4d02a2d2c0
* 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>
334 lines
11 KiB
C#
334 lines
11 KiB
C#
using Ryujinx.Common.Memory;
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using Ryujinx.Graphics.Nvdec.Vp9.Common;
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using Ryujinx.Graphics.Video;
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namespace Ryujinx.Graphics.Nvdec.Vp9.Types
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{
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internal struct Vp9Common
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{
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public MacroBlockD Mb;
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public ArrayPtr<TileWorkerData> TileWorkerData;
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public InternalErrorInfo Error;
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public int Width;
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public int Height;
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public int SubsamplingX;
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public int SubsamplingY;
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public ArrayPtr<MvRef> PrevFrameMvs;
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public ArrayPtr<MvRef> CurFrameMvs;
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public Array3<RefBuffer> FrameRefs;
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public FrameType FrameType;
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// Flag signaling that the frame is encoded using only Intra modes.
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public bool IntraOnly;
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public bool AllowHighPrecisionMv;
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// MBs, MbRows/Cols is in 16-pixel units; MiRows/Cols is in
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// ModeInfo (8-pixel) units.
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public int MBs;
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public int MbRows, MiRows;
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public int MbCols, MiCols;
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public int MiStride;
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/* Profile settings */
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public TxMode TxMode;
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public int BaseQindex;
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public int YDcDeltaQ;
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public int UvDcDeltaQ;
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public int UvAcDeltaQ;
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public Array8<Array2<short>> YDequant;
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public Array8<Array2<short>> UvDequant;
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/* We allocate a ModeInfo struct for each macroblock, together with
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an extra row on top and column on the left to simplify prediction. */
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public ArrayPtr<ModeInfo> Mip; /* Base of allocated array */
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public ArrayPtr<ModeInfo> Mi; /* Corresponds to upper left visible macroblock */
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public ArrayPtr<Ptr<ModeInfo>> MiGridBase;
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public ArrayPtr<Ptr<ModeInfo>> MiGridVisible;
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// Whether to use previous frame's motion vectors for prediction.
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public bool UsePrevFrameMvs;
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// Persistent mb segment id map used in prediction.
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public int SegMapIdx;
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public int PrevSegMapIdx;
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public Array2<ArrayPtr<byte>> SegMapArray;
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public ArrayPtr<byte> LastFrameSegMap;
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public ArrayPtr<byte> CurrentFrameSegMap;
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public byte InterpFilter;
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public LoopFilterInfoN LfInfo;
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public Array4<sbyte> RefFrameSignBias; /* Two state 0, 1 */
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public LoopFilter Lf;
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public Segmentation Seg;
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// Context probabilities for reference frame prediction
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public sbyte CompFixedRef;
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public Array2<sbyte> CompVarRef;
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public ReferenceMode ReferenceMode;
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public Ptr<Vp9EntropyProbs> Fc;
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public Ptr<Vp9BackwardUpdates> Counts;
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public bool FrameParallelDecodingMode;
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public int Log2TileCols, Log2TileRows;
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public ArrayPtr<sbyte> AboveSegContext;
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public ArrayPtr<sbyte> AboveContext;
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public int AboveContextAllocCols;
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public bool FrameIsIntraOnly()
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{
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return FrameType == FrameType.KeyFrame || IntraOnly;
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}
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public bool CompoundReferenceAllowed()
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{
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int i;
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for (i = 1; i < Constants.RefsPerFrame; ++i)
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{
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if (RefFrameSignBias[i + 1] != RefFrameSignBias[1])
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{
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return true;
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}
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}
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return false;
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}
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private static int CalcMiSize(int len)
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{
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// Len is in mi units.
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return len + Constants.MiBlockSize;
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}
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public void SetMbMi(int width, int height)
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{
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int alignedWidth = BitUtils.AlignPowerOfTwo(width, Constants.MiSizeLog2);
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int alignedHeight = BitUtils.AlignPowerOfTwo(height, Constants.MiSizeLog2);
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MiCols = alignedWidth >> Constants.MiSizeLog2;
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MiRows = alignedHeight >> Constants.MiSizeLog2;
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MiStride = CalcMiSize(MiCols);
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MbCols = (MiCols + 1) >> 1;
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MbRows = (MiRows + 1) >> 1;
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MBs = MbRows * MbCols;
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}
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public void AllocTileWorkerData(MemoryAllocator allocator, int tileCols, int tileRows)
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{
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TileWorkerData = allocator.Allocate<TileWorkerData>(tileCols * tileRows);
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}
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public void FreeTileWorkerData(MemoryAllocator allocator)
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{
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allocator.Free(TileWorkerData);
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}
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private void AllocSegMap(MemoryAllocator allocator, int segMapSize)
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{
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int i;
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for (i = 0; i < Constants.NumPingPongBuffers; ++i)
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{
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SegMapArray[i] = allocator.Allocate<byte>(segMapSize);
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}
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// Init the index.
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SegMapIdx = 0;
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PrevSegMapIdx = 1;
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CurrentFrameSegMap = SegMapArray[SegMapIdx];
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LastFrameSegMap = SegMapArray[PrevSegMapIdx];
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}
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private void FreeSegMap(MemoryAllocator allocator)
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{
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int i;
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for (i = 0; i < Constants.NumPingPongBuffers; ++i)
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{
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allocator.Free(SegMapArray[i]);
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SegMapArray[i] = ArrayPtr<byte>.Null;
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}
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CurrentFrameSegMap = ArrayPtr<byte>.Null;
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LastFrameSegMap = ArrayPtr<byte>.Null;
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}
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private void DecAllocMi(MemoryAllocator allocator, int miSize)
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{
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Mip = allocator.Allocate<ModeInfo>(miSize);
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MiGridBase = allocator.Allocate<Ptr<ModeInfo>>(miSize);
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}
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private void DecFreeMi(MemoryAllocator allocator)
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{
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allocator.Free(Mip);
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Mip = ArrayPtr<ModeInfo>.Null;
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allocator.Free(MiGridBase);
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MiGridBase = ArrayPtr<Ptr<ModeInfo>>.Null;
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}
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public void FreeContextBuffers(MemoryAllocator allocator)
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{
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DecFreeMi(allocator);
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FreeSegMap(allocator);
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allocator.Free(AboveContext);
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AboveContext = ArrayPtr<sbyte>.Null;
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allocator.Free(AboveSegContext);
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AboveSegContext = ArrayPtr<sbyte>.Null;
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allocator.Free(Lf.Lfm);
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Lf.Lfm = ArrayPtr<LoopFilterMask>.Null;
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allocator.Free(CurFrameMvs);
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CurFrameMvs = ArrayPtr<MvRef>.Null;
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if (UsePrevFrameMvs)
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{
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allocator.Free(PrevFrameMvs);
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PrevFrameMvs = ArrayPtr<MvRef>.Null;
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}
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}
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private void AllocLoopFilter(MemoryAllocator allocator)
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{
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// Each lfm holds bit masks for all the 8x8 blocks in a 64x64 region. The
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// stride and rows are rounded up / truncated to a multiple of 8.
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Lf.LfmStride = (MiCols + (Constants.MiBlockSize - 1)) >> 3;
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Lf.Lfm = allocator.Allocate<LoopFilterMask>(((MiRows + (Constants.MiBlockSize - 1)) >> 3) * Lf.LfmStride);
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}
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public void AllocContextBuffers(MemoryAllocator allocator, int width, int height)
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{
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SetMbMi(width, height);
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int newMiSize = MiStride * CalcMiSize(MiRows);
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if (newMiSize != 0)
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{
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DecAllocMi(allocator, newMiSize);
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}
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if (MiRows * MiCols != 0)
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{
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// Create the segmentation map structure and set to 0.
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AllocSegMap(allocator, MiRows * MiCols);
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}
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if (MiCols != 0)
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{
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AboveContext = allocator.Allocate<sbyte>(2 * TileInfo.MiColsAlignedToSb(MiCols) * Constants.MaxMbPlane);
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AboveSegContext = allocator.Allocate<sbyte>(TileInfo.MiColsAlignedToSb(MiCols));
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}
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AllocLoopFilter(allocator);
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CurFrameMvs = allocator.Allocate<MvRef>(MiRows * MiCols);
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// Using the same size as the current frame is fine here,
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// as this is never true when we have a resolution change.
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if (UsePrevFrameMvs)
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{
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PrevFrameMvs = allocator.Allocate<MvRef>(MiRows * MiCols);
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}
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}
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private unsafe void DecSetupMi()
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{
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Mi = Mip.Slice(MiStride + 1);
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MiGridVisible = MiGridBase.Slice(MiStride + 1);
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MemoryUtil.Fill(MiGridBase.ToPointer(), Ptr<ModeInfo>.Null, MiStride * (MiRows + 1));
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}
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public unsafe void InitContextBuffers()
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{
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DecSetupMi();
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if (!LastFrameSegMap.IsNull)
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{
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MemoryUtil.Fill(LastFrameSegMap.ToPointer(), (byte)0, MiRows * MiCols);
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}
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}
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private void SetPartitionProbs(ref MacroBlockD xd)
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{
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xd.PartitionProbs = FrameIsIntraOnly()
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? new ArrayPtr<Array3<byte>>(ref Fc.Value.KfPartitionProb[0], 16)
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: new ArrayPtr<Array3<byte>>(ref Fc.Value.PartitionProb[0], 16);
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}
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internal void InitMacroBlockD(ref MacroBlockD xd, ArrayPtr<int> dqcoeff)
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{
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int i;
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for (i = 0; i < Constants.MaxMbPlane; ++i)
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{
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xd.Plane[i].DqCoeff = dqcoeff;
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xd.AboveContext[i] = AboveContext.Slice(i * 2 * TileInfo.MiColsAlignedToSb(MiCols));
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if (i == 0)
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{
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MemoryUtil.Copy(ref xd.Plane[i].SegDequant, ref YDequant);
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}
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else
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{
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MemoryUtil.Copy(ref xd.Plane[i].SegDequant, ref UvDequant);
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}
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xd.Fc = new Ptr<Vp9EntropyProbs>(ref Fc.Value);
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}
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xd.AboveSegContext = AboveSegContext;
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xd.MiStride = MiStride;
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xd.ErrorInfo = new Ptr<InternalErrorInfo>(ref Error);
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SetPartitionProbs(ref xd);
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}
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public void SetupSegmentationDequant()
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{
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const BitDepth bitDepth = BitDepth.Bits8; // TODO: Configurable
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// Build y/uv dequant values based on segmentation.
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if (Seg.Enabled)
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{
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int i;
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for (i = 0; i < Constants.MaxSegments; ++i)
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{
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int qIndex = QuantCommon.GetQIndex(ref Seg, i, BaseQindex);
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YDequant[i][0] = QuantCommon.DcQuant(qIndex, YDcDeltaQ, bitDepth);
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YDequant[i][1] = QuantCommon.AcQuant(qIndex, 0, bitDepth);
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UvDequant[i][0] = QuantCommon.DcQuant(qIndex, UvDcDeltaQ, bitDepth);
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UvDequant[i][1] = QuantCommon.AcQuant(qIndex, UvAcDeltaQ, bitDepth);
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}
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}
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else
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{
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int qIndex = BaseQindex;
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// When segmentation is disabled, only the first value is used. The
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// remaining are don't cares.
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YDequant[0][0] = QuantCommon.DcQuant(qIndex, YDcDeltaQ, bitDepth);
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YDequant[0][1] = QuantCommon.AcQuant(qIndex, 0, bitDepth);
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UvDequant[0][0] = QuantCommon.DcQuant(qIndex, UvDcDeltaQ, bitDepth);
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UvDequant[0][1] = QuantCommon.AcQuant(qIndex, UvAcDeltaQ, bitDepth);
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}
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}
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public void SetupScaleFactors()
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{
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for (int i = 0; i < Constants.RefsPerFrame; ++i)
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{
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ref RefBuffer refBuf = ref FrameRefs[i];
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refBuf.Sf.SetupScaleFactorsForFrame(refBuf.Buf.Width, refBuf.Buf.Height, Width, Height);
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}
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}
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}
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}
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