jerryjliu / dahuffman

Python Module for Huffman Encoding and Decoding

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dahuffman - Python Module for Huffman Encoding and Decoding


dahuffman is a pure Python module for Huffman encoding and decoding, commonly used for lossless data compression.

The name of the module refers to the full name of the inventor of the Huffman code tree algorithm: David Albert Huffman (August 9, 1925 – October 7, 1999).

Features and design

  • Pure Python implementation, only using standard library.
  • Leverages iterators and generators internally, allows to be used in streaming fashion.
  • Not limited to byte/unicode string input, can handle other "symbols" or tokens, for example chess moves or sequences of categorical data, as long as these symbols can be used as keys in dictionaries (meaning they should be hashable).
  • properly handle end of encoded bit stream if it does not align with byte boundaries
  • supports both Python 2.7 and Python 3.6

Installation

pip install dahuffman

Usage

Basic usage example, where the code table is built based on given symbol frequencies:

>>> from dahuffman import HuffmanCodec
>>> codec = HuffmanCodec.from_frequencies({'e': 100, 'n':20, 'x':1, 'i': 40, 'q':3})
>>> encoded = codec.encode('exeneeeexniqneieini')
>>> encoded
b'\x86|%\x13i@'
>>> len(encoded)
6
>>> codec.decode(encoded)
'exeneeeexniqneieini'
>>> codec.print_code_table()
bits  code       (value)  symbol
   5  00000      (    0)  _EOF
   1  1          (    1)  'e'
   2  01         (    1)  'i'
   3  001        (    1)  'n'
   4  0001       (    1)  'q'
   5  00001      (    1)  'x'

You can also "train" the codec by providing it data directly:

>>> codec = HuffmanCodec.from_data('hello world how are you doing today foo bar lorem ipsum')
>>> codec.encode('do lo er ad od')
b'^O\x1a\xc4S\xab\x80'
>>> len(_)
7

Using it with sequences of symbols (country codes in this example):

>>> countries = ['FR', 'UK', 'BE', 'IT', 'FR', 'IT', 'GR', 'FR', 'NL', 'BE', 'DE']
>>> codec = HuffmanCodec.from_data(countries)
>>> encoded = codec.encode(['FR', 'IT', 'BE', 'FR', 'UK'])
>>> encoded
b'L\xca'
>>> len(encoded)
2
>>> codec.decode(encoded)
['FR', 'IT', 'BE', 'FR', 'UK']

Doing it in a streaming fashion (generators):

>>> import random
>>> def sample(n, symbols):
...     for i in range(n):
...             if (n-i) % 5 == 1:
...                     print(i)
...             yield random.choice(symbols)
...
>>> codec = HuffmanCodec.from_data(countries)
>>> encoded = codec.encode_streaming(sample(16, countries))
>>> encoded
<generator object encode_streaming at 0x108bd82d0>
>>> decoded = codec.decode_streaming(encoded)
>>> decoded
<generator object decode_streaming at 0x108bd8370>
>>> list(decoded)
0
5
10
15
['DE', 'BE', 'FR', 'GR', 'UK', 'BE', 'UK', 'IT', 'UK', 'FR', 'DE', 'IT', 'NL', 'IT', 'FR', 'UK']

About

Python Module for Huffman Encoding and Decoding

License:MIT License


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Language:Python 100.0%