bool QueueRender(TA_context* ctx)
{
verify(ctx != 0);
if (FrameSkipping && frameskip) {
frameskip=1-frameskip;
tactx_Recycle(ctx);
fskip++;
return false;
}
if (rqueue)
{
tactx_Recycle(ctx);
fskip++;
return false;
}
frame_finished.Reset();
#ifndef TARGET_NO_THREADS
slock_lock(mtx_rqueue);
#endif
TA_context* old = rqueue;
rqueue=ctx;
#ifndef TARGET_NO_THREADS
slock_unlock(mtx_rqueue);
#endif
verify(!old);
return true;
}
//Return read buffer , 0 if none
bool asRingRead(u8* dst,u32 sz)
{
if (sz==0)
sz=BufferSampleCount;
if (asRingUsedCount()>=sz)
{
const u32 ptr=ReadPtr;
if ((ReadPtr+sz)<=RingBufferSampleCount)
{
//R ... W, just copy the sz :)
memcpy(dst,&RingBuffer[ptr],sz*sizeof(s16)*2);
}
else
{
//...W R...., just copy the sz :)
const u32 szhi=RingBufferSampleCount-ptr;
const u32 szlow=sz-szhi;
memcpy(dst,&RingBuffer[ptr],szhi*sizeof(s16)*2);
dst+=szhi*sizeof(s16)*2;
memcpy(dst,&RingBuffer[0],szlow*sizeof(s16)*2);
}
ReadPtr=(ptr+sz)%RingBufferSampleCount;
speed_limit.Set();
return true;
}
else
{
//printf("ONLY %d used, rd=%d, wt=%d\n",asRingUsedCount(),ReadPtr,WritePtr);
return false;
}
}
bool QueueRender(TA_context* ctx)
{
verify(ctx != 0);
if (FrameSkipping && frameskip) {
frameskip=1-frameskip;
tactx_Recycle(ctx);
fskip++;
return false;
}
//Try to limit speed to a "sane" level
//Speed is also limited via audio, but audio
//is sometimes not accurate enough (android, vista+)
u32 cycle_span = sh4_sched_now64() - last_cyces;
last_cyces = sh4_sched_now64();
double time_span = os_GetSeconds() - last_frame;
last_frame = os_GetSeconds();
bool too_fast = (cycle_span / time_span) > (SH4_MAIN_CLOCK * 1.2);
if (rqueue && too_fast && settings.pvr.SynchronousRender) {
//wait for a frame if
// we have another one queue'd and
// sh4 run at > 120% on the last slice
// and SynchronousRendering is enabled
frame_finished.Wait();
verify(!rqueue);
}
if (rqueue) {
tactx_Recycle(ctx);
fskip++;
return false;
}
frame_finished.Reset();
mtx_rqueue.Lock();
TA_context* old = rqueue;
rqueue=ctx;
mtx_rqueue.Unlock();
verify(!old);
return true;
}
void FinishRender(TA_context* ctx)
{
verify(rqueue == ctx);
mtx_rqueue.Lock();
rqueue = 0;
mtx_rqueue.Unlock();
tactx_Recycle(ctx);
frame_finished.Set();
}
void rend_end_render()
{
#if 1 //also disabled the printf, it takes quite some time ...
#if HOST_OS!=OS_WINDOWS && !(defined(_ANDROID) || defined(TARGET_PANDORA))
if (!re.state) printf("Render > Extended time slice ...\n");
#endif
#endif
if (pend_rend)
re.Wait();
}
bool rend_frame(TA_context* ctx, bool draw_osd) {
bool proc = renderer->Process(ctx);
re.Set();
bool do_swp = proc && renderer->Render();
if (do_swp && draw_osd)
renderer->DrawOSD();
return do_swp;
}
void rend_end_render()
{
#if 1 //also disabled the printf, it takes quite some time ...
#if HOST_OS!=OS_WINDOWS && !(defined(_ANDROID) || defined(TARGET_PANDORA))
//too much console spam.
//TODO: how about a counter?
//if (!re.state) printf("Render > Extended time slice ...\n");
#endif
#endif
if (pend_rend)
re.Wait();
}
void FinishRender(TA_context* ctx)
{
verify(rqueue == ctx);
#ifndef TARGET_NO_THREADS
slock_lock(mtx_rqueue);
#endif
rqueue = 0;
#ifndef TARGET_NO_THREADS
slock_unlock(mtx_rqueue);
#endif
tactx_Recycle(ctx);
frame_finished.Set();
}
void WriteSample(s16 r, s16 l)
{
#ifdef LOG_SOUND
rawout.Write(l,r);
#endif
speed_limit.Reset();
if (!asRingFreeCount())
{
if (settings.LimitFPS)
{
speed_limit.Wait();
}
else
return;
}
gen_samples++;
//while limit on, 128 samples done, there is a buffer ready to be service AND speed is too fast then wait ;p
while (settings.LimitFPS==1 && gen_samples>128 && asRingUsedCount()>BufferSampleCount && QueryPerformanceCounter(&time_now) && (time_now.QuadPart-time_last.QuadPart)<=time_diff.QuadPart )
{
__noop;
}
if (settings.LimitFPS==1 && gen_samples>128)
{
gen_samples=0;
QueryPerformanceCounter(&time_last);
}
const u32 ptr=(WritePtr+1)%RingBufferSampleCount;
RingBuffer[ptr].r=r;
RingBuffer[ptr].l=l;
WritePtr=ptr;
//if (0==(WritePtr&255))
//printf("write done %d %d \n",ReadPtr,WritePtr);
}
void os_consume(double t)
{
double cyc=t*190*1000*1000;
if ((cycl_glob+cyc)<10*1000*1000)
{
InterlockedExchangeAdd(&cycl_glob,cyc);
}
else
{
cycl_glob=10*1000*1000;
}
evt_hld.Set();
}
bool rend_single_frame()
{
//wait render start only if no frame pending
do
{
rs.Wait();
_pvrrc = DequeueRender();
}
while (!_pvrrc);
bool proc = renderer->Process(_pvrrc);
re.Set();
bool do_swp = proc && renderer->Render();
if (do_swp)
renderer->DrawOSD();
//clear up & free data ..
FinishRender(_pvrrc);
_pvrrc=0;
return do_swp;
}
void rend_start_render()
{
pend_rend = false;
bool is_rtt=(FB_W_SOF1& 0x1000000)!=0;
TA_context* ctx = tactx_Pop(CORE_CURRENT_CTX);
SetREP(ctx);
if (ctx)
{
if (!ctx->rend.Overrun)
{
//printf("REP: %.2f ms\n",render_end_pending_cycles/200000.0);
FillBGP(ctx);
ctx->rend.isRTT=is_rtt;
ctx->rend.isAutoSort = UsingAutoSort();
ctx->rend.fb_X_CLIP=FB_X_CLIP;
ctx->rend.fb_Y_CLIP=FB_Y_CLIP;
max_idx=max(max_idx,ctx->rend.idx.used());
max_vtx=max(max_vtx,ctx->rend.verts.used());
max_op=max(max_op,ctx->rend.global_param_op.used());
max_pt=max(max_pt,ctx->rend.global_param_pt.used());
max_tr=max(max_tr,ctx->rend.global_param_tr.used());
max_mvo=max(max_mvo,ctx->rend.global_param_mvo.used());
max_modt=max(max_modt,ctx->rend.modtrig.used());
#if HOST_OS==OS_WINDOWS && 0
printf("max: idx: %d, vtx: %d, op: %d, pt: %d, tr: %d, mvo: %d, modt: %d, ov: %d\n", max_idx, max_vtx, max_op, max_pt, max_tr, max_mvo, max_modt, ovrn);
#endif
if (QueueRender(ctx)) {
palette_update();
rs.Set();
pend_rend = true;
}
}
else
{
ovrn++;
printf("WARNING: Rendering context is overrun (%d), aborting frame\n",ovrn);
tactx_Recycle(ctx);
}
}
}
bool rend_single_frame()
{
//wait render start only if no frame pending
do
{
rs.Wait();
_pvrrc = DequeueRender();
}
while (!_pvrrc);
bool do_swp = rend_frame(_pvrrc, true);
//clear up & free data ..
FinishRender(_pvrrc);
_pvrrc=0;
return do_swp;
}
