I want to encode/compress some binary image data as a sequence if bits. (This sequence will, in general, have a length that does not fit neatly in a whole number of standard integer types.)

How can I do this without wasting space? (I realize that, unless the sequence of bits has a "nice" length, there will always have to be a small amount [< 1 byte] of leftover space at the very end.)

FWIW, I estimate that, at most, 3 bits will be needed per symbol that I want to encode. Does Python have any built-in tools for this kind of work?

3 Answers 3


There's nothing very convenient built in but there are third-party modules such as bitstring and bitarray which are designed for this.

from bitstring import BitArray
s = BitArray('0b11011')
s += '0b100'
s += 'uint:5=9'
s += [0, 1, 1, 0, 1]

To join together a sequence of 3-bit numbers (i.e. range 0->7) you could use

>>> symbols = [0, 4, 5, 3, 1, 1, 7, 6, 5, 2, 6, 2]
>>> BitArray().join(BitArray(uint=x, length=3) for x in symbols)
>>> _.tobytes()
'\x12\xb2~\xab '

Some related questions:


have you tried simply compressing the whole sequence with bz2? If the sequence is long you should use the bz2.BZ2Compressor to allow chunked processing, otherwise use bz2.compress on the whole thing. The compression will probably not be ideal but will typically get very close when dealing with sparse data.

hope that helps.

  • 1
    I think he wants to write his own Huffman coding or something like that. Feb 21, 2011 at 13:42

Since you have a mapping from symbols to 3-bit string, bitarray does a nice job of encoding and decoding lists of symbols to and from arrays of bits:

from bitarray import bitarray
from random import choice

symbols = {
    '0' : bitarray('000'),
    'a' : bitarray('001'),
    'b' : bitarray('010'),
    'c' : bitarray('011'),
    'd' : bitarray('100'),
    'e' : bitarray('101'),
    'f' : bitarray('110'),
    'g' : bitarray('111'),

seedstring = ''.join(choice(symbols.keys()) for _ in range(40))

# construct bitarray using symbol->bitarray mapping
ba = bitarray()
ba.encode(symbols, seedstring)

print seedstring
print ba

# what does bitarray look like internally?
ba_string = ba.tostring()
print repr(ba_string)
print len(ba_string)


bitarray('10111101000010001010101001101110010100... etc.

You can see that this 40-symbol list (120 bits) gets encoded into a 15-byte bitarray.

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