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new feature: crashes

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This commit is contained in:
Jaklyy 2023-12-24 17:39:33 -05:00
parent c05c79321a
commit fb5b2c299c
2 changed files with 72 additions and 83 deletions
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4
src/GPU3D.h
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@ -344,7 +344,7 @@ public:
// and beginning reading the second scanline of a scanline pair.
static constexpr int GPU2DReadScanline = 256 * TimingFrac; // 256 | the time it takes to read a scanline.
static constexpr int GPU2DReadSLPair = 1618 * TimingFrac; // 1618 | notably the same as the scanline increment.
static constexpr int InitGPU2DTimeout = 51874 * TimingFrac; // 51618? | when it finishes reading the first scanline.
static constexpr int InitGPU2DTimeout = 52128 * TimingFrac; // 51618? 51874? | when it finishes reading the first scanline.
static constexpr int GPU2D48Scanlines = GPU2DReadSLPair * 24; // time to read 48 scanlines.
static constexpr int FrameLength = ScanlineReadInc * 263; // how long the entire frame is. TODO: Verify if we actually need this?
@ -362,6 +362,8 @@ public:
static constexpr int FinalPassLen = 500 * TimingFrac; // 496 (might technically be 500?) | the next scanline cannot begin while a scanline's final pass is in progress
// (can be interpreted as the minimum amount of cycles for the next scanline
// pair to start after the previous pair began) (related to final pass?)
static constexpr int ScanlinePushDelay = 242 * TimingFrac;
static constexpr int TimeoutIncrement = 2130 * TimingFrac;
static constexpr int ScanlineIncrementold = 1618 * TimingFrac; // 1618 | how much to regain per scanline pair
static constexpr int ScanlineIncrement = 2114 * TimingFrac; // 2114 | how much time a scanline pair "gains"
static constexpr int AbortIncrement = 12 * TimingFrac; // 12 | how much extra to regain after an aborted scanline (total 2126)

151
src/GPU3D_Soft.cpp
View File

@ -1747,18 +1747,14 @@ u16 SoftRenderer::BeginPushScanline(s32 y, s32 pixelstodraw)
{
// push the finished scanline to the appropriate frame buffers.
// if a scanline is late enough to intersect with the 2d engine read time it will be partially drawn
/*
u16 start;
if (pixelstodraw >= 256)
if (pixelstodraw >= 256) // if scheduled after or 256 cycles before a scanline read render full scanline
{
start = 0;
pixelstodraw = 256;
}
else if (pixelstodraw <= 0)
{
return 256;
}
else
else // render partial scanline
{
start = ScanlineWidth - pixelstodraw;
@ -1771,10 +1767,6 @@ u16 SoftRenderer::BeginPushScanline(s32 y, s32 pixelstodraw)
u8 bufferpos = y % 48;
memcpy(&RDBuffer[bufferpos*ScanlineWidth+start], &ColorBuffer[y*ScanlineWidth+start], 4 * pixelstodraw);
return start;
*/
u8 bufferpos = y % 48;
memcpy(&RDBuffer[bufferpos*ScanlineWidth], &ColorBuffer[y*ScanlineWidth], 4*ScanlineWidth);
return 0;
}
void SoftRenderer::ReadScanline(s32 y)
@ -1801,11 +1793,12 @@ void SoftRenderer::RenderPolygons(GPU& gpu, Polygon** polygons, int npolys)
SetupPolygon(&PolygonList[j++], polygons[i]);
}
//init internal buffer
ClearBuffers(gpu);
// init all this junk i need to keep track of
s32 rasterevents[RasterEvents_MAX];
s32 y = 0;
s32 yold;
rasterevents[RenderStart] = 0;
rasterevents[RenderFinal] = INT_MAX/2;
rasterevents[PushScanline] = INT_MAX/2;
@ -1817,14 +1810,16 @@ void SoftRenderer::RenderPolygons(GPU& gpu, Polygon** polygons, int npolys)
s32 rastertimingodd = 0;
u8 scanlinesread = 0;
u8 scanlinespushed = 0;
u8 scanlinespushed2 = 0;
s16 scanlinesrendered = 0;
s8 scanlineswaiting = 0;
s16 scanlineswaiting = 0;
u8 nextevent;
bool doa, dob, fina;
u16 leftoversa, leftoversb;
u16 leftovers;
while ((scanlinesread < 192 || scanlinespushed < 192) && (RasterTiming < FrameLength))
// until all scanlines have been pushed and read continue looping... CHECKME: unless its time for the next 3d frame should begin
while ((scanlinesread < 192 || scanlinespushed2 < 192) && (RasterTiming < FrameLength))
{
// check all events to find the earliest scheduled one
nextevent = 0;
for (s32 i = 1; i < RasterEvents_MAX; i++)
{
@ -1832,117 +1827,115 @@ void SoftRenderer::RenderPolygons(GPU& gpu, Polygon** polygons, int npolys)
nextevent = i;
}
// if all events are scheduled for after the next frame begins, ABORT
if (rasterevents[nextevent] >= FrameLength) break;
switch (nextevent)
{
case RenderStart:
// initial rendering pass (polygons, texturing, etc.) (variable cycle length)
case RenderStart:
// set current raster time to the start of the event
RasterTiming = rasterevents[RenderStart];
{
s32 rastertimingeven = 0;
s32 rastertimingodd = 0;
// scanlines are rendered in pairs of two
RenderScanline(gpu, y, j, &rastertimingeven);
RenderScanline(gpu, y+1, j, &rastertimingodd);
// a new scanline pair cannot begin until both scanlines are finished.
s32 timespent = std::max(rastertimingeven, rastertimingodd);
// a new scanline pair cannot begin until the finishing pass + push is done.
if ((RasterTiming + timespent) < (RasterTiming+FinalPassLen))
RasterTiming += FinalPassLen;
else
RasterTiming += timespent;
// 12 cycles at the end of the scanline are always used, unless the scanline got within 12 cycles of timing out. Don't ask why, it just does.
s32 timeoutdist = ScanlineTimeout - RasterTiming;
RasterTiming += std::clamp(timeoutdist, 0, 12);
}
if (ScanlineTimeout == INT_MAX/2) ScanlineTimeout = rasterevents[ScanlineRead] - FinalPassLen;
else ScanlineTimeout += TimeoutIncrement;
// schedule next scanline pair + the final pass of the latest pair
rasterevents[RenderFinal] = RasterTiming;
rasterevents[RenderStart] = RasterTiming+RastDelay;
//if (y < 190) rasterevents[RenderStart] = RasterTiming+RastDelay;
//else rasterevents[RenderStart] = INT_MAX/2;
if (y < 190) rasterevents[RenderStart] = RasterTiming+RastDelay; // scheduled 4 cycles late (presumably due to initial polygon timing shenanigans?)
else rasterevents[RenderStart] = INT_MAX/2;
break;
case RenderFinal:
rasterevents[PushScanline] = rasterevents[RenderFinal] + 4;
// final rendering pass (edge marking, anti-aliasing, fog) (fixed length of 496 (maybe 500?) cycles)
case RenderFinal:
// schedule a scanline push event
rasterevents[PushScanline] = rasterevents[RenderFinal] + ScanlinePushDelay;
// if the first scanline pair was just finished only render one scanline
if (y >= 2)
{
ScanlineFinalPass(gpu.GPU3D, y-1);
scanlinesrendered++;
doa = true;
}
else
{
doa = false;
}
// if the last scanline pair was just finished only render one scanline
if (y <= 192)
{
ScanlineFinalPass(gpu.GPU3D, y);
scanlinesrendered++;
// unschedule final pass event
rasterevents[RenderFinal] = INT_MAX/2;
}
else
else // schedule next final pass event to immediately after the current one
rasterevents[RenderFinal] += FinalPassLen;
// increment y for main rendering passes
y += 2;
break;
// push scanlines to the intermediary "frame buffer" for the 2d engine to read them. (fixed length of ??? cycles)
case PushScanline:
// reschedule events if buffer is full
if (scanlineswaiting >= 48)
{
//reschedule events if buffer is full
rasterevents[PushScanline] = rasterevents[ScanlineRead];
rasterevents[RenderStart] = /*((y >= 190) ? INT_MAX/2 :*/ rasterevents[ScanlineRead] + RastDelay;
rasterevents[RenderFinal] = /*((y >= 192) ? INT_MAX/2 :*/ rasterevents[ScanlineRead];
// dont reschedule these events if they're done.
rasterevents[RenderStart] = ((y > 190) ? INT_MAX/2 : rasterevents[ScanlineRead] + RastDelay);
rasterevents[RenderFinal] = ((y > 194) ? INT_MAX/2 : rasterevents[ScanlineRead]);
break;
}
if (doa)
{
leftoversa = BeginPushScanline(scanlinespushed, 256);//(rasterevents[ScanlineRead] - ScanlineReadSpeed) - (rasterevents[PushScanline] + FinalPassLen));
scanlinesrendered--;
if (leftoversa != 0)
{
rasterevents[PushScanlineP2] = rasterevents[ScanlineRead] - ScanlineReadSpeed; // todo: fix this
fina = true;
}
else
{
scanlineswaiting++;
scanlinespushed++;
}
}
leftovers = BeginPushScanline(scanlinespushed, (rasterevents[ScanlineRead] + (ScanlineReadInc*scanlineswaiting)) - rasterevents[PushScanline]);
scanlinesrendered--;
scanlinespushed++;
// schedule the finish push event if needed
if (leftovers != 0) rasterevents[PushScanlineP2] = rasterevents[ScanlineRead];
else
{
leftoversb = BeginPushScanline(scanlinespushed, 256);//(rasterevents[ScanlineRead] + DelayBetweenReads) - (rasterevents[PushScanline] + FinalPassLen));
scanlinesrendered--;
if (leftoversb != 0)
{
rasterevents[PushScanlineP2] = rasterevents[ScanlineRead] + DelayBetweenReads; // todo: fix this
fina = false;
}
else
{
scanlineswaiting++;
scanlinespushed++;
}
scanlineswaiting++;
scanlinespushed2++;
}
if (scanlinesrendered <= 0)
rasterevents[PushScanline] = INT_MAX/2;
else
doa = !doa;
rasterevents[PushScanline] = INT_MAX/2; // unsched event if no scanlines are waiting to be finished
break;
case ScanlineRead:
// 2d engine reading scanlines from the intermediary "framebuffer"
case ScanlineRead:
// read scanline from buffer
ReadScanline(scanlinesread);
// reschedule event for one scanline later
rasterevents[ScanlineRead] += ScanlineReadInc;
// avoid breaking seperate thread.
if constexpr (threaded)
Platform::Semaphore_Post(Sema_ScanlineCount);
@ -1950,22 +1943,16 @@ void SoftRenderer::RenderPolygons(GPU& gpu, Polygon** polygons, int npolys)
scanlineswaiting--;
break;
// finish pushing a scanline to the buffer if it got interrupted by the read process.
case PushScanlineP2:
if (fina)
{
FinishPushScanline(yold-1, leftoversa);
scanlineswaiting++;
scanlinespushed++;
}
else
{
FinishPushScanline(yold, leftoversb);
scanlineswaiting++;
scanlinespushed++;
}
rasterevents[PushScanlineP2] = INT_MAX/2;
FinishPushScanline(scanlinespushed2, leftovers);
scanlineswaiting++;
scanlinespushed2++;
// unschedule event if all partially pushed scanlines have been pushed
if (scanlinespushed2 >= scanlinespushed) rasterevents[PushScanlineP2] = INT_MAX/2;
break;
}
}