示例#1
0
 /// <summary>
 /// Gets the optimal compression lengths for each start of a compressed block using Dynamic Programming.
 /// This takes O(n^2) time, although in practice it will often be O(n^3) since one of the constants is 0x10110
 /// (the maximum length of a compressed block)
 /// </summary>
 /// <param name="indata">The data to compress.</param>
 /// <param name="inLength">The length of the data to compress.</param>
 /// <param name="lengths">The optimal 'length' of the compressed blocks. For each byte in the input data,
 /// this value is the optimal 'length' value. If it is 1, the block should not be compressed.</param>
 /// <param name="disps">The 'disp' values of the compressed blocks. May be 0, in which case the
 /// corresponding length will never be anything other than 1.</param>
 private unsafe static void GetOptimalCompressionLengths(byte *indata, int inLength, out int[] lengths, out int[] disps)
 {
     lengths = new int[inLength];
     disps   = new int[inLength];
     int[] minLengths = new int[inLength];
     for (int i = inLength - 1; i >= 0; i--)
     {
         // first get the compression length when the next byte is not compressed
         minLengths[i] = int.MaxValue;
         lengths[i]    = 1;
         if (i + 1 >= inLength)
         {
             minLengths[i] = 1;
         }
         else
         {
             minLengths[i] = 1 + minLengths[i + 1];
         }
         // then the optimal compressed length
         int oldLength = Math.Min(0x1000, i);
         // get the appropriate disp while at it. Takes at most O(n) time if oldLength is considered O(n) and 0x10110 constant.
         // however since a lot of files will not be larger than 0x10110, this will often take ~O(n^2) time.
         // be sure to bound the input length with 0x10110, as that's the maximum length for LZ-11 compressed blocks.
         int maxLen = LZUtil.GetOccurrenceLength(indata + i, Math.Min(inLength - i, 0x10110),
                                                 indata + i - oldLength, oldLength, out disps[i]);
         if (disps[i] > i)
         {
             throw new Exception("disp is too large");
         }
         for (int j = 3; j <= maxLen; j++)
         {
             int blocklen;
             if (j > 0x110)
             {
                 blocklen = 4;
             }
             else if (j > 0x10)
             {
                 blocklen = 3;
             }
             else
             {
                 blocklen = 2;
             }
             int newCompLen;
             if (i + j >= inLength)
             {
                 newCompLen = blocklen;
             }
             else
             {
                 newCompLen = blocklen + minLengths[i + j];
             }
             if (newCompLen < minLengths[i])
             {
                 lengths[i]    = j;
                 minLengths[i] = newCompLen;
             }
         }
     }
     // we could optimize this further to also optimize it with regard to the flag-bytes, but that would require 8 times
     // more space and time (one for each position in the block) for only a potentially tiny increase in compression ratio.
 }
示例#2
0
        /// <summary>
        /// Compresses the input using the 'original', unoptimized compression algorithm.
        /// This algorithm should yield files that are the same as those found in the games.
        /// (delegates to the optimized method if LookAhead is set)
        /// </summary>
        public unsafe static int Compress(Stream instream, long inLength, Stream outstream, bool original)
        {
            // make sure the decompressed size fits in 3 bytes.
            // There should be room for four bytes, however I'm not 100% sure if that can be used
            // in every game, as it may not be a built-in function.
            if (inLength > 0xFFFFFF)
            {
                throw new InputTooLargeException();
            }
            // use the other method if lookahead is enabled
            if (!original)
            {
                return(CompressWithLA(instream, inLength, outstream));
            }
            // save the input data in an array to prevent having to go back and forth in a file
            byte[] indata       = new byte[inLength];
            int    numReadBytes = instream.Read(indata, 0, (int)inLength);

            if (numReadBytes != inLength)
            {
                throw new StreamTooShortException();
            }
            // write the compression header first
            outstream.WriteByte(0x11);
            outstream.WriteByte((byte)(inLength & 0xFF));
            outstream.WriteByte((byte)((inLength >> 8) & 0xFF));
            outstream.WriteByte((byte)((inLength >> 16) & 0xFF));
            int compressedLength = 4;

            fixed(byte *instart = &indata[0])
            {
                // we do need to buffer the output, as the first byte indicates which blocks are compressed.
                // this version does not use a look-ahead, so we do not need to buffer more than 8 blocks at a time.
                // (a block is at most 4 bytes long)
                byte[] outbuffer = new byte[8 * 4 + 1];
                outbuffer[0] = 0;
                int bufferlength = 1, bufferedBlocks = 0;
                int readBytes = 0;

                while (readBytes < inLength)
                {
                    #region If 8 blocks are bufferd, write them and reset the buffer
                    // we can only buffer 8 blocks at a time.
                    if (bufferedBlocks == 8)
                    {
                        outstream.Write(outbuffer, 0, bufferlength);
                        compressedLength += bufferlength;
                        // reset the buffer
                        outbuffer[0]   = 0;
                        bufferlength   = 1;
                        bufferedBlocks = 0;
                    }
                    #endregion
                    // determine if we're dealing with a compressed or raw block.
                    // it is a compressed block when the next 3 or more bytes can be copied from
                    // somewhere in the set of already compressed bytes.
                    int disp;
                    int oldLength = Math.Min(readBytes, 0x1000);
                    int length    = LZUtil.GetOccurrenceLength(instart + readBytes, (int)Math.Min(inLength - readBytes, 0x10110),
                                                               instart + readBytes - oldLength, oldLength, out disp);
                    // length not 3 or more? next byte is raw data
                    if (length < 3)
                    {
                        outbuffer[bufferlength++] = *(instart + (readBytes++));
                    }
                    else
                    {
                        // 3 or more bytes can be copied? next (length) bytes will be compressed into 2 bytes
                        readBytes += length;
                        // mark the next block as compressed
                        outbuffer[0] |= (byte)(1 << (7 - bufferedBlocks));
                        if (length > 0x110)
                        {
                            // case 1: 1(B CD E)(F GH) + (0x111)(0x1) = (LEN)(DISP)
                            outbuffer[bufferlength]  = 0x10;
                            outbuffer[bufferlength] |= (byte)(((length - 0x111) >> 12) & 0x0F);
                            bufferlength++;
                            outbuffer[bufferlength] = (byte)(((length - 0x111) >> 4) & 0xFF);
                            bufferlength++;
                            outbuffer[bufferlength] = (byte)(((length - 0x111) << 4) & 0xF0);
                        }
                        else if (length > 0x10)
                        {
                            // case 0; 0(B C)(D EF) + (0x11)(0x1) = (LEN)(DISP)
                            outbuffer[bufferlength]  = 0x00;
                            outbuffer[bufferlength] |= (byte)(((length - 0x111) >> 4) & 0x0F);
                            bufferlength++;
                            outbuffer[bufferlength] = (byte)(((length - 0x111) << 4) & 0xF0);
                        }
                        else
                        {
                            // case > 1: (A)(B CD) + (0x1)(0x1) = (LEN)(DISP)
                            outbuffer[bufferlength] = (byte)(((length - 1) << 4) & 0xF0);
                        }
                        // the last 1.5 bytes are always the disp
                        outbuffer[bufferlength] |= (byte)(((disp - 1) >> 8) & 0x0F);
                        bufferlength++;
                        outbuffer[bufferlength] = (byte)((disp - 1) & 0xFF);
                        bufferlength++;
                    }
                    bufferedBlocks++;
                }
                // copy the remaining blocks to the output
                if (bufferedBlocks > 0)
                {
                    outstream.Write(outbuffer, 0, bufferlength);
                    compressedLength += bufferlength;

                    /*/ make the compressed file 4-byte aligned.
                     * while ((compressedLength % 4) != 0)
                     * {
                     * outstream.WriteByte(0);
                     * compressedLength++;
                     * }/**/
                }
            }

            return(compressedLength);
        }