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What is an efficient way to check that a string s in Python consists of just one character, say 'A'? Something like all_equal(s, 'A') which would behave like this:

all_equal("AAAAA", "A") = True

all_equal("AAAAAAAAAAA", "A") = True

all_equal("AAAAAfAAAAA", "A") = False

Two seemingly inefficient ways would be to: first convert the string to a list and check each element, or second to use a regular expression. Are there more efficient ways or are these the best one can do in Python? Thanks.

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I'm a bit surprised no one yet asked the following question: what is the structure of the "non-uniform" strings that you input? If there is one (i.e. they are not completely random), you can use the knowledge about that to optimize your algorithm. – mikołak Jan 14 '13 at 19:57
Is efficiency of this really that important? I wonder what kind of application would have this check in the bottleneck code. – Barmar Jan 16 '13 at 15:14
To my mind, the efficiency of that rarely can be important, though who knows? Anyway, the task is nice, and understanding what's happening inside the code and why some solutions are slow, and some are fast, is a useful training for a Python developer. – Ellioh Jan 16 '13 at 15:45
up vote 82 down vote accepted

This is by far the fastest, several times faster than even count(), just time it with that excellent mgilson's timing suite:

s == len(s) * s[0]

Here all the checking is done inside the Python C code which just:

  • allocates len(s) characters;
  • fills the space with the first character;
  • compares two strings.

The longer the string is, the greater is time bonus. However, as mgilson writes, it creates a copy of the string, so if your string length is many millions of symbols, it may become a problem.

As we can see from timing results, generally the fastest ways to solve the task do not execute any Python code for each symbol. However, the set() solution also does all the job inside C code of the Python library, but it is still slow, probably because of operating string through Python object interface.

UPD: Concerning the empty string case. What to do with it strongly depends on the task. If the task is "check if all the symbols in a string are the same", s == len(s) * s[0] is a valid answer (no symbols mean an error, and exception is ok). If the task is "check if there is exactly one unique symbol", empty string should give us False, and the answer is s and s == len(s) * s[0], or bool(s) and s == len(s) * s[0] if you prefer receiving boolean values. Finally, if we understand the task as "check if there are no different symbols", the result for empty string is True, and the answer is not s or s == len(s) * s[0].

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It probably beats count in the non-equal case because it can short-circuit the string comparison. It still surprises me that it wins so well though. It seems like count should be a simple loop which would do approximately the same amount of work that the filling of the space would do. I suppose that filling is probably done via some impressive vectorized/optimized code in the C string library. (As is the comparison which can be short circuited). – mgilson Jan 14 '13 at 16:01
I think that count() looks for a string, not for a single character. Probably its algorithm is much more complex than simple strncmp() in comparison of two strings. If there were a special case of count() searching for a single character, it would work much faster, but apparently there is no such case. – Ellioh Jan 14 '13 at 16:10
What if s is the empty string? – Hammerite Jan 14 '13 at 18:43
lol strmul, and to some degree count, hold up as the string scales. Here are the times I get for a source string of 1024 characters: [('test_strmul', 0.9134591826614835), ('test_set', 45.61518321462644), ('test_count', 2.706394388113573)] – Rob Y Jan 14 '13 at 21:17
As a mathematician, my instinct is that the function should return True if s is the empty string. But the OP should really indicate. – Hammerite Jan 15 '13 at 10:36
>>> s.count(s[0]) == len(s)

This doesn't short circuit. A version which does short-circuit would be:

>>> all(x == s[0] for x in s)

However, I have a feeling that due the the optimized C implementation, the non-short circuiting version will probably perform better on some strings (depending on size, etc)

Here's a simple timeit script to test some of the other options posted:

import timeit
import re

def test_regex(s,regex=re.compile(r'^(.)\1*$')):
    return bool(regex.match(s))

def test_all(s):
    return all(x == s[0] for x in s)

def test_count(s):
    return s.count(s[0]) == len(s)

def test_set(s):
    return len(set(s)) == 1

def test_replace(s):
    return not s.replace(s[0],'')

def test_translate(s):
    return not s.translate(None,s[0])

def test_strmul(s):
    return s == s[0]*len(s)

tests = ('test_all','test_count','test_set','test_replace','test_translate','test_strmul','test_regex')

for test in tests:
    print test, timeit.timeit('%s(s)'%test,'from __main__ import %s; s="AAAAAAAAAAAAAAAAA"'%test)
    if globals()[test]("AAAAAAAAAAAAAAAAA") != True:
        print globals()[test]("AAAAAAAAAAAAAAAAA")
        raise AssertionError

for test in tests:
    print test, timeit.timeit('%s(s)'%test,'from __main__ import %s; s="FAAAAAAAAAAAAAAAA"'%test)
    if globals()[test]("FAAAAAAAAAAAAAAAA") != False:
        print globals()[test]("FAAAAAAAAAAAAAAAA")
        raise AssertionError

On my machine (OS-X 10.5.8, core2duo, python2.7.3) with these contrived (short) strings, str.count smokes set and all, and beats str.replace by a little, but is edged out by str.translate and strmul is currently in the lead by a good margin:

test_all 5.83863711357
test_count 0.947771072388
test_set 2.01028490067
test_replace 1.24682998657
test_translate 0.941282987595
test_strmul 0.629556179047
test_regex 2.52913498878

test_all 2.41147494316
test_count 0.942595005035
test_set 2.00480484962
test_replace 0.960338115692
test_translate 0.924381017685
test_strmul 0.622269153595
test_regex 1.36632800102

The timings could be slightly (or even significantly?) different between different systems and with different strings, so that would be worth looking into with an actual string you're planning on passing.

Eventually, if you hit the best case for all enough, and your strings are long enough, you might want to consider that one. It's a better algorithm ... I would avoid the set solution though as I don't see any case where it could possibly beat out the count solution.

If memory could be an issue, you'll need to avoid str.translate, str.replace and strmul as those create a second string, but this isn't usually a concern these days.

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WOW! It seems I have found a faster version: s == len(s) * s[0] – Ellioh Jan 14 '13 at 15:47
@Ellioh -- Indeed you have. cheers. – mgilson Jan 14 '13 at 15:57
+1 for actually measuring – oefe Jan 14 '13 at 20:38
@oefe -- You never really know anything until you actually measure :) – mgilson Jan 14 '13 at 21:34
How does the RE ^(.)\1*$ compare? – Barmar Jan 16 '13 at 14:45

Try using the built-in function all:

all(c == 'A' for c in s)
share|improve this answer
using is is actually faster, – Inbar Rose Jan 14 '13 at 15:10
@InbarRose -- Those time differences are on the order of 1% -- It's not worth worrying about IMHO. Especially considering that is is relying on a Cpython implementation detail. – mgilson Jan 14 '13 at 15:14
@mgilson I do not remember exactly where I read it, but I recall that when dealing with char comparison its better to use is. – Inbar Rose Jan 14 '13 at 15:16
@InbarRose -- I doubt it. AFAIK, there is no guarantee that characters are singletons (though I suppose I could be wrong about this) – mgilson Jan 14 '13 at 15:17
I don't think is is guaranteed to work. It's relying on an implementation detail of the interpreter, namely interning of strings, which isn't guaranteed according to the Python spec as far as I recall. Yes it will probably work everywhere at least for short strings, but 'probably' is not really the best thing to rely on. – Silas Ray Jan 14 '13 at 15:18

You could convert to a set and check there is only one member:

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Adding another solution to this problem

>>> not "AAAAAA".translate(None,"A")
share|improve this answer
Surprisingly, translate is winning in my timings ... (but not by much) (+1). – mgilson Jan 14 '13 at 15:52
And apparently not winning for too long. You've been beat out by s == s[0]*len(s) :) – mgilson Jan 14 '13 at 15:58

If you need to check if all the characters in the string are same and is equal to a given character, you need to remove all duplicates and check if the final result equals the single character.

>>> set("AAAAA") == set("A")

In case you desire to find if there is any duplicate, just check the length

>>> len(set("AAAAA")) == 1
share|improve this answer

Interesting answers so far. Here's another:

flag = True
for c in 'AAAAAAAfAAAA':
    if not c == 'A': 
        flag = False

The only advantage I can think of to mine is that it doesn't need to traverse the entire string if it finds an inconsistent character.

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that's what all does as well. once it finds a value which is false, it stops. – Inbar Rose Jan 14 '13 at 15:14
Interesting. Makes sense. Still, probably more efficient than the set method, right? – Master_Yoda Jan 14 '13 at 15:31
you can check yourself with timeit – Inbar Rose Jan 14 '13 at 15:55
-1 This relies on the implementation detail that single-string characters are interned on cpython, and fails on jython. – phihag Jan 15 '13 at 11:22
Thanks for commenting @phihag , I learned something new, and have updated to make jython compatible. – Master_Yoda Jan 15 '13 at 18:46
not len("AAAAAAAAA".replace('A', ''))
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not len("AAAAAAAAA".replace('A', '')) #0 means True, so not operator is required – Ellioh Jan 14 '13 at 15:24
right. Thanks for correcting me :) – mgilson Jan 14 '13 at 15:27
Made an addition to your timing suite. My version is still much worse than count() if the string consists of "A"s, but slightly better when the first char is 'f'. – Ellioh Jan 14 '13 at 15:37

protected by Ashwini Chaudhary Jan 21 '13 at 1:26

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