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I am compressing strings with zlib and a dictionary with power 9 and this is the script:

import zlib

__doc__ = """

rly this small py em ell thon... !? ha he hahaha hehehe h4ck3r wassup how ar u let's go lets go common c'mon...!!! ad


class Compressor(object):
    def __init__(self, seed):
        c = zlib.compressobj(9)
        d_seed = c.compress(seed)
        d_seed += c.flush(zlib.Z_SYNC_FLUSH)
        self.c_context = c.copy()

        d = zlib.decompressobj()
        while d.unconsumed_tail:
        self.d_context = d.copy()

    def compress(self, text):
        c = self.c_context.copy()
        t = c.compress(text)
        t2 = c.flush(zlib.Z_FINISH)
        return t + t2

    def decompress(self, ctext):
        d = self.d_context.copy()
        t = d.decompress(ctext)
        while d.unconsumed_tail:
            t += d.decompress(d.unconsumed_tail)
        return t

c = Compressor(__doc__)

compressed_string = c.compress(string)

print compressed_string

string = "I installed python, and it's very nice and easy to use!"
compressed = c.compress(string)

print c.decompress(compressed)

My question is: From the resulting compressed_string how do you remove extra 'cuff' such as the header and last 4 ADLER bytes that is then appended later when decompressing? Correct me if I'm wrong in some definitions.

Like 12h3d78e23gdh278qs98qwjsj89qs1234 (where 12 is the theoretical 2 bytes header and 1234 the theoretical ADLER part at the end of the string) becomes h3d78e23gdh278qs98qwjsj89qs and is then rebuilt when zlib has to decompress with something like

to_decompress = '12',compressed,'1234' 
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1 Answer 1

You already effectively stripped the header, since it resides in the first two bytes of d_seed. You don't need to and should not strip the Adler-32 check, since if you reconstruct the compressed stream properly, the Adler-32 will provide an integrity check.

You just need to prepend d_seed to the transmitted data, and then decompress the result normally.

If you're using Python 3.3 or later, the better way to do this is to use zlib to do the dictionary thing for you. The last argument of zlib.compressobj() and the last argument ofzlib.decompressobj() can be the dictionary. Then you also get an integrity check of the provided dictionary, to help verify that you're providing the same dictionary on the decompression end that was used on the compression end. The stream is then a standard zlib stream for which a dictionary was used, and so is more portable and recognizable.

If you really want to squeeze out a measly six bytes (not recommended since you lose the integrity check), or really just four bytes since you already stripped the header, then use -15 as the wbits argument to zlib.*compressobj(). That will suppress the zlib header and trailer. (Also requires 3.3.)

share|improve this answer
Background: I believe the OP wanted to forgo the checksum to try and produce as compact a compressed string as possible (chasing compression ratios for small strings). They were discussing their goals in the Python chat room. –  Martijn Pieters Jun 11 '14 at 16:29
worth to mention that the zdict argument of compressobj & decompressobj are usable only on python 3.3 and above –  Xavier Combelle Jun 11 '14 at 16:39
Thanks. Mentioned. –  Mark Adler Jun 11 '14 at 16:51

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