bitstring is a Python package designed to help make the creation and analysis of binary data as simple and natural as possible.

It has been maintained since 2006 and now has many millions of downloads per year. You can try out the interactive walkthrough notebook on binder, or take a look at the static version.

This version concentrates on what is perhaps bitstring's major weakness - speed. It's always been a pure Python module with no dependencies, which has a few advantages, but means it can't compete with C-coded extensions in terms of raw speed of operation.

Version 4.1 of bitstring has been rewritten to use the bitarray type from the package of the same name as its underlying data type. This lets us keep the API and functionality of bitstring but gains (most of) the speed of bitarray. Huge kudos to Ilan Schnell for all his work on bitarray over the last 15 or so years.

The 4.1 beta should be fully functional - there are no known issues. To install the beta you need to specify the precise version:

python -m pip install bitstring==4.1.0b1

Please try it out and report any problems or observations. You shouldn't need to change any code - everything should just work the same as version 4.0, just faster.

• Create bitstrings from hex, octal, binary, files, formatted strings, bytes, integers and floats of different endiannesses.
• Powerful binary packing and unpacking functions.
• Bit-level slicing, joining, searching, replacing and more.
• Read from and interpret bitstrings as streams of binary data.
• Rich API - chances are that whatever you want to do there's a simple and elegant way of doing it.
• Open source software, released under the MIT licence.

Note
Version 4 of bitstring only supports Python 3.7 and later.
Use bitstring version 3.1 if you're using Python 2.7 or 3.6 or earlier.

The manual for the bitstring module is available at Read the Docs. It contains a walk-through of all the features and a complete reference section.

$ pip install bitstring

 >>> from bitstring import Bits, BitArray, BitStream, pack
 >>> a = BitArray(bin='00101')
 >>> b = Bits(a_file_object)
 >>> c = BitArray('0xff, 0b101, 0o65, uint6=22')
 >>> d = pack('intle16, hex=a, 0b1', 100, a='0x34f')
 >>> e = pack('<16h', *range(16))

 >>> a = BitArray('0x3348')
 >>> a.hex, a.bin, a.uint, a.float, a.bytes
 ('3348', '0011001101001000', 13128, 0.2275390625, b'3H')
 >>> a[10:3:-1].bin
 '0101100'
 >>> '0b100' + 3*a
 BitArray('0x866906690669, 0b000')

 >>> b = BitStream('0x160120f')
 >>> b.read(12).hex
 '160'
 >>> b.pos = 0
 >>> b.read('uint12')
 352
 >>> b.readlist('uint12, bin3')
 [288, '111']

 >>> c = BitArray('0b00010010010010001111')   # c.hex == '0x1248f'
 >>> c.find('0x48')
 (8,)
 >>> c.replace('0b001', '0xabc')
 >>> c.insert('0b0000', pos=3)
 >>> del c[12:16]

• New Python 3.7 minimum requirement. The code has been updated with type hints and legacy code removed.

• Shorter and more versative properties are available.

  >>> a = BitArray('u8=20')
  >>> a += '0b0011, f16=5.52'
  >>> a[12:].f16
  5.51953125
  

• A useful new pretty printing method. Gives a formatted view of a singe or two interpretations of the binary data.

  >>> a = Bits(bytes=b'hello world!!')
  >>> a.pp('bin, hex', width=40)
    0: 01101000 01100101   68 65
   16: 01101100 01101100   6c 6c
   32: 01101111 00100000   6f 20
   48: 01110111 01101111   77 6f
   64: 01110010 01101100   72 6c
   80: 01100100 00100001   64 21
   96: 00100001            21   
  

• LSB0 option (beta). This indexes the bits with the least significant bit being bit zero. This is the opposite way to the standard Python containers but is usual in some relevant fields.

  >>> bitstring.lsb0 = True
  >>> s = BitArray('0b00000')
  >>> s[0] = 1
  >>> s.bin
  '00001'
  

  This feature is still considered a beta as there may be issues with edge cases, especially around the interaction with the 'stream' features of the BitStream and ConstBitStream classes. For most usage cases it should be solid though, so please report any bugs in the issue tracker.

• Command line usage. Useful for quick interpretations of binary data.

    $ python -m bitstring int:16=-400
    0xfe70
  

• Support for 16 bit floating point types (both IEEE and bfloat).

The 600+ unit tests should all pass. They can be run from the root of the project with

 python -m unittest

Created by Scott Griffiths in 2006 to help with ad hoc parsing and creation of compressed video files. Maintained and expanded ever since as it became unexpectedly popular. Thanks to all those who have contributed ideas and code (and bug reports) over the years.

_{Copyright (c) 2006 - 2023 Scott Griffiths}