I have strings (millions of them) of 2,475 characters in size each. These strings are consisting of 0 & 1. I am converting each string to ASCII and back, so 8 initial chars become 1. This give me a much shorter length of 310 chars. But as this length is still big enough I have tried some additional compression of the already shortened string. I have used Huffman Encoding/Decoding with not so important results. I have also tried an RLE approach with better results (encoding between 205 to 212) chars over the already existing strings. But here is my problem! As I do not know the strings beforehand I am looking for a compression/decompression algorithm that produces fixed length output. Does something like that exist? I have searched also about Endless compression but without finding any solid suggestions/algorithms. Any idea will be welcomed.
If the only thing you know about the strings is that they each consist of 2475 characters and that every character is 0 or 1, then there is no fixed-length compression scheme that does better than 2475 bits (310 bytes, with 5 bits ignored). It's simple to prove that no such compression scheme can exist, since there are 22475 possible strings, and they all need to have different codes (if the compression is to be reversible). However, the shortest bit sequences which has 22475 different possible values is 2475 bits long. QED.
Of course, if some 2475-character sequences are not possible, then you can compress more by not reserving any compressed value for illegal sequences. However, in order to create an appropriate compression algorithm, you need to know what sequences are impossible, and customize the compression algorithm accordingly. So there is no general purpose algorithm.
General purpose compression algorithms do not have fixed length output because they stochastically compress certain strings to varying degrees, while other strings are compressed negatively (that is, expanded). The assumption is that all strings have some sort of internal pattern, typically a repetition pattern, and the compression can take advantage of repetitions to reduce length. To compensate, a non-repeating string will end up being expanded.