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Is there anything in Python like Java's StringBuffer? Since strings are immutable in Python too, editing them in loops would be inefficient.

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You might get a similar effect by building a list of strings and using join() on it after the loop. But I'm sure there's a more pythonic way (probably involving list comprehension). – Joachim Sauer Nov 12 '13 at 10:02

Efficient String Concatenation in Python is a rather old article and its main statement that the naive concatenation is far slower than joining is not valid anymore, because this part has been optimized in CPython since then:

CPython implementation detail: If s and t are both strings, some Python implementations such as CPython can usually perform an in-place optimization for assignments of the form s = s + t or s += t. When applicable, this optimization makes quadratic run-time much less likely. This optimization is both version and implementation dependent. For performance sensitive code, it is preferable to use the str.join() method which assures consistent linear concatenation performance across versions and implementations. @ http://docs.python.org/2/library/stdtypes.html

I've adapted their code a bit and got the following results on my machine:

from cStringIO import StringIO
from UserString import MutableString
from array import array

import sys, timeit

def method1():
    out_str = ''
    for num in xrange(loop_count):
        out_str += `num`
    return out_str

def method2():
    out_str = MutableString()
    for num in xrange(loop_count):
        out_str += `num`
    return out_str

def method3():
    char_array = array('c')
    for num in xrange(loop_count):
    return char_array.tostring()

def method4():
    str_list = []
    for num in xrange(loop_count):
    out_str = ''.join(str_list)
    return out_str

def method5():
    file_str = StringIO()
    for num in xrange(loop_count):
    out_str = file_str.getvalue()
    return out_str

def method6():
    out_str = ''.join([`num` for num in xrange(loop_count)])
    return out_str

def method7():
    out_str = ''.join(`num` for num in xrange(loop_count))
    return out_str

loop_count = 80000

print sys.version

print 'method1=', timeit.timeit(method1, number=10)
print 'method2=', timeit.timeit(method2, number=10)
print 'method3=', timeit.timeit(method3, number=10)
print 'method4=', timeit.timeit(method4, number=10)
print 'method5=', timeit.timeit(method5, number=10)
print 'method6=', timeit.timeit(method6, number=10)
print 'method7=', timeit.timeit(method7, number=10)


2.7.1 (r271:86832, Jul 31 2011, 19:30:53) 
[GCC 4.2.1 (Based on Apple Inc. build 5658) (LLVM build 2335.15.00)]
method1= 0.171155929565
method2= 16.7158739567
method3= 0.420584917068
method4= 0.231794118881
method5= 0.323612928391
method6= 0.120429992676
method7= 0.145267963409


  • join still wins over concat, but marginally
  • list comprehensions are faster than loops
  • joining generators is slower than joining lists
  • other methods are of no use (unless you're doing something special)
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It may be worth nothing that the MutableString class has been deprecated in python 2.6 and removed entirely in Python 3. see here – Adam Oren Dec 25 '15 at 2:45

Depends on what you want to do. If you want a mutable sequence, the builtin list type is your friend, and going from str to list and back is as simple as:

 mystring = "abcdef"
 mylist = list(mystring)
 mystring = "".join(mylist)

If you want to build a large string using a for loop, the pythonic way is usually to build a list of strings then join them together with the proper separator (linebreak or whatever).

Else you can also use some text template system, or a parser or whatever specialized tool is the most appropriate for the job.

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Is the complexity of "".join(mylist) O(n) ? – user2374515 Sep 22 '15 at 0:42
@user2374515 Yes, the str.join() method is O(n) complexity. Per the official documentation: "For performance sensitive code, it is preferable to use the str.join() method which assures consistent linear concatenation performance across versions and implementations." – Cecil Curry Jun 15 at 5:33

Perhaps use a bytearray:

In [1]: s = bytearray('Hello World')

In [2]: s[:5] = 'Bye'

In [3]: s
Out[3]: bytearray(b'Bye World')

In [4]: str(s)
Out[4]: 'Bye World'

The appeal of using a bytearray is its memory-efficiency and convenient syntax. It can also be faster than using a temporary list:

In [36]: %timeit s = list('Hello World'*1000); s[5500:6000] = 'Bye'; s = ''.join(s)
1000 loops, best of 3: 256 µs per loop

In [37]: %timeit s = bytearray('Hello World'*1000); s[5500:6000] = 'Bye'; str(s)
100000 loops, best of 3: 2.39 µs per loop

Note that much of the difference in speed is attributable to the creation of the container:

In [32]: %timeit s = list('Hello World'*1000)
10000 loops, best of 3: 115 µs per loop

In [33]: %timeit s = bytearray('Hello World'*1000)
1000000 loops, best of 3: 1.13 µs per loop
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What encoding will this use? In Java similar constructs would be very problematic, because they use the platform default encoding which can be anything ... – Joachim Sauer Nov 12 '13 at 10:07
@JoachimSauer: Like a str, the encoding is up to you. As far as the bytearray is concerned, every value is just a byte. – unutbu Nov 12 '13 at 10:13
bytearray can be useful for really low-level stuff - as the name implies, it's really about "arrays of bytes", not "strings of characters". – bruno desthuilliers Nov 12 '13 at 10:53
"...but it is slower than using a temporary list." What is temporary list? Is it (Python's default) list, like ['s', 't', 'r', 'i', 'n', 'g']? – BornToCode Feb 2 '14 at 22:41
@BornToCode: The temporary list would be mylist in bruno desthuilliers' code. – unutbu Feb 2 '14 at 22:48

The previously provided answers are almost always best. However, sometimes the string is built up across many method calls and/or loops, so it's not necessarily natural to build up a list of lines and then join them. And since there's no guarantee you are using CPython or that CPython's optimization will apply, then another approach is to just use print!

Here's an example helper class, although the helper class is trivial and probably unnecessary, it serves to illustrate the approach (Python 3):

import io

class StringBuilder(object):

  def __init__(self):
    self._stringio = io.StringIO()

  def __str__(self):
    return self._stringio.getvalue()

  def append(self, *objects, sep=' ', end=''):
    print(*objects, sep=sep, end=end, file=self._stringio)

sb = StringBuilder()
sb.append('b', end='\n')
sb.append('c', 'd', sep=',', end='\n')
print(sb)  # 'ab\nc,d\n'
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this link might be useful for concatenation in python


example from above link:

def g():
    sb = []
    for i in range(30):

    return ''.join(sb)

print g()   

# abcdefgabcdefgabcdefgabcdefgab
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Whilst this may theoretically answer the question, it would be preferable to include the essential parts of the answer here, and provide the link for reference. – Joachim Sauer Nov 12 '13 at 10:06

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