>>> s = 'AAAAAAAAAAAAAAAAAAA'
>>> s.count(s) == len(s)
This doesn't short circuit. A version which does short-circuit would be:
>>> all(x == s 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:
return all(x == s for x in s)
return s.count(s) == len(s)
return len(set(s)) == 1
return not s.replace(s,'')
return not s.translate(None,s)
return s == s*len(s)
tests = ('test_all','test_count','test_set','test_replace','test_translate','test_strmul','test_regex')
print "WITH ALL EQUAL"
for test in tests:
print test, timeit.timeit('%s(s)'%test,'from __main__ import %s; s="AAAAAAAAAAAAAAAAA"'%test)
if globals()[test]("AAAAAAAAAAAAAAAAA") != True:
print "WITH FIRST NON-EQUAL"
for test in tests:
print test, timeit.timeit('%s(s)'%test,'from __main__ import %s; s="FAAAAAAAAAAAAAAAA"'%test)
if globals()[test]("FAAAAAAAAAAAAAAAA") != False:
On my machine (OS-X 10.5.8, core2duo, python2.7.3) with these contrived (short) strings,
all, and beats
str.replace by a little, but is edged out by
strmul is currently in the lead by a good margin:
WITH ALL EQUAL
WITH FIRST NON-EQUAL
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
If memory could be an issue, you'll need to avoid
strmul as those create a second string, but this isn't usually a concern these days.