Results for "Author: jesper soderberg"

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.

This is a standard LZSS compression/decompression engine. It is written in VB for learning purposes, and should be converted to C/C++ if it is to be used with large amounts of data. It uses a dictionary compression algorithm (like ZIP,ARJ and others) and works the best on data with a lot of repetitions.