Is there an efficient mass string concatenation method in Python (like StringBuilder in C# or StringBuffer in Java)?

I found following methods here:

  • Simple concatenation using +
  • Using a string list and the join method
  • Using UserString from the MutableString module
  • Using a character array and the array module
  • Using cStringIO from the StringIO module

What should be used and why?

(A related question is here.)


13 Answers 13


You may be interested in this: An optimization anecdote by Guido. Although it is worth remembering also that this is an old article and it predates the existence of things like ''.join (although I guess string.joinfields is more-or-less the same)

On the strength of that, the array module may be fastest if you can shoehorn your problem into it. But ''.join is probably fast enough and has the benefit of being idiomatic and thus easier for other Python programmers to understand.

Finally, the golden rule of optimization: don't optimize unless you know you need to, and measure rather than guessing.

You can measure different methods using the timeit module. That can tell you which is fastest, instead of random strangers on the Internet making guesses.

  • 1
    Wanting to add onto the point about when to optimize: make sure to test against the worst cases. For example, I can increase my sample so that my current code goes from running at 0.17 seconds to 170 seconds. Well I want to test at larger sample sizes since there is less variation there.
    – Flipper
    Jan 8, 2015 at 7:57
  • 7
    "Don't optimize until you know you need to." Unless you are just using a nominally different idiom and can avoid rework of your code with little extra effort. Aug 18, 2016 at 11:51
  • 1
    One place you know you need to is interview (which is always a great time to brush up your deep understanding). Unfortunately I haven't found ANY modern article about this. (1) Is Java/C# String still that bad in 2017? (2) How about C++? (3) Now tell about latest and greatest in Python focusing on cases when we need to do millions of concatenations. Can we trust that join would work in linear time ?
    – Ofer Rahat
    Nov 22, 2017 at 13:30
  • 2
    What does "fast enough" mean for .join()? The main question is, does it a) create a copy of the string for concatenation (similar to s = s + 'abc'), which requires O(n) runtime, or b) simply append to the existing string without creating a copy, which requires O(1)? Oct 30, 2019 at 7:23
  • 2
    @CGFoX s = s + 'abc' creates a brand-new str object, then makes s refer to that instead of the original object referred to by s. If you do this inside a loop, you are repeatedly copying the (increasingly long) value of s into a series of new object. ''.join, however, operates "inside" the str type. It only has to access the contents of the operands once, to copy into a str object pre-allocated to be large enough to hold the result.
    – chepner
    Jul 8, 2021 at 15:48

If you know all components beforehand once, use the literal string interpolation, also known as f-strings or formatted strings, introduced in Python 3.6.

Given the test case from mkoistinen's answer, having strings

domain = 'some_really_long_example.com'
lang = 'en'
path = 'some/really/long/path/'

The contenders and their execution time on my computer using Python 3.6 on Linux as timed by IPython and the timeit module are

  • f'http://{domain}/{lang}/{path}' - 0.151 µs

  • 'http://%s/%s/%s' % (domain, lang, path) - 0.321 µs

  • 'http://' + domain + '/' + lang + '/' + path - 0.356 µs

  • ''.join(('http://', domain, '/', lang, '/', path)) - 0.249 µs (notice that building a constant-length tuple is slightly faster than building a constant-length list).

Thus the shortest and the most beautiful code possible is also fastest.

The speed can be contrasted with the fastest method for Python 2, which is + concatenation on my computer; and that takes 0.203 µs with 8-bit strings, and 0.259 µs if the strings are all Unicode.

(In alpha versions of Python 3.6 the implementation of f'' strings was the slowest possible - actually the generated byte code is pretty much equivalent to the ''.join() case with unnecessary calls to str.__format__ which without arguments would just return self unchanged. These inefficiencies were addressed before 3.6 final.)

  • 8
    This is the actual answer to the question "which is fastest". The currently accepted answer is overly opinionated that this is a premature optimization, to the point where it doesn't even bother testing the various techniques available.
    – bsplosion
    Nov 19, 2021 at 20:13
  • 2
    As of 3.10.0, the ranking are unchanged relative to one another. My timings are f-string 110 ns, printf-style w/% 160 ns, concat w/+ 176 ns, and ''.join 130 ns (I used %%timeit magic where domain, lang and path were all defined in the setup step, the first line, and the code to test was not wrapped in a function otherwise, minimizing overhead unrelated to the operation being tested). Note that you can beat f-strings with '/'.join(('http:/', domain, lang, path)) (at 99 ns), but that's neither pretty nor generalizable. Jun 10, 2022 at 17:09
  • @ShadowRanger interesting though that the %-tuple formatting isn't faster, as Serhiy Storchaka was working on an optimization that would make it on par, maybe it just landed in 3.11. Jun 12, 2022 at 9:51

''.join(sequence_of_strings) is what usually works best – simplest and fastest.

  • 3
    @mshsayem, in Python a sequence can be any enumerable object, even a function. Aug 22, 2009 at 20:06
  • 4
    I absolutely love the ''.join(sequence) idiom. It's especially useful to produce comma-separated lists: ', '.join([1, 2, 3]) gives the string '1, 2, 3'. Aug 22, 2009 at 20:12
  • 8
    @mshsayem: "".join(chr(x) for x in xrange(65,91)) --- in this case, the argument to join is an iterator, created through a generator expression. There's no temporary list that gets constructed.
    – balpha
    Aug 22, 2009 at 20:19
  • 2
    @balpha: and yet the generator version is slower than the list comprehension version: C:\temp>python -mtimeit "''.join(chr(x) for x in xrange(65,91))" 100000 loops, best of 3: 9.71 usec per loop C:\temp>python -mtimeit "''.join([chr(x) for x in xrange(65,91)])" 100000 loops, best of 3: 7.1 usec per loop
    – hughdbrown
    Aug 30, 2009 at 5:35
  • 1
    @hughdbrown, yes, when you have free memory out the wazoo (typical timeit case) listcomp can be better optimized than genexp, often by 20-30%. When memory's tight things are different -- hard to reproduce in timeit, though!-) Aug 30, 2009 at 6:15

It depends on what you're doing.

After Python 2.5, string concatenation with the + operator is pretty fast. If you're just concatenating a couple of values, using the + operator works best:

>>> x = timeit.Timer(stmt="'a' + 'b'")
>>> x.timeit()

>>> x = timeit.Timer(stmt="''.join(['a', 'b'])")
>>> x.timeit()

However, if you're putting together a string in a loop, you're better off using the list joining method:

>>> join_stmt = """
... joined_str = ''
... for i in xrange(100000):
...   joined_str += str(i)
... """
>>> x = timeit.Timer(join_stmt)
>>> x.timeit(100)

>>> list_stmt = """
... str_list = []
... for i in xrange(100000):
...   str_list.append(str(i))
... ''.join(str_list)
... """
>>> x = timeit.Timer(list_stmt)
>>> x.timeit(100)

...but notice that you have to be putting together a relatively high number of strings before the difference becomes noticeable.

  • 3
    1) In your first measurement it's probably the list construction that takes the time. Try with a tuple. 2) CPython performs uniformly good, however other Python implementations perform way worse with + and += Aug 23, 2009 at 14:54
  • The above user is actually right. Using a tuple almost halves the time when compared to a list. >>> x = timeit.Timer(stmt="''.join(['a', 'b'])") >>> x.timeit() 0.08877951399881567 >>> x = timeit.Timer(stmt="''.join(('a', 'b'))") >>> x.timeit() 0.046619118000307935
    – JackX
    May 13, 2022 at 14:56

As per John Fouhy's answer, don't optimize unless you have to, but if you're here and asking this question, it may be precisely because you have to.

In my case, I needed to assemble some URLs from string variables... fast. I noticed no one (so far) seems to be considering the string format method, so I thought I'd try that and, mostly for mild interest, I thought I'd toss the string interpolation operator in there for good measure.

To be honest, I didn't think either of these would stack up to a direct '+' operation or a ''.join(). But guess what? On my Python 2.7.5 system, the string interpolation operator rules them all and string.format() is the worst performer:

# concatenate_test.py

from __future__ import print_function
import timeit

domain = 'some_really_long_example.com'
lang = 'en'
path = 'some/really/long/path/'
iterations = 1000000

def meth_plus():
    '''Using + operator'''
    return 'http://' + domain + '/' + lang + '/' + path

def meth_join():
    '''Using ''.join()'''
    return ''.join(['http://', domain, '/', lang, '/', path])

def meth_form():
    '''Using string.format'''
    return 'http://{0}/{1}/{2}'.format(domain, lang, path)

def meth_intp():
    '''Using string interpolation'''
    return 'http://%s/%s/%s' % (domain, lang, path)

plus = timeit.Timer(stmt="meth_plus()", setup="from __main__ import meth_plus")
join = timeit.Timer(stmt="meth_join()", setup="from __main__ import meth_join")
form = timeit.Timer(stmt="meth_form()", setup="from __main__ import meth_form")
intp = timeit.Timer(stmt="meth_intp()", setup="from __main__ import meth_intp")

plus.val = plus.timeit(iterations)
join.val = join.timeit(iterations)
form.val = form.timeit(iterations)
intp.val = intp.timeit(iterations)

min_val = min([plus.val, join.val, form.val, intp.val])

print('plus %0.12f (%0.2f%% as fast)' % (plus.val, (100 * min_val / plus.val), ))
print('join %0.12f (%0.2f%% as fast)' % (join.val, (100 * min_val / join.val), ))
print('form %0.12f (%0.2f%% as fast)' % (form.val, (100 * min_val / form.val), ))
print('intp %0.12f (%0.2f%% as fast)' % (intp.val, (100 * min_val / intp.val), ))

The results:

# Python 2.7 concatenate_test.py
plus 0.360787868500 (90.81% as fast)
join 0.452811956406 (72.36% as fast)
form 0.502608060837 (65.19% as fast)
intp 0.327636957169 (100.00% as fast)

If I use a shorter domain and shorter path, interpolation still wins out. The difference is more pronounced, though, with longer strings.

Now that I had a nice test script, I also tested under Python 2.6, 3.3 and 3.4, here's the results. In Python 2.6, the plus operator is the fastest! On Python 3, join wins out. Note: these tests are very repeatable on my system. So, 'plus' is always faster on 2.6, 'intp' is always faster on 2.7 and 'join' is always faster on Python 3.x.

# Python 2.6 concatenate_test.py
plus 0.338213920593 (100.00% as fast)
join 0.427221059799 (79.17% as fast)
form 0.515371084213 (65.63% as fast)
intp 0.378169059753 (89.43% as fast)

# Python 3.3 concatenate_test.py
plus 0.409130576998 (89.20% as fast)
join 0.364938726001 (100.00% as fast)
form 0.621366866995 (58.73% as fast)
intp 0.419064424001 (87.08% as fast)

# Python 3.4 concatenate_test.py
plus 0.481188605998 (85.14% as fast)
join 0.409673971997 (100.00% as fast)
form 0.652010936996 (62.83% as fast)
intp 0.460400978001 (88.98% as fast)

# Python 3.5 concatenate_test.py
plus 0.417167026084 (93.47% as fast)
join 0.389929617057 (100.00% as fast)
form 0.595661019906 (65.46% as fast)
intp 0.404455224983 (96.41% as fast)

Lesson learned:

  • Sometimes, my assumptions are dead wrong.
  • Test against the system environment. You'll be running in production.
  • String interpolation isn't dead yet!


  • If you using Python 2.6, use the '+' operator.
  • if you're using Python 2.7, use the '%' operator.
  • if you're using Python 3.x, use ''.join().
  • 2
    Note: literal string interpolation is faster still for 3.6+ : f'http://{domain}/{lang}/{path}' May 1, 2017 at 22:34
  • 1
    Also, .format() has three forms, in order from fast to slow: "{}".format(x), "{0}".format(x), "{x}".format(x=x) May 1, 2017 at 22:45
  • The real lesson: when your problem domain is small, e.g. composing short strings, method most often does not matter. And even when it matters, e.g. you really are building a million strings, the overhead often matters more. It is a typical symptom of worrying about the wrong problem. Only when the overhead is not significant, e.g. when building up entire book as a string, the method difference start to matter.
    – Hui Zhou
    Sep 29, 2017 at 15:49
  • Here's an example based on the above benchmark that includes f-strings gist.github.com/holmanb/84be00eab35477565cb95a1d62a741a9 May 2, 2021 at 1:09
  • Results with 12 significant digits do not make sense in this context (for example, due to time jitter caused preemptive multitasking in the operating system). Can you round them to a more realistic number of significant digits? Mar 31, 2022 at 19:08

Update: Python3.11 has some optimizations for % formatting yet it maybe still better to stick with f-strings.

For Python 3.8.6/3.9, I had to do some dirty hacks, because perfplot was giving out some errors. Here assume that x[0] is a a and x[1] is b:


The plot is nearly same for large data. For small data,

Performance 2

Taken by perfplot and this is the code, large data == range(8), small data == range(4).

import perfplot

from random import choice
from string import ascii_lowercase as letters

def generate_random(x):
    data = ''.join(choice(letters) for i in range(x))
    sata = ''.join(choice(letters) for i in range(x))
    return [data,sata]

def fstring_func(x):
    return [ord(i) for i in f'{x[0]}{x[1]}']

def format_func(x):
    return [ord(i) for i in "{}{}".format(x[0], x[1])]

def replace_func(x):
    return [ord(i) for i in "|~".replace('|', x[0]).replace('~', x[1])]

def join_func(x):
    return [ord(i) for i in "".join([x[0], x[1]])]

    setup=lambda n: generate_random(n),
    n_range=[int(k ** 2.5) for k in range(4)],

When medium data is there, and four strings are there x[0], x[1], x[2], x[3] instead of two strings:

def generate_random(x):
    a =  ''.join(choice(letters) for i in range(x))
    b =  ''.join(choice(letters) for i in range(x))
    c =  ''.join(choice(letters) for i in range(x))
    d =  ''.join(choice(letters) for i in range(x))
    return [a,b,c,d]

Performance 3

Better to stick with f-strings. Also the speed of %s is similar to .format().


It pretty much depends on the relative sizes of the new string after every new concatenation.

With the + operator, for every concatenation, a new string is made. If the intermediary strings are relatively long, the + becomes increasingly slower, because the new intermediary string is being stored.

Consider this case:

from time import time

# Case 1
for i in range(1000):
print time()-t

# Case 2
for i in xrange(1000):
print time()-t

# Case 3
for i in range(1000):
print time()-t

# Case 4
for i in xrange(1000):
print time()-t


1 0.00493192672729

2 0.000509023666382

3 0.00042200088501

4 0.000482797622681

In the case of 1&2, we add a large string, and join() performs about 10 times faster. In case 3&4, we add a small string, and '+' performs slightly faster.

  • Results with 12 significant digits do not make sense in this context (for example, due to time jitter caused preemptive multitasking in the operating system). Can you round them to a more realistic number of significant digits? Mar 31, 2022 at 19:05

I ran into a situation where I needed to have an appendable string of unknown size. These are the benchmark results (python 2.7.3):

$ python -m timeit -s 's=""' 's+="a"'
10000000 loops, best of 3: 0.176 usec per loop

$ python -m timeit -s 's=[]' 's.append("a")'
10000000 loops, best of 3: 0.196 usec per loop

$ python -m timeit -s 's=""' 's="".join((s,"a"))'
100000 loops, best of 3: 16.9 usec per loop

$ python -m timeit -s 's=""' 's="%s%s"%(s,"a")'
100000 loops, best of 3: 19.4 usec per loop

This seems to show that '+=' is the fastest. The results from the skymind link are a bit out of date.

(I realize that the second example is not complete. The final list would need to be joined. This does show, however, that simply preparing the list takes longer than the string concatenation.)

  • I'm getting sub 1-sec times for 3rd and 4th tests. Why you getting such high times? pastebin.com/qabNMCHS Aug 2, 2013 at 8:03
  • @ronnieaka: He's getting sub 1-sec times for all tests. He is getting >1 µs for the 3rd & 4th, which you did not. I also get slower times on those tests (on Python 2.7.5, Linux). Could be CPU, version, build flags, who knows.
    – Thanatos
    Aug 17, 2013 at 0:58
  • 1
    These benchmark results are useless. Especially, the first case, which isn't doing any string concatenation, just returning the second string value intact. Oct 13, 2016 at 7:33

One year later, let's test mkoistinen's answer with Python 3.4.3:

  • plus 0.963564149000 (95.83% as fast)
  • join 0.923408469000 (100.00% as fast)
  • form 1.501130934000 (61.51% as fast)
  • intp 1.019677452000 (90.56% as fast)

Nothing changed. join is still the fastest method. With string interpolation (intp) being arguably the best choice in terms of readability, you might want to use string interpolation nevertheless.

  • 2
    Maybe it could be an addition to mkoistinen answer since it is a bit short of a full blown answer (or at least add the code you are using). Nov 29, 2015 at 11:04
  • Results with 9 significant digits do not make sense in this context (for example, due to time jitter caused preemptive multitasking in the operating system). Can you round them to a more realistic number of significant digits? (NB: Why are there three trailing zeros?) Mar 31, 2022 at 19:03

Probably the "new f-strings in Python 3.6" is the most efficient way of concatenating strings.

Using %s

>>> timeit.timeit("""name = "Some"
... age = 100
... '%s is %s.' % (name, age)""", number = 10000)

Using .format

>>> timeit.timeit("""name = "Some"
... age = 100
... '{} is {}.'.format(name, age)""", number = 10000)

Using f-strings

>>> timeit.timeit("""name = "Some"
... age = 100
... f'{name} is {age}.'""", number = 10000)

For a small set of short strings (i.e. 2 or 3 strings of no more than a few characters), plus is still way faster. Using mkoistinen's wonderful script in Python 2 and 3:

plus 2.679107467004 (100.00% as fast)
join 3.653773699996 (73.32% as fast)
form 6.594011374000 (40.63% as fast)
intp 4.568015249999 (58.65% as fast)

So when your code is doing a huge number of separate small concatenations, plus is the preferred way if speed is crucial.


Inspired by JasonBaker's benchmarks, here's a simple one, comparing 10 "abcdefghijklmnopqrstuvxyz" strings, showing that .join() is faster; even with this tiny increase in variables:


>>> x = timeit.Timer(stmt='"abcdefghijklmnopqrstuvxyz" + "abcdefghijklmnopqrstuvxyz" + "abcdefghijklmnopqrstuvxyz" + "abcdefghijklmnopqrstuvxyz" + "abcdefghijklmnopqrstuvxyz" + "abcdefghijklmnopqrstuvxyz" + "abcdefghijklmnopqrstuvxyz" + "abcdefghijklmnopqrstuvxyz" + "abcdefghijklmnopqrstuvxyz" + "abcdefghijklmnopqrstuvxyz" + "abcdefghijklmnopqrstuvxyz"')
>>> x.timeit()


>>> x = timeit.Timer(stmt='"".join(["abcdefghijklmnopqrstuvxyz", "abcdefghijklmnopqrstuvxyz", "abcdefghijklmnopqrstuvxyz", "abcdefghijklmnopqrstuvxyz", "abcdefghijklmnopqrstuvxyz", "abcdefghijklmnopqrstuvxyz", "abcdefghijklmnopqrstuvxyz", "abcdefghijklmnopqrstuvxyz", "abcdefghijklmnopqrstuvxyz", "abcdefghijklmnopqrstuvxyz", "abcdefghijklmnopqrstuvxyz"])')
>>> x.timeit()

=>The best way to concatinate string is using '+'.For eg:-

Print(string1 +string2)

=>The another easy way is by using joint method.For eg:-

  • 1
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    Jun 30, 2023 at 11:57

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