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I've got a bytestring "\x56\x20", which is two sets of data, a (12 bits) and b (4 bits).

The unpacked data is expected to be:

a = 86 b = 2


a = int("056", 16)
b = int("2", 16)

I know I can use binascii to convert the bytestring to a hex string and then work slice magic on it, but that seems messy.

I looked at struct but couldn't figure out a method to split out 12 bits/4 bits.

>>> import binascii
>>> two_octets = "\x56\x20"
>>> hex_str = binascii.hexlify(two_octets)
>>> temp_a, temp_b = hex_str[:2], hex_str[2:]
>>> a_part, b_part = reversed([c for c in temp_b])
>>> int(a_part + temp_a, 16)
>>> int(b_part, 16)

Is there a cleaner way?

share|improve this question
If \x56\x20 is to be split in a 12 and a 4 bit section, you get 1378 and 0, not 86 and 2.. Unless this is little-endian, and thus should be interpreted as \x20\x56 really. –  Martijn Pieters Oct 12 '12 at 6:57
good point, I'm just looking at the raw bytes in a hex editor, so yes it appears it should be \x20\x56. –  monkut Oct 12 '12 at 7:03

3 Answers 3

up vote 3 down vote accepted

You appear to be interpreting the data as little-endian. To decode, decode with struct, then use bitshifting and a mask to interpret them:

import struct
two_octets = '\x56\x20'
values = struct.unpack('<H', two_octets)[0]
a = values & 0xFFF  # Select right-most 12 bits
b = values >> 12    # Select left-most 4 bits
share|improve this answer
Why the downvote, what is not helpful about my post? I'd love to improve my answer. Using bitshifting and masking is the normal way you go about this task, outside of using an external module. –  Martijn Pieters Oct 12 '12 at 7:30
wasn't me... it's my up vote atm. –  monkut Oct 12 '12 at 7:49
@monkut: It's fine. :-) I'm surprised at the downvote, that's all. As documented in the Python datamodel, python integers explicitly support bitmasking and shifting, because it's the accepted way of dealing with situations like these (also see wiki.python.org/moin/BitManipulation). –  Martijn Pieters Oct 12 '12 at 7:54
ok, say I have a definition for these fields, something like fields = (12, 4). given that definition is there a programmatic way to get the mask? –  monkut Oct 12 '12 at 8:33
@monkut: Sure: mask = (2 ** fields[0]) - 1. –  Martijn Pieters Oct 12 '12 at 8:41

For binary analysis of non whole-byte data an external module like bitstring might help (it certainly will when things get more complicated than this):

>>> from bitstring import BitArray
>>> a = BitArray(bytes='\x20\x56')
>>> a.unpack('uint:4, uint:12')
[2, 86]
share|improve this answer
thanks! Looks nice, but I want to stick to the standard lib for this. –  monkut Oct 12 '12 at 7:15
>>> import struct
>>> divmod(struct.unpack('<H', '\x56\x20')[0], 2 ** 12)
(2, 86)
share|improve this answer
what black magic is this? –  monkut Oct 12 '12 at 7:12
If your about divmod function, it just return tuple (a / b, a % b). –  defuz Oct 12 '12 at 7:14
Really, divmod? Too-clever-by-half, this would be thrown out in a codereview. –  Martijn Pieters Oct 12 '12 at 7:32
@MartijnPieters, please, can you explain what you mean? –  defuz Oct 12 '12 at 7:41
Using divmod to extract the two separate values from the two bytes, is perhaps a semi-clever, but is far removed from the normal way of dealing with such bytes. It makes your code un-maintainable, I would expect a semi-experienced developer to understand bitshifting and masking, but when encountering this trick would require a lot more head-scratching than is strictly necessary. Thus, if I came across this in a code-review, I would reject it or replace it with a bitshift-and-mask operation instead. –  Martijn Pieters Oct 12 '12 at 7:50

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