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Ryujinx/Ryujinx.Graphics.Nvdec.Vp9/ReconIntra.cs
gdkchan 4d02a2d2c0
New NVDEC and VIC implementation (#1384)
* Initial NVDEC and VIC implementation

* Update FFmpeg.AutoGen to 4.3.0

* Add nvdec dependencies for Windows

* Unify some VP9 structures

* Rename VP9 structure fields

* Improvements to Video API

* XML docs for Common.Memory

* Remove now unused or redundant overloads from MemoryAccessor

* NVDEC UV surface read/write scalar paths

* Add FIXME comments about hacky things/stuff that will need to be fixed in the future

* Cleaned up VP9 memory allocation

* Remove some debug logs

* Rename some VP9 structs

* Remove unused struct

* No need to compile Ryujinx.Graphics.Host1x with unsafe anymore

* Name AsyncWorkQueue threads to make debugging easier

* Make Vp9PictureInfo a ref struct

* LayoutConverter no longer needs the depth argument (broken by rebase)

* Pooling of VP9 buffers, plus fix a memory leak on VP9

* Really wish VS could rename projects properly...

* Address feedback

* Remove using

* Catch OperationCanceledException

* Add licensing informations

* Add THIRDPARTY.md to release too

Co-authored-by: Thog <me@thog.eu>
2020-07-12 05:07:01 +02:00

761 lines
26 KiB
C#

using Ryujinx.Graphics.Nvdec.Vp9.Common;
using Ryujinx.Graphics.Nvdec.Vp9.Types;
using static Ryujinx.Graphics.Nvdec.Vp9.Dsp.IntraPred;
namespace Ryujinx.Graphics.Nvdec.Vp9
{
internal static class ReconIntra
{
public static readonly TxType[] IntraModeToTxTypeLookup = new TxType[]
{
TxType.DctDct, // DC
TxType.AdstDct, // V
TxType.DctAdst, // H
TxType.DctDct, // D45
TxType.AdstAdst, // D135
TxType.AdstDct, // D117
TxType.DctAdst, // D153
TxType.DctAdst, // D207
TxType.AdstDct, // D63
TxType.AdstAdst // TM
};
private const int NeedLeft = 1 << 1;
private const int NeedAbove = 1 << 2;
private const int NeedAboveRight = 1 << 3;
private static readonly byte[] ExtendModes = new byte[]
{
NeedAbove | NeedLeft, // DC
NeedAbove, // V
NeedLeft, // H
NeedAboveRight, // D45
NeedLeft | NeedAbove, // D135
NeedLeft | NeedAbove, // D117
NeedLeft | NeedAbove, // D153
NeedLeft, // D207
NeedAboveRight, // D63
NeedLeft | NeedAbove, // TM
};
private unsafe delegate void IntraPredFn(byte* dst, int stride, byte* above, byte* left);
private static unsafe IntraPredFn[][] _pred = new IntraPredFn[][]
{
new IntraPredFn[]
{
null,
null,
null,
null
},
new IntraPredFn[]
{
VPredictor4x4,
VPredictor8x8,
VPredictor16x16,
VPredictor32x32
},
new IntraPredFn[]
{
HPredictor4x4,
HPredictor8x8,
HPredictor16x16,
HPredictor32x32
},
new IntraPredFn[]
{
D45Predictor4x4,
D45Predictor8x8,
D45Predictor16x16,
D45Predictor32x32
},
new IntraPredFn[]
{
D135Predictor4x4,
D135Predictor8x8,
D135Predictor16x16,
D135Predictor32x32
},
new IntraPredFn[]
{
D117Predictor4x4,
D117Predictor8x8,
D117Predictor16x16,
D117Predictor32x32
},
new IntraPredFn[]
{
D153Predictor4x4,
D153Predictor8x8,
D153Predictor16x16,
D153Predictor32x32
},
new IntraPredFn[]
{
D207Predictor4x4,
D207Predictor8x8,
D207Predictor16x16,
D207Predictor32x32
},
new IntraPredFn[]
{
D63Predictor4x4,
D63Predictor8x8,
D63Predictor16x16,
D63Predictor32x32
},
new IntraPredFn[]
{
TMPredictor4x4,
TMPredictor8x8,
TMPredictor16x16,
TMPredictor32x32
}
};
private static unsafe IntraPredFn[][][] _dcPred = new IntraPredFn[][][]
{
new IntraPredFn[][]
{
new IntraPredFn[]
{
Dc128Predictor4x4,
Dc128Predictor8x8,
Dc128Predictor16x16,
Dc128Predictor32x32
},
new IntraPredFn[]
{
DcTopPredictor4x4,
DcTopPredictor8x8,
DcTopPredictor16x16,
DcTopPredictor32x32
}
},
new IntraPredFn[][]
{
new IntraPredFn[]
{
DcLeftPredictor4x4,
DcLeftPredictor8x8,
DcLeftPredictor16x16,
DcLeftPredictor32x32
},
new IntraPredFn[]
{
DcPredictor4x4,
DcPredictor8x8,
DcPredictor16x16,
DcPredictor32x32
}
}
};
private unsafe delegate void IntraHighPredFn(ushort* dst, int stride, ushort* above, ushort* left, int bd);
private static unsafe IntraHighPredFn[][] _predHigh = new IntraHighPredFn[][]
{
new IntraHighPredFn[]
{
null,
null,
null,
null
},
new IntraHighPredFn[]
{
HighbdVPredictor4x4,
HighbdVPredictor8x8,
HighbdVPredictor16x16,
HighbdVPredictor32x32
},
new IntraHighPredFn[]
{
HighbdHPredictor4x4,
HighbdHPredictor8x8,
HighbdHPredictor16x16,
HighbdHPredictor32x32
},
new IntraHighPredFn[]
{
HighbdD45Predictor4x4,
HighbdD45Predictor8x8,
HighbdD45Predictor16x16,
HighbdD45Predictor32x32
},
new IntraHighPredFn[]
{
HighbdD135Predictor4x4,
HighbdD135Predictor8x8,
HighbdD135Predictor16x16,
HighbdD135Predictor32x32
},
new IntraHighPredFn[]
{
HighbdD117Predictor4x4,
HighbdD117Predictor8x8,
HighbdD117Predictor16x16,
HighbdD117Predictor32x32
},
new IntraHighPredFn[]
{
HighbdD153Predictor4x4,
HighbdD153Predictor8x8,
HighbdD153Predictor16x16,
HighbdD153Predictor32x32
},
new IntraHighPredFn[]
{
HighbdD207Predictor4x4,
HighbdD207Predictor8x8,
HighbdD207Predictor16x16,
HighbdD207Predictor32x32
},
new IntraHighPredFn[]
{
HighbdD63Predictor4x4,
HighbdD63Predictor8x8,
HighbdD63Predictor16x16,
HighbdD63Predictor32x32
},
new IntraHighPredFn[]
{
HighbdTMPredictor4x4,
HighbdTMPredictor8x8,
HighbdTMPredictor16x16,
HighbdTMPredictor32x32
}
};
private static unsafe IntraHighPredFn[][][] _dcPredHigh = new IntraHighPredFn[][][]
{
new IntraHighPredFn[][]
{
new IntraHighPredFn[]
{
HighbdDc128Predictor4x4,
HighbdDc128Predictor8x8,
HighbdDc128Predictor16x16,
HighbdDc128Predictor32x32
},
new IntraHighPredFn[]
{
HighbdDcTopPredictor4x4,
HighbdDcTopPredictor8x8,
HighbdDcTopPredictor16x16,
HighbdDcTopPredictor32x32
}
},
new IntraHighPredFn[][]
{
new IntraHighPredFn[]
{
HighbdDcLeftPredictor4x4,
HighbdDcLeftPredictor8x8,
HighbdDcLeftPredictor16x16,
HighbdDcLeftPredictor32x32
},
new IntraHighPredFn[]
{
HighbdDcPredictor4x4,
HighbdDcPredictor8x8,
HighbdDcPredictor16x16,
HighbdDcPredictor32x32
}
}
};
private static unsafe void BuildIntraPredictorsHigh(
ref MacroBlockD xd,
byte* ref8,
int refStride,
byte* dst8,
int dstStride,
PredictionMode mode,
TxSize txSize,
int upAvailable,
int leftAvailable,
int rightAvailable,
int x,
int y,
int plane)
{
int i;
ushort* dst = (ushort*)dst8;
ushort* refr = (ushort*)ref8;
ushort* leftCol = stackalloc ushort[32];
ushort* aboveData = stackalloc ushort[64 + 16];
ushort* aboveRow = aboveData + 16;
ushort* constAboveRow = aboveRow;
int bs = 4 << (int)txSize;
int frameWidth, frameHeight;
int x0, y0;
ref MacroBlockDPlane pd = ref xd.Plane[plane];
int needLeft = ExtendModes[(int)mode] & NeedLeft;
int needAbove = ExtendModes[(int)mode] & NeedAbove;
int needAboveRight = ExtendModes[(int)mode] & NeedAboveRight;
int baseVal = 128 << (xd.Bd - 8);
// 127 127 127 .. 127 127 127 127 127 127
// 129 A B .. Y Z
// 129 C D .. W X
// 129 E F .. U V
// 129 G H .. S T T T T T
// For 10 bit and 12 bit, 127 and 129 are replaced by base -1 and base + 1.
// Get current frame pointer, width and height.
if (plane == 0)
{
frameWidth = xd.CurBuf.Width;
frameHeight = xd.CurBuf.Height;
}
else
{
frameWidth = xd.CurBuf.UvWidth;
frameHeight = xd.CurBuf.UvHeight;
}
// Get block position in current frame.
x0 = (-xd.MbToLeftEdge >> (3 + pd.SubsamplingX)) + x;
y0 = (-xd.MbToTopEdge >> (3 + pd.SubsamplingY)) + y;
// NEED_LEFT
if (needLeft != 0)
{
if (leftAvailable != 0)
{
if (xd.MbToBottomEdge < 0)
{
/* slower path if the block needs border extension */
if (y0 + bs <= frameHeight)
{
for (i = 0; i < bs; ++i)
{
leftCol[i] = refr[i * refStride - 1];
}
}
else
{
int extendBottom = frameHeight - y0;
for (i = 0; i < extendBottom; ++i)
{
leftCol[i] = refr[i * refStride - 1];
}
for (; i < bs; ++i)
{
leftCol[i] = refr[(extendBottom - 1) * refStride - 1];
}
}
}
else
{
/* faster path if the block does not need extension */
for (i = 0; i < bs; ++i)
{
leftCol[i] = refr[i * refStride - 1];
}
}
}
else
{
MemoryUtil.Fill(leftCol, (ushort)(baseVal + 1), bs);
}
}
// NEED_ABOVE
if (needAbove != 0)
{
if (upAvailable != 0)
{
ushort* aboveRef = refr - refStride;
if (xd.MbToRightEdge < 0)
{
/* slower path if the block needs border extension */
if (x0 + bs <= frameWidth)
{
MemoryUtil.Copy(aboveRow, aboveRef, bs);
}
else if (x0 <= frameWidth)
{
int r = frameWidth - x0;
MemoryUtil.Copy(aboveRow, aboveRef, r);
MemoryUtil.Fill(aboveRow + r, aboveRow[r - 1], x0 + bs - frameWidth);
}
}
else
{
/* faster path if the block does not need extension */
if (bs == 4 && rightAvailable != 0 && leftAvailable != 0)
{
constAboveRow = aboveRef;
}
else
{
MemoryUtil.Copy(aboveRow, aboveRef, bs);
}
}
aboveRow[-1] = leftAvailable != 0 ? aboveRef[-1] : (ushort)(baseVal + 1);
}
else
{
MemoryUtil.Fill(aboveRow, (ushort)(baseVal - 1), bs);
aboveRow[-1] = (ushort)(baseVal - 1);
}
}
// NEED_ABOVERIGHT
if (needAboveRight != 0)
{
if (upAvailable != 0)
{
ushort* aboveRef = refr - refStride;
if (xd.MbToRightEdge < 0)
{
/* slower path if the block needs border extension */
if (x0 + 2 * bs <= frameWidth)
{
if (rightAvailable != 0 && bs == 4)
{
MemoryUtil.Copy(aboveRow, aboveRef, 2 * bs);
}
else
{
MemoryUtil.Copy(aboveRow, aboveRef, bs);
MemoryUtil.Fill(aboveRow + bs, aboveRow[bs - 1], bs);
}
}
else if (x0 + bs <= frameWidth)
{
int r = frameWidth - x0;
if (rightAvailable != 0 && bs == 4)
{
MemoryUtil.Copy(aboveRow, aboveRef, r);
MemoryUtil.Fill(aboveRow + r, aboveRow[r - 1], x0 + 2 * bs - frameWidth);
}
else
{
MemoryUtil.Copy(aboveRow, aboveRef, bs);
MemoryUtil.Fill(aboveRow + bs, aboveRow[bs - 1], bs);
}
}
else if (x0 <= frameWidth)
{
int r = frameWidth - x0;
MemoryUtil.Copy(aboveRow, aboveRef, r);
MemoryUtil.Fill(aboveRow + r, aboveRow[r - 1], x0 + 2 * bs - frameWidth);
}
aboveRow[-1] = leftAvailable != 0 ? aboveRef[-1] : (ushort)(baseVal + 1);
}
else
{
/* faster path if the block does not need extension */
if (bs == 4 && rightAvailable != 0 && leftAvailable != 0)
{
constAboveRow = aboveRef;
}
else
{
MemoryUtil.Copy(aboveRow, aboveRef, bs);
if (bs == 4 && rightAvailable != 0)
{
MemoryUtil.Copy(aboveRow + bs, aboveRef + bs, bs);
}
else
{
MemoryUtil.Fill(aboveRow + bs, aboveRow[bs - 1], bs);
}
aboveRow[-1] = leftAvailable != 0 ? aboveRef[-1] : (ushort)(baseVal + 1);
}
}
}
else
{
MemoryUtil.Fill(aboveRow, (ushort)(baseVal - 1), bs * 2);
aboveRow[-1] = (ushort)(baseVal - 1);
}
}
// Predict
if (mode == PredictionMode.DcPred)
{
_dcPredHigh[leftAvailable][upAvailable][(int)txSize](dst, dstStride, constAboveRow, leftCol, xd.Bd);
}
else
{
_predHigh[(int)mode][(int)txSize](dst, dstStride, constAboveRow, leftCol, xd.Bd);
}
}
public static unsafe void BuildIntraPredictors(
ref MacroBlockD xd,
byte* refr,
int refStride,
byte* dst,
int dstStride,
PredictionMode mode,
TxSize txSize,
int upAvailable,
int leftAvailable,
int rightAvailable,
int x,
int y,
int plane)
{
int i;
byte* leftCol = stackalloc byte[32];
byte* aboveData = stackalloc byte[64 + 16];
byte* aboveRow = aboveData + 16;
byte* constAboveRow = aboveRow;
int bs = 4 << (int)txSize;
int frameWidth, frameHeight;
int x0, y0;
ref MacroBlockDPlane pd = ref xd.Plane[plane];
// 127 127 127 .. 127 127 127 127 127 127
// 129 A B .. Y Z
// 129 C D .. W X
// 129 E F .. U V
// 129 G H .. S T T T T T
// ..
// Get current frame pointer, width and height.
if (plane == 0)
{
frameWidth = xd.CurBuf.Width;
frameHeight = xd.CurBuf.Height;
}
else
{
frameWidth = xd.CurBuf.UvWidth;
frameHeight = xd.CurBuf.UvHeight;
}
// Get block position in current frame.
x0 = (-xd.MbToLeftEdge >> (3 + pd.SubsamplingX)) + x;
y0 = (-xd.MbToTopEdge >> (3 + pd.SubsamplingY)) + y;
// NEED_LEFT
if ((ExtendModes[(int)mode] & NeedLeft) != 0)
{
if (leftAvailable != 0)
{
if (xd.MbToBottomEdge < 0)
{
/* Slower path if the block needs border extension */
if (y0 + bs <= frameHeight)
{
for (i = 0; i < bs; ++i)
{
leftCol[i] = refr[i * refStride - 1];
}
}
else
{
int extendBottom = frameHeight - y0;
for (i = 0; i < extendBottom; ++i)
{
leftCol[i] = refr[i * refStride - 1];
}
for (; i < bs; ++i)
{
leftCol[i] = refr[(extendBottom - 1) * refStride - 1];
}
}
}
else
{
/* Faster path if the block does not need extension */
for (i = 0; i < bs; ++i)
{
leftCol[i] = refr[i * refStride - 1];
}
}
}
else
{
MemoryUtil.Fill(leftCol, (byte)129, bs);
}
}
// NEED_ABOVE
if ((ExtendModes[(int)mode] & NeedAbove) != 0)
{
if (upAvailable != 0)
{
byte* aboveRef = refr - refStride;
if (xd.MbToRightEdge < 0)
{
/* Slower path if the block needs border extension */
if (x0 + bs <= frameWidth)
{
MemoryUtil.Copy(aboveRow, aboveRef, bs);
}
else if (x0 <= frameWidth)
{
int r = frameWidth - x0;
MemoryUtil.Copy(aboveRow, aboveRef, r);
MemoryUtil.Fill(aboveRow + r, aboveRow[r - 1], x0 + bs - frameWidth);
}
}
else
{
/* Faster path if the block does not need extension */
if (bs == 4 && rightAvailable != 0 && leftAvailable != 0)
{
constAboveRow = aboveRef;
}
else
{
MemoryUtil.Copy(aboveRow, aboveRef, bs);
}
}
aboveRow[-1] = leftAvailable != 0 ? aboveRef[-1] : (byte)129;
}
else
{
MemoryUtil.Fill(aboveRow, (byte)127, bs);
aboveRow[-1] = 127;
}
}
// NEED_ABOVERIGHT
if ((ExtendModes[(int)mode] & NeedAboveRight) != 0)
{
if (upAvailable != 0)
{
byte* aboveRef = refr - refStride;
if (xd.MbToRightEdge < 0)
{
/* Slower path if the block needs border extension */
if (x0 + 2 * bs <= frameWidth)
{
if (rightAvailable != 0 && bs == 4)
{
MemoryUtil.Copy(aboveRow, aboveRef, 2 * bs);
}
else
{
MemoryUtil.Copy(aboveRow, aboveRef, bs);
MemoryUtil.Fill(aboveRow + bs, aboveRow[bs - 1], bs);
}
}
else if (x0 + bs <= frameWidth)
{
int r = frameWidth - x0;
if (rightAvailable != 0 && bs == 4)
{
MemoryUtil.Copy(aboveRow, aboveRef, r);
MemoryUtil.Fill(aboveRow + r, aboveRow[r - 1], x0 + 2 * bs - frameWidth);
}
else
{
MemoryUtil.Copy(aboveRow, aboveRef, bs);
MemoryUtil.Fill(aboveRow + bs, aboveRow[bs - 1], bs);
}
}
else if (x0 <= frameWidth)
{
int r = frameWidth - x0;
MemoryUtil.Copy(aboveRow, aboveRef, r);
MemoryUtil.Fill(aboveRow + r, aboveRow[r - 1], x0 + 2 * bs - frameWidth);
}
}
else
{
/* Faster path if the block does not need extension */
if (bs == 4 && rightAvailable != 0 && leftAvailable != 0)
{
constAboveRow = aboveRef;
}
else
{
MemoryUtil.Copy(aboveRow, aboveRef, bs);
if (bs == 4 && rightAvailable != 0)
{
MemoryUtil.Copy(aboveRow + bs, aboveRef + bs, bs);
}
else
{
MemoryUtil.Fill(aboveRow + bs, aboveRow[bs - 1], bs);
}
}
}
aboveRow[-1] = leftAvailable != 0 ? aboveRef[-1] : (byte)129;
}
else
{
MemoryUtil.Fill(aboveRow, (byte)127, bs * 2);
aboveRow[-1] = 127;
}
}
// Predict
if (mode == PredictionMode.DcPred)
{
_dcPred[leftAvailable][upAvailable][(int)txSize](dst, dstStride, constAboveRow, leftCol);
}
else
{
_pred[(int)mode][(int)txSize](dst, dstStride, constAboveRow, leftCol);
}
}
public static unsafe void PredictIntraBlock(
ref MacroBlockD xd,
int bwlIn,
TxSize txSize,
PredictionMode mode,
byte* refr,
int refStride,
byte* dst,
int dstStride,
int aoff,
int loff,
int plane)
{
int bw = 1 << bwlIn;
int txw = 1 << (int)txSize;
int haveTop = loff != 0 || !xd.AboveMi.IsNull ? 1 : 0;
int haveLeft = aoff != 0 || !xd.LeftMi.IsNull ? 1 : 0;
int haveRight = (aoff + txw) < bw ? 1 : 0;
int x = aoff * 4;
int y = loff * 4;
if (xd.CurBuf.HighBd)
{
BuildIntraPredictorsHigh(
ref xd,
refr,
refStride,
dst,
dstStride,
mode,
txSize,
haveTop,
haveLeft,
haveRight,
x,
y,
plane);
return;
}
BuildIntraPredictors(
ref xd,
refr,
refStride,
dst,
dstStride,
mode,
txSize,
haveTop,
haveLeft,
haveRight,
x,
y,
plane);
}
}
}