anyupdates;
anyupdates = 0;
if (pageflipping)
pageflipping--;
}
MB_EndOfVideoFrame();
}
//
#endif // ifndef WS_VIDEO
if(!g_bFullSpeed)
{
SysClk_WaitTimer();
#if DBG_CALC_FREQ
if(g_nPerfFreq)
{
QueryPerformanceCounter((LARGE_INTEGER*)&nTime1);
LONGLONG nTimeDiff = nTime1 - nTime0;
double fTime = (double)nTimeDiff / (double)(LONGLONG)g_nPerfFreq;
g_fDbg[g_nIdx] = fTime;
g_nIdx = (g_nIdx+1) & (MAX_CNT-1);
g_fMeanPeriod = 0.0;
for(UINT n=0; n<MAX_CNT; n++)
g_fMeanPeriod += g_fDbg[n];
g_fMeanPeriod /= (double)MAX_CNT;
g_fMeanFreq = 1.0 / g_fMeanPeriod;
}
#endif
}
}
static void *cpu_thread(void *dummyptr) {
assert(pthread_self() == cpu_thread_id);
LOG("cpu_thread : initialized...");
struct timespec deltat;
#if !MOBILE_DEVICE
struct timespec disk_motor_time;
#endif
struct timespec t0; // the target timer
struct timespec ti, tj; // actual time samples
bool negative = false;
long drift_adj_nsecs = 0; // generic drift adjustment between target and actual
int debugging_cycles0 = 0;
int debugging_cycles = 0;
#if DEBUG_TIMING
unsigned long dbg_ticks = 0;
int speaker_neg_feedback = 0;
int speaker_pos_feedback = 0;
unsigned int dbg_cycles_executed = 0;
#endif
do
{
#ifdef AUDIO_ENABLED
LOG("CPUTHREAD %lu LOCKING FOR MAYBE INITIALIZING AUDIO ...", cpu_thread_id);
pthread_mutex_lock(&interface_mutex);
if (emul_reinitialize_audio) {
emul_reinitialize_audio = false;
speaker_destroy();
MB_Destroy();
audio_shutdown();
audio_init();
speaker_init();
MB_Initialize();
}
pthread_mutex_unlock(&interface_mutex);
LOG("UNLOCKING FOR MAYBE INITIALIZING AUDIO ...");
#endif
if (emul_reinitialize) {
reinitialize();
}
LOG("cpu_thread : begin main loop ...");
clock_gettime(CLOCK_MONOTONIC, &t0);
do {
SCOPE_TRACE_CPU("CPU mainloop");
// -LOCK----------------------------------------------------------------------------------------- SAMPLE ti
#ifdef AUDIO_ENABLED
if (UNLIKELY(emul_pause_audio)) {
emul_pause_audio = false;
audio_pause();
}
#endif
pthread_mutex_lock(&interface_mutex);
#ifdef AUDIO_ENABLED
if (UNLIKELY(emul_resume_audio)) {
emul_resume_audio = false;
audio_resume();
}
#endif
clock_gettime(CLOCK_MONOTONIC, &ti);
deltat = timespec_diff(t0, ti, &negative);
if (deltat.tv_sec)
{
if (!is_fullspeed) {
TIMING_LOG("NOTE : serious divergence from target time ...");
}
t0 = ti;
deltat = timespec_diff(t0, ti, &negative);
}
t0 = timespec_add(t0, EXECUTION_PERIOD_NSECS); // expected interval
drift_adj_nsecs = negative ? ~deltat.tv_nsec : deltat.tv_nsec;
// set up increment & decrement counters
cpu65_cycles_to_execute = (cycles_persec_target / 1000); // cycles_persec_target * EXECUTION_PERIOD_NSECS / NANOSECONDS_PER_SECOND
if (!is_fullspeed) {
cpu65_cycles_to_execute += cycles_speaker_feedback;
}
if (cpu65_cycles_to_execute < 0)
{
cpu65_cycles_to_execute = 0;
}
#ifdef AUDIO_ENABLED
MB_StartOfCpuExecute();
#endif
if (is_debugging) {
debugging_cycles0 = cpu65_cycles_to_execute;
debugging_cycles = cpu65_cycles_to_execute;
}
do {
if (is_debugging) {
cpu65_cycles_to_execute = 1;
}
cpu65_cycle_count = 0;
cycles_checkpoint_count = 0;
cpu65_run(); // run emulation for cpu65_cycles_to_execute cycles ...
if (is_debugging) {
debugging_cycles -= cpu65_cycle_count;
if (c_debugger_should_break() || (debugging_cycles <= 0)) {
int err = 0;
if ((err = pthread_cond_signal(&dbg_thread_cond))) {
ERRLOG("pthread_cond_signal : %d", err);
}
if ((err = pthread_cond_wait(&cpu_thread_cond, &interface_mutex))) {
ERRLOG("pthread_cond_wait : %d", err);
}
if (debugging_cycles <= 0) {
cpu65_cycle_count = debugging_cycles0 - debugging_cycles/*<=0*/;
break;
}
}
}
if (emul_reinitialize) {
reinitialize();
}
} while (is_debugging);
#if DEBUG_TIMING
dbg_cycles_executed += cpu65_cycle_count;
#endif
g_dwCyclesThisFrame += cpu65_cycle_count;
#ifdef AUDIO_ENABLED
MB_UpdateCycles(); // update 6522s (NOTE: do this before updating cycles_count_total)
#endif
timing_checkpoint_cycles();
#if CPU_TRACING
cpu65_trace_checkpoint();
#endif
#ifdef AUDIO_ENABLED
speaker_flush(); // play audio
#endif
if (g_dwCyclesThisFrame >= dwClksPerFrame) {
g_dwCyclesThisFrame -= dwClksPerFrame;
#ifdef AUDIO_ENABLED
MB_EndOfVideoFrame();
#endif
}
clock_gettime(CLOCK_MONOTONIC, &tj);
pthread_mutex_unlock(&interface_mutex);
// -UNLOCK--------------------------------------------------------------------------------------- SAMPLE tj
#if !MOBILE_DEVICE
if (timing_shouldAutoAdjustSpeed()) {
disk_motor_time = timespec_diff(disk6.motor_time, tj, &negative);
assert(!negative);
if (!is_fullspeed &&
#ifdef AUDIO_ENABLED
!speaker_isActive() &&
#endif
!video_isDirty() && (!disk6.motor_off && (disk_motor_time.tv_sec || disk_motor_time.tv_nsec > DISK_MOTOR_QUIET_NSECS)) )
{
TIMING_LOG("auto switching to full speed");
_timing_initialize(CPU_SCALE_FASTEST);
}
}
#endif
if (!is_fullspeed) {
deltat = timespec_diff(ti, tj, &negative);
assert(!negative);
long sleepfor = 0;
if (!deltat.tv_sec)
{
sleepfor = EXECUTION_PERIOD_NSECS - drift_adj_nsecs - deltat.tv_nsec;
}
if (sleepfor <= 0)
{
// lagging ...
static time_t throttle_warning = 0;
if (t0.tv_sec - throttle_warning > 0)
{
TIMING_LOG("not sleeping to catch up ... %ld . %ld", deltat.tv_sec, deltat.tv_nsec);
throttle_warning = t0.tv_sec;
}
}
else
{
deltat.tv_sec = 0;
deltat.tv_nsec = sleepfor;
TRACE_CPU_BEGIN("sleep");
nanosleep(&deltat, NULL);
TRACE_CPU_END();
}
#if DEBUG_TIMING
// collect timing statistics
if (speaker_neg_feedback > cycles_speaker_feedback)
{
speaker_neg_feedback = cycles_speaker_feedback;
}
if (speaker_pos_feedback < cycles_speaker_feedback)
{
speaker_pos_feedback = cycles_speaker_feedback;
}
dbg_ticks += EXECUTION_PERIOD_NSECS;
if ((dbg_ticks % NANOSECONDS_PER_SECOND) == 0)
{
TIMING_LOG("tick:(%ld.%ld) real:(%ld.%ld) cycles exe: %d ... speaker feedback: %d/%d", t0.tv_sec, t0.tv_nsec, ti.tv_sec, ti.tv_nsec, dbg_cycles_executed, speaker_neg_feedback, speaker_pos_feedback);
dbg_cycles_executed = 0;
dbg_ticks = 0;
speaker_neg_feedback = 0;
speaker_pos_feedback = 0;
}
#endif
}
#if !MOBILE_DEVICE
if (timing_shouldAutoAdjustSpeed()) {
if (is_fullspeed && (
#ifdef AUDIO_ENABLED
speaker_isActive() ||
#endif
video_isDirty() || (disk6.motor_off && (disk_motor_time.tv_sec || disk_motor_time.tv_nsec > DISK_MOTOR_QUIET_NSECS))) )
{
double speed = alt_speed_enabled ? cpu_altscale_factor : cpu_scale_factor;
if (speed < CPU_SCALE_FASTEST) {
TIMING_LOG("auto switching to configured speed");
_timing_initialize(speed);
}
}
}
#endif
if (UNLIKELY(emul_reinitialize)) {
break;
}
#ifdef AUDIO_ENABLED
if (UNLIKELY(emul_reinitialize_audio)) {
break;
}
#endif
if (UNLIKELY(cpu_shutting_down)) {
break;
}
} while (1);
if (UNLIKELY(cpu_shutting_down)) {
break;
}
} while (1);
#ifdef AUDIO_ENABLED
speaker_destroy();
MB_Destroy();
audio_shutdown();
#endif
return NULL;
}
