private void CheckBuffer() { if (this.remainingBits == 0) { this.byteBuffer = BigEndian.Read2(stream); this.remainingBits = 16; } }
private static void Decode(Stream input, Stream output) { DecodingCodeTreeNode codeTree = new DecodingCodeTreeNode(); ushort numberOfTiles = BigEndian.Read2(input); bool xorOutput = (numberOfTiles & 0x8000) != 0; numberOfTiles &= 0x7fff; DecodeHeader(input, output, codeTree); DecodeInternal(input, output, codeTree, numberOfTiles, xorOutput); }
public UInt16BE_E_L_InputBitStream(Stream stream) { if (stream == null) { throw new ArgumentNullException("stream"); } this.stream = stream; this.remainingBits = 16; this.byteBuffer = BigEndian.Read2(stream); }
internal static void DecodeModuled(Stream source, Stream destination) { long decompressedBytes = 0; long fullSize = BigEndian.Read2(source); for (; ;) { DecodeInternal(source, destination, ref decompressedBytes); if (decompressedBytes >= fullSize) { break; } } }
public override ushort Read(int count) { this.CheckBuffer(); if (this.remainingBits < count) { int delta = count - this.remainingBits; ushort lowBits = (ushort)(this.byteBuffer << delta); this.byteBuffer = BigEndian.Read2(stream); this.remainingBits = 16 - delta; ushort highBits = (ushort)(this.byteBuffer >> this.remainingBits); this.byteBuffer ^= (ushort)(highBits << this.remainingBits); return((ushort)(lowBits | highBits)); } this.remainingBits -= count; ushort bits = (ushort)(this.byteBuffer >> this.remainingBits); this.byteBuffer ^= (ushort)(bits << this.remainingBits); return(bits); }
internal static void Decode(Stream source, Stream destination, Endianness headerEndianness) { long decompressedBytes = 0; long fullSize; if (headerEndianness == Endianness.BigEndian) { fullSize = BigEndian.Read2(source); } else { fullSize = LittleEndian.Read2(source); } for (; ;) { DecodeInternal(source, destination, ref decompressedBytes); if (decompressedBytes >= fullSize) { break; } // Skip the padding between modules int b; long paddingEnd = (((source.Position - 2) + 0xF) & ~0xF) + 2; while (source.Position < paddingEnd) { b = source.ReadByte(); if (b == -1) { throw new EndOfStreamException(); } } } }
private static void Decode(Stream input, Stream output, Endianness endianness) { using (PaddedStream paddedInput = new PaddedStream(input, 2, PaddedStreamMode.Read)) { byte packetLength = NeutralEndian.Read1(paddedInput); var readBitfield = GetBitfieldReader(NeutralEndian.Read1(paddedInput)); ushort incrementingValue; ushort commonValue; InputBitStream <ushort> bitStream; Action <Stream, ushort> write2; if (endianness == Endianness.BigEndian) { incrementingValue = BigEndian.Read2(paddedInput); commonValue = BigEndian.Read2(paddedInput); bitStream = new UInt16BE_E_L_InputBitStream(paddedInput); write2 = Write2BE; } else { incrementingValue = LittleEndian.Read2(paddedInput); commonValue = LittleEndian.Read2(paddedInput); bitStream = new UInt16LE_E_L_InputBitStream(paddedInput); write2 = Write2LE; } // Loop until the end-of-data marker is found (if it is not found before the end of the stream, UInt8InputBitStream // will throw an exception) for (; ;) { if (bitStream.Get()) { int mode = bitStream.Read(2); int count = bitStream.Read(4); switch (mode) { case 0: case 1: { ushort flags = readBitfield(bitStream); ushort outv = (ushort)(bitStream.Read(packetLength) | flags); do { write2(output, outv); outv += (ushort)mode; } while (--count >= 0); } break; case 2: mode = -1; goto case 0; case 3: { // End of compressed data if (count == 0xf) { return; } do { ushort flags = readBitfield(bitStream); ushort outv = bitStream.Read(packetLength); write2(output, (ushort)(outv | flags)); } while (--count >= 0); } break; } } else { bool mode = bitStream.Get(); int count = bitStream.Read(4); if (mode) { do { write2(output, commonValue); } while (--count >= 0); } else { do { write2(output, incrementingValue++); } while (--count >= 0); } } } } }