What is the difference between array.array('B') and bytearray?

from array import array

a = array('B', 'abc')
b = bytearray('abc')

a[0] = 100
b[0] = 'd'

print a
print b

Are there any memory or speed differences? What is the preferred use case of each one?


bytearray is the successor of Python 2.x's string type. It's basically the built-in byte array type. Unlike the original string type, it's mutable.

The array module, on the other hand, was created to create binary data structures to communicate with the outside world (for example, to read/write binary file formats).

Unlike bytearray, it supports all kinds of array elements. It's flexible.

So if you just need an array of bytes, bytearray should work fine. If you need flexible formats (say when the element type of the array needs to be determined at runtime), array.array is your friend.

Without looking at the code, my guess would be that bytearray is probably faster since it doesn't have to consider different element types. But it's possible that array('B') returns a bytearray.

  • 15
    I'd actually say bytes is the successor of Python 2.x's str, not bytearray. – Sven Marnach Aug 9 '12 at 12:31
  • That isn't really that accurate either. Python 2.x's str is like a mix of Python 3.x's str and bytes. – Broseph Jul 3 '14 at 17:10
  • 1
    @Broseph: Well, bytes is a successor to 2.x's str targeting the "undifferentiated sequence of bytes" use case... – SamB Aug 12 '15 at 19:59

bytearray has all the usual str methods. You can thing of it as a mutable str (bytes in Python3)

While array.array is geared to reading and writing files. 'B' is just a special case for array.array

You can see there is quite a difference looking at the dir() of each

>>> dir(bytearray)
['__add__', '__alloc__', '__class__', '__contains__', '__delattr__',
 '__delitem__', '__doc__', '__eq__', '__format__', '__ge__', '__getattribute__',
 '__getitem__', '__gt__', '__hash__', '__iadd__', '__imul__', '__init__',
 '__iter__', '__le__', '__len__', '__lt__', '__mul__', '__ne__', '__new__',
 '__reduce__', '__reduce_ex__', '__repr__', '__rmul__', '__setattr__',
 '__setitem__', '__sizeof__', '__str__', '__subclasshook__', 'append',
 'capitalize', 'center', 'count', 'decode', 'endswith', 'expandtabs', 'extend',
 'find', 'fromhex', 'index', 'insert', 'isalnum', 'isalpha', 'isdigit', 'islower',
 'isspace', 'istitle', 'isupper', 'join', 'ljust', 'lower', 'lstrip', 'maketrans',
 'partition', 'pop', 'remove', 'replace', 'reverse', 'rfind', 'rindex', 'rjust',
 'rpartition', 'rsplit', 'rstrip', 'split', 'splitlines', 'startswith', 'strip',
 'swapcase', 'title', 'translate', 'upper', 'zfill']
>>> dir(array)
['__add__', '__class__', '__contains__', '__copy__', '__deepcopy__',
 '__delattr__', '__delitem__', '__doc__', '__eq__', '__format__', '__ge__',
 '__getattribute__', '__getitem__', '__gt__', '__hash__', '__iadd__', '__imul__', 
 '__init__', '__iter__', '__le__', '__len__', '__lt__', '__mul__', '__ne__',
 '__new__', '__reduce__', '__reduce_ex__', '__repr__', '__rmul__', '__setattr__',
 '__setitem__', '__sizeof__', '__str__', '__subclasshook__', 'append',
 'buffer_info', 'byteswap', 'count', 'extend', 'frombytes', 'fromfile',
 'fromlist', 'fromstring', 'fromunicode', 'index', 'insert', 'itemsize', 'pop',
 'remove', 'reverse', 'tobytes', 'tofile', 'tolist', 'tostring', 'tounicode',

Python Patterns - An Optimization Anecdote is a good read which points to array.array('B') as being fast. Using the timing() function from that essay does show that array.array('B') is faster than bytearray():

#!/usr/bin/env python

from array import array
from struct import pack
from timeit import timeit
from time import clock

def timing(f, n, a):
    start = clock()
    for i in range(n):
        f(a); f(a); f(a); f(a); f(a); f(a); f(a); f(a); f(a); f(a)
    finish = clock()
    return '%s\t%f' % (f.__name__, finish - start)

def time_array(addr):
    return array('B', addr)

def time_bytearray(addr):
    return bytearray(addr)

def array_tostring(addr):
    return array('B', addr).tostring()

def str_bytearray(addr):
    return str(bytearray(addr))

def struct_pack(addr):
    return pack('4B', *addr)

if __name__ == '__main__':
    count = 10000
    addr = ''
    addr = tuple([int(i) for i in addr.split('.')])
    print('\t\ttiming\t\tfunc\t\tno func')
    print('%s\t%s\t%s' % (timing(time_array, count, addr),
          timeit('time_array((192,168,4,2))', number=count, setup='from __main__ import time_array'),
          timeit("array('B', (192,168,4,2))", number=count, setup='from array import array')))
    print('%s\t%s\t%s' % (timing(time_bytearray, count, addr),
          timeit('time_bytearray((192,168,4,2))', number=count, setup='from __main__ import time_bytearray'),
          timeit('bytearray((192,168,4,2))', number=count)))
    print('%s\t%s\t%s' % (timing(array_tostring, count, addr),
          timeit('array_tostring((192,168,4,2))', number=count, setup='from __main__ import array_tostring'),
          timeit("array('B', (192,168,4,2)).tostring()", number=count, setup='from array import array')))
    print('%s\t%s\t%s' % (timing(str_bytearray, count, addr),
          timeit('str_bytearray((192,168,4,2))', number=count, setup='from __main__ import str_bytearray'),
          timeit('str(bytearray((192,168,4,2)))', number=count)))
    print('%s\t%s\t%s' % (timing(struct_pack, count, addr),
          timeit('struct_pack((192,168,4,2))', number=count, setup='from __main__ import struct_pack'),
          timeit("pack('4B', *(192,168,4,2))", number=count, setup='from struct import pack')))

The timeit measure actually shows array.array('B') is sometimes more than double the speed of bytearray()

I was interested specifically in the fastest way to pack an IP address into a four byte string for sorting. Looks like neither str(bytearray(addr)) nor array('B', addr).tostring() come close to the speed of pack('4B', *addr).

  • I believe packing an IP address to int would actually be even faster for sorting. – Lie Ryan Jul 30 '15 at 12:00
  • @LieRyan: Wouldn't that tend to either run into sign issues or involve multiple-precision arithmetic, though? – SamB Aug 12 '15 at 19:58

From my test, both used amostly same size of memory but the speed of bytearry is 1.5 times of array when I create a large buffer to read and write.

from array import array
from time import time

s = time()

map = array('B')
for i in xrange(256**4/8):

map = bytearray()
for i in xrange(256**4/8):
print "init:", time() - s
  • Could you give a bit more detail about your test workloads? – SamB Aug 11 '15 at 3:04
  • 1
    @SamB btw, are you a robot? – salmon Aug 11 '15 at 14:11
  • No, but I was going through one of the review queues -- probably the "late answers" one. Anyway, the number is certainly a lot more meaningful now, thanks. – SamB Aug 12 '15 at 19:48

One difference that has not been mentioned is that the end user string representations differs for bytearrays and arrays with type 'b'.

>>> import array
>>> arr = array.array('b', [104, 105])
>>> byte_arr = bytearray([104, 105])
>>> print(arr)
array('b', [104, 105])
>>> print(byte_arr)

This goes in line with the notion that bytearray is supposed to be Python3's (mutable) "raw" string type and assumes its data represents characters.


Another notable difference is that array.array has a tofile method for efficiently dumping data to a file which bytearray and bytes lack.


You almost never need to use array.array module yourself. It's usually used for creating binary data for binary file format or protocol, like the struct module.

bytearray is usually used for dealing with encoded text (e.g. utf-8, ascii, etc), as opposed to Python 3's str() or Python 2's unicode() which is used for Unicode text.

Most of the time, you should be using either str() when dealing with text, or list and tuple when you need a collection of items, including numbers.

  • 3
    Sorry, it is a @Lie. array.array is always useful whenever you need memory-efficient representation of a group of data. – RayLuo Apr 27 '13 at 13:14
  • 1
    @Iceberg: yeah, but most of the time you'd use tuple or list, or sometimes numpy. Rarely it is necessary or a good idea to use array.array(). – Lie Ryan Apr 28 '13 at 3:42
  • bytes is used for dealing with encoded text, similar to Python 2's str type. bytearray is a mutable version of bytes. – Antimony Dec 6 '15 at 17:26

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