public int ReadHuffSym(LzxBuffer buffer) { int i, j; buffer.EnsureBits(16); if ((i = table[buffer.PeekBits((byte)tableBits)]) >= maxSymbols) { j = (int)(1 << (int)((4 * 8) - tableBits)); do { uint zeroShift = (uint)j; zeroShift >>= 1; j = (int)zeroShift; i <<= 1; i |= (buffer.BitBuffer & j) != 0 ? (int)1 : 0; if (j == 0) { throw new Exception(); // return 0; } } while ((i = table[i]) >= maxSymbols); } j = length[i]; buffer.RemoveBits((byte)j); return(i); }
private void DecompressBlock(BinaryReader input, int inputLength, MemoryStream output, int outputLength) { BinaryReader outputReader = new BinaryReader(output); BinaryWriter outputWriter = new BinaryWriter(output); int startpos = (int)input.BaseStream.Position; int endpos = startpos + inputLength; LzxBuffer buffer = new LzxBuffer(input); if (readHeader) { if (buffer.ReadBits(1) == 1) { // Intel optimization header int hi = buffer.ReadBits(16); int lo = buffer.ReadBits(16); intelFileSize = (hi << 16) | lo; // System.out.println("Intel file size: " + intelFileSize); } readHeader = false; } int window_posn = windowPos; int window_size = windowSize; int R0 = this.R0; int R1 = this.R1; int R2 = this.R2; int togo = outputLength; int this_run, main_element, match_length, match_offset, length_footer, extra, verbatim_bits; int rundest, runsrc, copy_length, aligned_bits; // System.out.println("window_posn=" + window_posn); // System.out.println("window_size=" + window_size); // System.out.println("R0=" + R0); // System.out.println("R1=" + R1); // System.out.println("R2=" + R2); while (togo > 0) { // System.out.println("Togo: " + togo); if (blockRemaining == 0) { // System.out.println("Current block type: " + blockType); if (blockType == LzxBlockType.Uncompressed) { // realign bitstream to word if ((blockLength & 1) == 1) { input.ReadByte(); } buffer.Reset(); } int nextBlockType = buffer.ReadBits(3); if (nextBlockType > 3) { throw new Exception("Invalid block type: " + nextBlockType); } blockType = (LzxBlockType)nextBlockType; // System.out.println("New block type: " + blockType); int a = buffer.ReadBits(16); int b = buffer.ReadBits(8); blockLength = (a << 8) | b; blockRemaining = blockLength; // System.out.println("Block length: " + blockLength); switch (blockType) { case LzxBlockType.Aligned: for (int i = 0, j = 0; i < 8; ++i) { j = buffer.ReadBits(3); alignedTree.Length[i] = (byte)j; // System.out.println("I= " + i + ", J=" + j); } alignedTree.MakeDecodeTable(); /* * Rest of aligned header is the same as verbatim, * fall through case. */ goto case LzxBlockType.Verbatim; case LzxBlockType.Verbatim: ReadLengths(mainTree.Length, 0, 256, buffer); ReadLengths(mainTree.Length, 256, mainElementCount, buffer); mainTree.MakeDecodeTable(); if (mainTree.Length[0xE8] != 0) { intelStarted = true; } ReadLengths(lengthTree.Length, 0, NumSecondaryLengths, buffer); lengthTree.MakeDecodeTable(); break; case LzxBlockType.Uncompressed: intelStarted = true; /* because we can't assume otherwise */ buffer.EnsureBits(16); /* get up to 16 pad bits into the buffer */ if (buffer.RemainingBits > 16) { input.BaseStream.Position -= 2; /* and align the bitstream! */ } byte hi, mh, ml, lo; lo = input.ReadByte(); ml = input.ReadByte(); mh = input.ReadByte(); hi = input.ReadByte(); R0 = (int)(lo | ml << 8 | mh << 16 | hi << 24); lo = input.ReadByte(); ml = input.ReadByte(); mh = input.ReadByte(); hi = input.ReadByte(); R1 = (int)(lo | ml << 8 | mh << 16 | hi << 24); lo = input.ReadByte(); ml = input.ReadByte(); mh = input.ReadByte(); hi = input.ReadByte(); R2 = (int)(lo | ml << 8 | mh << 16 | hi << 24); break; default: throw new Exception("Unknown block type " + blockType); } } /* buffer exhaustion check */ if ((int)input.BaseStream.Position > (startpos + inputLength)) { /* * it's possible to have a file where the next run is less than * 16 bits in size. In this case, the READ_HUFFSYM() macro used * in building the tables will exhaust the buffer, so we should * allow for this, but not allow those accidentally read bits to * be used (so we check that there are at least 16 bits * remaining - in this boundary case they aren't really part of * the compressed data) */ // System.out.println("WTF"); if ((int)input.BaseStream.Position > (startpos + inputLength + 2) || buffer.RemainingBits < 16) { throw new Exception(); } } while ((this_run = (int)blockRemaining) > 0 && togo > 0) { if (this_run > togo) { this_run = togo; } togo -= this_run; blockRemaining -= this_run; /* apply 2^x-1 mask */ window_posn &= window_size - 1; // System.out.println("this_run= " + this_run); // System.out.println("togo= " + togo); // System.out.println("blockRemaining= " + blockRemaining); // System.out.println("window_posn= " + window_posn); // System.out.println("window_size= " + window_size); /* runs can't straddle the window wraparound */ if ((window_posn + this_run) > window_size) { throw new Exception("(window_posn + this_run) > window_size"); } switch (blockType) { case LzxBlockType.Verbatim: while (this_run > 0) { main_element = mainTree.ReadHuffSym(buffer); // main_element = (int)ReadHuffSym(m_state.MAINTREE_table, m_state.MAINTREE_len, // LzxConstants.MAINTREE_MAXSYMBOLS, LzxConstants.MAINTREE_TABLEBITS, // bitbuf); if (main_element < NumChars) { /* literal: 0 to NUM_CHARS-1 */ window[window_posn++] = (byte)main_element; this_run--; } else { /* match: NUM_CHARS + ((slot<<3) | length_header (3 bits)) */ main_element -= NumChars; match_length = main_element & NumPrimaryLengths; if (match_length == NumPrimaryLengths) { // length_footer = (int)ReadHuffSym(m_state.LENGTH_table, m_state.LENGTH_len, // LzxConstants.LENGTH_MAXSYMBOLS, LzxConstants.LENGTH_TABLEBITS, // bitbuf); length_footer = lengthTree.ReadHuffSym(buffer); match_length += length_footer; } match_length += MinMatch; match_offset = main_element >> 3; if (match_offset > 2) { /* not repeated offset */ if (match_offset != 3) { extra = extraBits[match_offset]; verbatim_bits = (int)buffer.ReadBits(extra); match_offset = (int)positionBase[match_offset] - 2 + verbatim_bits; } else { match_offset = 1; } /* update repeated offset LRU queue */ R2 = R1; R1 = R0; R0 = match_offset; } else if (match_offset == 0) { match_offset = (int)R0; } else if (match_offset == 1) { match_offset = (int)R1; R1 = R0; R0 = match_offset; } else /* match_offset == 2 */ { match_offset = (int)R2; R2 = R0; R0 = match_offset; } rundest = (int)window_posn; this_run -= match_length; /* copy any wrapped around source data */ if (window_posn >= match_offset) { /* no wrap */ runsrc = rundest - match_offset; } else { runsrc = rundest + ((int)window_size - match_offset); copy_length = match_offset - (int)window_posn; if (copy_length < match_length) { match_length -= copy_length; window_posn += copy_length; while (copy_length-- > 0) { window[rundest++] = window[runsrc++]; } runsrc = 0; } } window_posn += match_length; /* copy match data - no worries about destination wraps */ while (match_length-- > 0) { window[rundest++] = window[runsrc++]; } } } break; case LzxBlockType.Aligned: while (this_run > 0) { // main_element = (int)ReadHuffSym(m_state.MAINTREE_table, m_state.MAINTREE_len, // LzxConstants.MAINTREE_MAXSYMBOLS, LzxConstants.MAINTREE_TABLEBITS, // bitbuf); main_element = mainTree.ReadHuffSym(buffer); // System.err.println("main_element= " + main_element); // System.err.println("this_run= " + this_run); if (main_element < NumChars) { /* literal 0 to NUM_CHARS-1 */ window[window_posn++] = (byte)main_element; this_run--; } else { /* match: NUM_CHARS + ((slot<<3) | length_header (3 bits)) */ main_element -= NumChars; match_length = main_element & NumPrimaryLengths; // System.err.println("match_length= " + match_length); if (match_length == NumPrimaryLengths) { // length_footer = (int)ReadHuffSym(m_state.LENGTH_table, m_state.LENGTH_len, // LzxConstants.LENGTH_MAXSYMBOLS, LzxConstants.LENGTH_TABLEBITS, // bitbuf); length_footer = lengthTree.ReadHuffSym(buffer); // System.err.println("length_footer= " + length_footer); match_length += length_footer; } match_length += MinMatch; match_offset = main_element >> 3; // System.err.println("match_offset= " + match_offset); if (match_offset > 2) { /* not repeated offset */ extra = extraBits[match_offset]; match_offset = (int)positionBase[match_offset] - 2; if (extra > 3) { /* verbatim and aligned bits */ extra -= 3; verbatim_bits = (int)buffer.ReadBits(extra); match_offset += (verbatim_bits << 3); // aligned_bits = (int)ReadHuffSym(m_state.ALIGNED_table, m_state.ALIGNED_len, // LzxConstants.ALIGNED_MAXSYMBOLS, LzxConstants.ALIGNED_TABLEBITS, // bitbuf); aligned_bits = alignedTree.ReadHuffSym(buffer); match_offset += aligned_bits; } else if (extra == 3) { /* aligned bits only */ // aligned_bits = (int)ReadHuffSym(m_state.ALIGNED_table, m_state.ALIGNED_len, // LzxConstants.ALIGNED_MAXSYMBOLS, LzxConstants.ALIGNED_TABLEBITS, // bitbuf); aligned_bits = alignedTree.ReadHuffSym(buffer); match_offset += aligned_bits; } else if (extra > 0) /* extra==1, extra==2 */ { /* verbatim bits only */ verbatim_bits = buffer.ReadBits(extra); match_offset += verbatim_bits; } else /* extra == 0 */ { /* ??? */ match_offset = 1; } /* update repeated offset LRU queue */ R2 = R1; R1 = R0; R0 = match_offset; } else if (match_offset == 0) { match_offset = (int)R0; } else if (match_offset == 1) { match_offset = (int)R1; R1 = R0; R0 = match_offset; } else /* match_offset == 2 */ { match_offset = (int)R2; R2 = R0; R0 = match_offset; } rundest = (int)window_posn; this_run -= match_length; /* copy any wrapped around source data */ if (window_posn >= match_offset) { /* no wrap */ runsrc = rundest - match_offset; } else { runsrc = rundest + ((int)window_size - match_offset); copy_length = match_offset - (int)window_posn; if (copy_length < match_length) { match_length -= copy_length; window_posn += copy_length; while (copy_length-- > 0) { window[rundest++] = window[runsrc++]; } runsrc = 0; } } window_posn += match_length; /* copy match data - no worries about destination wraps */ while (match_length-- > 0) { window[rundest++] = window[runsrc++]; } } } break; case LzxBlockType.Uncompressed: if (((int)input.BaseStream.Position + this_run) > endpos) { throw new Exception("(input.position() + this_run) > endpos"); } // byte[] temp_buffer = new byte[this_run]; // inData.Read(temp_buffer, 0, this_run); // temp_buffer.CopyTo(window, (int)window_posn); // input.get(window, window_posn, window.length - window_posn); input.Read(window, window_posn, this_run); window_posn += this_run; break; default: throw new Exception("Invalid block type: " + blockType); } } } if (togo != 0) { throw new Exception("togo != 0"); } int start_window_pos = (int)window_posn; if (start_window_pos == 0) { start_window_pos = (int)window_size; } start_window_pos -= outputLength; // System.out.println("start_window_pos= " + start_window_pos); // System.out.println("outputLength= " + outputLength); // System.out.println("input.position= " + input.position()); outputWriter.Write(window, start_window_pos, outputLength); // outData.Write(window, start_window_pos, outLen); this.windowPos = window_posn; this.R0 = R0; this.R1 = R1; this.R2 = R2; // TODO finish intel E8 decoding /* intel E8 decoding */ if ((framesRead++ < 32768) && intelFileSize != 0) { if (outputLength <= 6 || !intelStarted) { intelCurrentPosition += outputLength; } else { int dataend = outputLength - 10; int curpos = intelCurrentPosition; intelCurrentPosition = (int)curpos + outputLength; while ((int)output.Position < dataend) { if (outputReader.ReadByte() != 0xE8) { curpos++; continue; } } } // TODO: Is this an error? // return -1; } // return 0; }