private void WriteQuantizationTables(ref JpegWriter writer) { List <JpegQuantizationTable>?quantizationTables = _quantizationTables; if (quantizationTables is null) { throw new InvalidOperationException(); } writer.WriteMarker(JpegMarker.DefineQuantizationTable); ushort totalByteCount = 0; foreach (JpegQuantizationTable table in quantizationTables) { totalByteCount += table.BytesRequired; } writer.WriteLength(totalByteCount); foreach (JpegQuantizationTable table in quantizationTables) { Span <byte> buffer = writer.GetSpan(table.BytesRequired); table.TryWrite(buffer, out int bytesWritten); writer.Advance(bytesWritten); } }
private void WriteHuffmanTables(ref JpegWriter writer) { if (_encodingTables.IsEmpty) { throw new InvalidOperationException(); } writer.WriteMarker(JpegMarker.DefineHuffmanTable); ushort totalByteCoubt = _encodingTables.GetTotalBytesRequired(); writer.WriteLength(totalByteCoubt); _encodingTables.Write(ref writer); }
private static ReadOnlySequence <byte> CopyMarkerData(ref JpegReader reader, ref JpegWriter writer) { if (!reader.TryReadLength(out ushort length)) { ThrowInvalidDataException(reader.ConsumedByteCount, "Unexpected end of input data when reading segment length."); } if (!reader.TryReadBytes(length, out ReadOnlySequence <byte> buffer)) { ThrowInvalidDataException(reader.ConsumedByteCount, "Unexpected end of input data when reading segment content."); } writer.WriteLength(length); writer.WriteBytes(buffer); return(buffer); }
private static void CopyBlockBaseline(ref JpegBitReader reader, ref JpegWriter writer, JpegTranscodeComponent component) { Debug.Assert(!(component.DcTable is null)); Debug.Assert(!(component.DcEncodingTable is null)); Debug.Assert(!(component.AcTable is null)); Debug.Assert(!(component.AcEncodingTable is null)); // DC int symbol = DecodeHuffmanCode(ref reader, component.DcTable !); component.DcEncodingTable !.GetCode(symbol, out ushort code, out int codeLength); writer.WriteBits(code, codeLength); if (symbol != 0) { int received = Receive(ref reader, symbol); writer.WriteBits((uint)received, symbol); } // AC for (int i = 1; i < 64;) { symbol = DecodeHuffmanCode(ref reader, component.AcTable !); component.AcEncodingTable !.GetCode(symbol, out code, out codeLength); writer.WriteBits(code, codeLength); int r = symbol >> 4; symbol &= 15; if (symbol != 0) { i += r + 1; int received = Receive(ref reader, symbol); writer.WriteBits((uint)received, symbol); } else { if (r == 0) { break; } i += 16; } } }
private void CopyScanBaseline(ref JpegReader reader, ref JpegWriter writer, JpegScanHeader scanHeader) { JpegFrameHeader frameHeader = _frameHeader.GetValueOrDefault(); if (scanHeader.Components is null) { throw new InvalidOperationException(); } // Compute maximum sampling factor byte maxHorizontalSampling = 1; byte maxVerticalSampling = 1; foreach (JpegFrameComponentSpecificationParameters currentFrameComponent in frameHeader.Components !) { maxHorizontalSampling = Math.Max(maxHorizontalSampling, currentFrameComponent.HorizontalSamplingFactor); maxVerticalSampling = Math.Max(maxVerticalSampling, currentFrameComponent.VerticalSamplingFactor); } // Resolve each component JpegTranscodeComponent[] components = new JpegTranscodeComponent[scanHeader.NumberOfComponents]; for (int i = 0; i < scanHeader.NumberOfComponents; i++) { JpegScanComponentSpecificationParameters scanComponenet = scanHeader.Components[i]; int componentIndex = 0; JpegFrameComponentSpecificationParameters?frameComponent = null; for (int j = 0; j < frameHeader.NumberOfComponents; j++) { JpegFrameComponentSpecificationParameters currentFrameComponent = frameHeader.Components[j]; if (scanComponenet.ScanComponentSelector == currentFrameComponent.Identifier) { componentIndex = j; frameComponent = currentFrameComponent; } } if (frameComponent is null) { throw new InvalidDataException(); } components[i] = new JpegTranscodeComponent { ComponentIndex = componentIndex, HorizontalSamplingFactor = frameComponent.GetValueOrDefault().HorizontalSamplingFactor, VerticalSamplingFactor = frameComponent.GetValueOrDefault().VerticalSamplingFactor, DcTable = GetHuffmanTable(true, scanComponenet.DcEntropyCodingTableSelector), AcTable = GetHuffmanTable(false, scanComponenet.AcEntropyCodingTableSelector), DcEncodingTable = _encodingTables.GetTable(true, scanComponenet.DcEntropyCodingTableSelector), AcEncodingTable = _encodingTables.GetTable(false, scanComponenet.AcEntropyCodingTableSelector) }; } // Prepare int mcusPerLine = (frameHeader.SamplesPerLine + 8 * maxHorizontalSampling - 1) / (8 * maxHorizontalSampling); int mcusPerColumn = (frameHeader.NumberOfLines + 8 * maxVerticalSampling - 1) / (8 * maxVerticalSampling); JpegBitReader bitReader = new JpegBitReader(reader.RemainingBytes); int mcusBeforeRestart = _restartInterval; bool eoiReached = false; writer.EnterBitMode(); for (int rowMcu = 0; rowMcu < mcusPerColumn && !eoiReached; rowMcu++) { for (int colMcu = 0; colMcu < mcusPerLine && !eoiReached; colMcu++) { foreach (JpegTranscodeComponent component in components) { int h = component.HorizontalSamplingFactor; int v = component.VerticalSamplingFactor; for (int y = 0; y < v; y++) { for (int x = 0; x < h; x++) { CopyBlockBaseline(ref bitReader, ref writer, component); } } } if (_restartInterval > 0 && (--mcusBeforeRestart) == 0) { bitReader.AdvanceAlignByte(); JpegMarker marker = bitReader.TryReadMarker(); if (marker == JpegMarker.EndOfImage) { eoiReached = true; break; } if (!marker.IsRestartMarker()) { throw new InvalidOperationException("Expect restart marker."); } mcusBeforeRestart = _restartInterval; writer.ExitBitMode(); writer.WriteMarker(marker); writer.EnterBitMode(); } } } bitReader.AdvanceAlignByte(); writer.ExitBitMode(); int bytesConsumed = reader.RemainingByteCount - bitReader.RemainingBits / 8; if (eoiReached) { bytesConsumed -= 2; } else if (bitReader.TryPeekMarker() != 0) { if (!bitReader.TryPeekMarker().IsRestartMarker()) { bytesConsumed -= 2; } } reader.TryAdvance(bytesConsumed); }
public void Optimize(bool strip = true) { if (_encodingTables.IsEmpty) { throw new InvalidOperationException(); } IBufferWriter <byte> bufferWriter = _output ?? throw new InvalidOperationException(); JpegReader reader = new JpegReader(_inputBuffer); var writer = new JpegWriter(bufferWriter, _minimumBufferSegmentSize); bool eoiReached = false; bool huffmanTableWritten = false; bool quantizationTableWritten = false; while (!eoiReached && !reader.IsEmpty) { if (!reader.TryReadMarker(out JpegMarker marker)) { ThrowInvalidDataException(reader.ConsumedByteCount, "No marker found."); return; } switch (marker) { case JpegMarker.StartOfImage: writer.WriteMarker(marker); break; case JpegMarker.App0: case JpegMarker.StartOfFrame0: case JpegMarker.StartOfFrame1: writer.WriteMarker(marker); CopyMarkerData(ref reader, ref writer); break; case JpegMarker.StartOfFrame2: ProcessFrameHeader(ref reader, false, true); throw new InvalidDataException("Progressive JPEG is not supported currently."); case JpegMarker.StartOfFrame3: case JpegMarker.StartOfFrame5: case JpegMarker.StartOfFrame6: case JpegMarker.StartOfFrame7: case JpegMarker.StartOfFrame9: case JpegMarker.StartOfFrame10: case JpegMarker.StartOfFrame11: case JpegMarker.StartOfFrame13: case JpegMarker.StartOfFrame14: case JpegMarker.StartOfFrame15: ThrowInvalidDataException(reader.ConsumedByteCount, $"This type of JPEG stream is not supported ({marker})."); return; case JpegMarker.DefineHuffmanTable: if (!huffmanTableWritten) { WriteHuffmanTables(ref writer); huffmanTableWritten = true; } break; case JpegMarker.DefineQuantizationTable: if (!quantizationTableWritten) { WriteQuantizationTables(ref writer); quantizationTableWritten = true; } break; case JpegMarker.StartOfScan: writer.WriteMarker(marker); ReadOnlySequence <byte> buffer = CopyMarkerData(ref reader, ref writer); if (!JpegScanHeader.TryParse(buffer, false, out JpegScanHeader scanHeader, out _)) { ThrowInvalidDataException(reader.ConsumedByteCount - (int)buffer.Length, "Failed to parse scan header."); } CopyScanBaseline(ref reader, ref writer, scanHeader); break; case JpegMarker.DefineRestart0: case JpegMarker.DefineRestart1: case JpegMarker.DefineRestart2: case JpegMarker.DefineRestart3: case JpegMarker.DefineRestart4: case JpegMarker.DefineRestart5: case JpegMarker.DefineRestart6: case JpegMarker.DefineRestart7: writer.WriteMarker(marker); break; case JpegMarker.EndOfImage: writer.WriteMarker(JpegMarker.EndOfImage); eoiReached = true; break; default: if (strip) { SkipMarkerData(ref reader); } else { writer.WriteMarker(marker); CopyMarkerData(ref reader, ref writer); } break; } } writer.Flush(); }