Most Pythonic way to concatenate strings

Given this harmless little list:

``````>>> lst = ['o','s','s','a','m','a']
``````

My goal is to pythonically concatenate the little devils using one of the following ways:

A. plain ol' string function to get the job done, short, no imports

``````>>> ''.join(lst)
'ossama'
``````

B. lambda, lambda, lambda

``````>>> reduce(lambda x, y: x + y, lst)
'ossama'
``````

C. globalization (do nothing, import everything)

``````>>> import functools, operator
'ossama'
``````

Please rank (pythonic level) and rate solutions giving concise explanations.

In this case, is the most pythonic solution the best coding solution?

-

Have a look at Guido's essay on python optimization, it covers converting lists of numbers to strings. Unless you have a good reason to do otherwise, use the `join` example.

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OK, guys, now let's upvote this to 10 so SilentGhost gets his Populist badge :) –  Tim Pietzcker Jan 26 '10 at 12:21

Of course it's `join`. How do I know? Let's do it in a really stupid way:
If the problem was only adding 2 strings, you'd most likely use `str1 + str2`. What does it take to get that to the next level? Instinctively, for most (I think), will be to use `sum`. Let's see how that goes:

``````In [1]: example = ['a', 'b', 'c']
In [2]: sum(example, '')
---------------------------------------------------------------------------
TypeError                                 Traceback (most recent call last)
<ipython console> in <module>()
TypeError: sum() can't sum strings [use ''.join(seq) instead]
``````

Wow! Python simply told me what to use! :)

-

Great answer from SilenGhost BUT, just a few words about the presented `reduce` "alternative"

Unless you've got a very very VERY good reason to concatenate strings using `+` or `operator.add` (the most frequent one, that you've got few, fixed number of strings), you should use always `join`.

Just because each `+` generates a new string which is the concatenation of two strings, unless join that only generates one final string. So, imagine you've got 3 strings:

``````A + B + C
-->
D = A + B
final = D + C
``````

Ok, doesn't seems not much, but you've got to reserve memory for D. Also, due python use of strings, generating a new, intermediate, string, it's somehow expensive...

Now, with 5 strings

``````A + B + C + D + E
-->
F = A + B
G = F + C
H = G + D
final = H + E
``````

Assuming the best scenario (if we do (A+B) + (C+D) + E, we'll end having three intermediate strings at the same time on memory), that's generating 3 intermediate strings... You've got to generate a new python object, reserve memory space, release the memory a few times... Also the overhead of calling a Python function (that is not small)

Now think of it with 200 strings. We'll end up with a ridiculous big number of intermediate strings, each of one consuming combining quite a lot time on being a complete list over python, and calling a lot of `operator.add` functions, each with its overhead... Even if you use `reduce` functions, it won't help. It's a problem that has to be managed with a different approach: `join`, which only generates ONE complete python string, the final one and calls ONE python function.

(Of course, `join`, or other similar, specialized function for arrays)

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I myself use the "join" way, but from python 2.6 there is a base type that is little used: bytearray.

Bytearrays can be incredible useful -- for string containing texts, since the best thing is to have then in unicode, the "join" way is the way to go -- but if you are dealing with binary data instead, bytearrays can be both more pythonic and more efficient:

``````>>> lst = ['o','s','s','a','m','a']
>>> a = bytearray(lst)
>>> a
bytearray(b'ossama')
>>> print a
ossama
``````

it is a built in data type: no imports needed - just use then -- and you can use a bytearray isntead of a list to start with - so they should be more efficinet than the "join", since there is no data copying to get the string representation for a bytearray.

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hmm..just checked: the "bytearray" constructor can get even an unicode string and an "encoding" argument so it can deal with unicode as well. eg. : a = bytearray(u"déja-vu", encoding="utf8") –  jsbueno Jan 25 '10 at 16:46
except that bytearrays are neither pythonic nor efficient. They're intended for completely different purpose, and their behaviour in py2.6 is not the same as in py3k. –  SilentGhost Jan 25 '10 at 21:21
@SilentGhost: Thank you for your feedback - where can I read more about it? And even if they aren't as efficient as they mightlookat first, I doubt "join" could be faster simply due to the creation of a new strign object per part to concatenate. (I intend to do some benchmarking later today) –  jsbueno Jan 26 '10 at 11:00

Here's the least Pythonic way:

``````out = ""
for x in range(len(lst)):
for y in range(len(lst)):
if x + y == len(lst)-1:
out = lst[y] + out
``````
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I bet there are ways to reduce pythonicity in that. ;) –  Johannes Charra Jan 25 '10 at 16:31
Not really what he asked for but I see your point.....:-) –  Ben Hughes Jan 25 '10 at 17:22
``````''.join(lst)
``````

the only pythonic way:

• clear (that what all the big boys do and what they expect to see),
• simple (no additional imports needed, stable across all versions),
• fast (written in C) and
• concise (on an empty string join elements of iterable!).
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While the reduce based solutions are elegant and the functional programmer in me appreciates them, I must agree that join() is indeed the only pythonic solution. –  liwp Jan 25 '10 at 16:10
SilentGhost is right. Strings have a join method that accepts iterables, so using anything else is not pythonic. –  stefanw Jan 25 '10 at 16:10
So -- people, pls, check the "bytearray" native type my answer bellow). Join is ubeatable up to python 2.5, though. –  jsbueno Jan 25 '10 at 16:51
THE way, without a doubt –  Khelben Jan 25 '10 at 17:42