What is the best way to strip all non alphanumeric characters from a string, using Python?

The solutions presented in the PHP variant of this question will probably work with some minor adjustments, but don't seem very 'pythonic' to me.

For the record, I don't just want to strip periods and commas (and other punctuation), but also quotes, brackets, etc.

  • 9
    Do you care about international alphanumeric chars, like 'æøå', 'مرحبا', 'สวัสดี', 'こんにちは' ? Nov 1, 2014 at 8:32
  • 5
    @PiminKonstantinKefaloukos Yes I do care about the international chars, hence my comment on the accepted answer to use re.UNICODE. Nov 5, 2014 at 14:03

16 Answers 16


I just timed some functions out of curiosity. In these tests I'm removing non-alphanumeric characters from the string string.printable (part of the built-in string module). The use of compiled '[\W_]+' and pattern.sub('', str) was found to be fastest.

$ python -m timeit -s \
     "import string" \
     "''.join(ch for ch in string.printable if ch.isalnum())" 
10000 loops, best of 3: 57.6 usec per loop

$ python -m timeit -s \
    "import string" \
    "filter(str.isalnum, string.printable)"                 
10000 loops, best of 3: 37.9 usec per loop

$ python -m timeit -s \
    "import re, string" \
    "re.sub('[\W_]', '', string.printable)"
10000 loops, best of 3: 27.5 usec per loop

$ python -m timeit -s \
    "import re, string" \
    "re.sub('[\W_]+', '', string.printable)"                
100000 loops, best of 3: 15 usec per loop

$ python -m timeit -s \
    "import re, string; pattern = re.compile('[\W_]+')" \
    "pattern.sub('', string.printable)" 
100000 loops, best of 3: 11.2 usec per loop
  • 4
    Very interesting results: I would have expected the regular expressions to be slower. Interestingly, I tried this with one other option (valid_characters = string.ascii_letters + string.digits followed by join(ch for ch in string.printable if ch in valid_characters) and it was 6 microseconds quicker than the isalnum() option. Still much slower than the regexp though.
    – DrAl
    Aug 14, 2009 at 10:19
  • +1, measuring time is good! (but in the penultimate, do pattern.sub('', string.printable) instead -- silly to call re.sub when you have a RE object!-). Aug 14, 2009 at 15:05
  • 58
    For the record: use re.compile('[\W_]+', re.UNICODE) to make it unicode safe. Aug 24, 2009 at 14:01
  • 6
    how do you do it without removing the white space?
    – maudulus
    Jul 30, 2014 at 19:47
  • 8
    do it without removing the white space: re.sub('[\W_]+', ' ', sentence, flags=re.UNICODE)
    – PALEN
    Apr 26, 2017 at 0:55

Regular expressions to the rescue:

import re
re.sub(r'\W+', '', your_string)

By Python definition '\W == [^a-zA-Z0-9_], which excludes all numbers, letters and _

  • 2
    What does the plus sign do in the regexp? (I know what it means, just curious as to why it's needed for the re.sub.) Aug 14, 2009 at 9:03
  • 7
    @Mark: I imagine it would speed up the substitution as the replace will get rid of all non-word characters in a block in one go, rather than removing them one-by-one.
    – DrAl
    Aug 14, 2009 at 9:07
  • 2
    Yeah, I benched that while tuning some performance critical code a while ago. If there are significant spans of characters to replace the speedup is huge.
    – Ants Aasma
    Aug 14, 2009 at 9:25
  • 28
    It might not be relevant in this case, but \W will keep underscores as well.
    – Blixt
    Aug 14, 2009 at 16:20
  • 16
    Following @Blixt tip, if you only want letters and numbers you can do re.sub(r'[^a-zA-Z0-9]','', your_string)
    – Nigini
    Oct 24, 2012 at 22:02

Use the str.translate() method.

Presuming you will be doing this often:

  1. Once, create a string containing all the characters you wish to delete:

    delchars = ''.join(c for c in map(chr, range(256)) if not c.isalnum())
  2. Whenever you want to scrunch a string:

    scrunched = s.translate(None, delchars)

The setup cost probably compares favourably with re.compile; the marginal cost is way lower:

C:\junk>\python26\python -mtimeit -s"import string;d=''.join(c for c in map(chr,range(256)) if not c.isalnum());s=string.printable" "s.translate(None,d)"
100000 loops, best of 3: 2.04 usec per loop

C:\junk>\python26\python -mtimeit -s"import re,string;s=string.printable;r=re.compile(r'[\W_]+')" "r.sub('',s)"
100000 loops, best of 3: 7.34 usec per loop

Note: Using string.printable as benchmark data gives the pattern '[\W_]+' an unfair advantage; all the non-alphanumeric characters are in one bunch ... in typical data there would be more than one substitution to do:

C:\junk>\python26\python -c "import string; s = string.printable; print len(s),repr(s)"
100 '0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ!"#$%&\'()*+,-./:;=>?@[\\]^_`{|}~ \t\n\r\x0b\x0c'

Here's what happens if you give re.sub a bit more work to do:

C:\junk>\python26\python -mtimeit -s"d=''.join(c for c in map(chr,range(256)) if not c.isalnum());s='foo-'*25" "s.translate(None,d)"
1000000 loops, best of 3: 1.97 usec per loop

C:\junk>\python26\python -mtimeit -s"import re;s='foo-'*25;r=re.compile(r'[\W_]+')" "r.sub('',s)"
10000 loops, best of 3: 26.4 usec per loop
  • 1
    Using translate is indeed quite a bit faster. Even when adding a for loop right before doing the substitution/translation (to make the setup costs weigh in less) still makes the translation roughly 17 times faster than the regexp on my machine. Good to know. Aug 18, 2009 at 13:58
  • 3
    This is definitely the most pythonic solution.
    – codygman
    Sep 7, 2012 at 2:43
  • 2
    This almost convince me, but I would suggest using string.punctuation Instead of ''.join(c for c in map(chr, range(256)) if not c.isalnum()) Mar 14, 2015 at 15:49
  • 3
    Note that this works for str objects but not unicode objects.
    – Yavar
    Oct 24, 2015 at 5:07
  • 1
    Needs to be updated for python3!
    – jtlz2
    Oct 27, 2021 at 17:41

You could try:

print ''.join(ch for ch in some_string if ch.isalnum())
  • lovely, beauty of python's simplicity! Aug 27, 2022 at 0:52
>>> import re
>>> string = "Kl13@£$%[};'\""
>>> pattern = re.compile('\W')
>>> string = re.sub(pattern, '', string)
>>> print string
  • 1
    i loved your answer but it removes the Arabic chars too can you tell me how to keep them
    – Charif DZ
    Jan 6, 2017 at 19:25

How about:

def ExtractAlphanumeric(InputString):
    from string import ascii_letters, digits
    return "".join([ch for ch in InputString if ch in (ascii_letters + digits)])

This works by using list comprehension to produce a list of the characters in InputString if they are present in the combined ascii_letters and digits strings. It then joins the list together into a string.

  • It seems that string.ascii_letters only contains letters (duh) and not numbers. I also need the numbers... Aug 14, 2009 at 9:06
  • Adding string.digits would indeed solve the problem I just mentioned. :) Aug 14, 2009 at 9:08
  • Yes, I realised that when I went back to read your question. Note to self: learn to read!
    – DrAl
    Aug 14, 2009 at 9:21

I checked the results with perfplot (a project of mine) and found that for short strings,

"".join(filter(str.isalnum, s))

is fastest. For long strings (200+ chars)

re.sub("[\W_]", "", s)

is fastest.

enter image description here

Code to reproduce the plot:

import perfplot
import random
import re
import string

pattern = re.compile("[\W_]+")

def setup(n):
    return "".join(random.choices(string.ascii_letters + string.digits, k=n))

def string_alphanum(s):
    return "".join(ch for ch in s if ch.isalnum())

def filter_str(s):
    return "".join(filter(str.isalnum, s))

def re_sub1(s):
    return re.sub("[\W_]", "", s)

def re_sub2(s):
    return re.sub("[\W_]+", "", s)

def re_sub3(s):
    return pattern.sub("", s)

b = perfplot.bench(
    kernels=[string_alphanum, filter_str, re_sub1, re_sub2, re_sub3],
    n_range=[2**k for k in range(10)],
  • Used this code and will let pass non alphanumeric chars, like russian text. Sep 2 at 3:22
sent = "".join(e for e in sent if e.isalpha())
  • I'll try to explain: it goes through all string characters in e for e in sent and checks via if e.isalpha() statement if the current char is alphabetic symbol, if so - joins it to the sent variable via sent = "".join() and all non-alphabetic symbols will be replaced with "" (empty string) because of join function.
    – Sysanin
    Sep 14, 2019 at 11:53
  • since this is doing a loop per character rather than relying on C regex, isn't this extremely slow?
    – dcsan
    Dec 31, 2019 at 10:00
  • I would prefer e.alnum() Feb 11, 2021 at 15:17

As a spin off from some other answers here, I offer a really simple and flexible way to define a set of characters that you want to limit a string's content to. In this case, I'm allowing alphanumerics PLUS dash and underscore. Just add or remove characters from my PERMITTED_CHARS as suits your use case.

PERMITTED_CHARS = "0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ_-" 
someString = "".join(c for c in someString if c in PERMITTED_CHARS)
  • 3
    Instead of hardcoding the permitted characters, which is prone to subtle errors, use string.digits + string.ascii_letters + '_-'.
    – Reti43
    Oct 25, 2017 at 22:43
  • Your suggestion is not wrong, but it also doesn't save many characters of "typing" if that's your goal. If you copy my post, you also won't have a typo! The real point, however, of my answer is allow an explicit, open-ended and simple means to define exactly which characters you want to allow.
    – BuvinJ
    Oct 25, 2017 at 22:54
  • As a middle ground, you might combine these suggestions into SPECIAL_CHARS = '_-' and then use string.digits + string.ascii_letters + SPECIAL_CHARS
    – BuvinJ
    Oct 25, 2017 at 22:56
  • It was a suggestion in terms of what is reasonable, unless we're doing code golf. "Walking" around the keyboard to type up 52 alphabet letters in order takes considerably longer than importing a package to use an object or two. And that doesn't include the time to double check you're typed it all up correctly. It's about good practices, that's all.
    – Reti43
    Oct 25, 2017 at 23:10
  • I hear you! My real point here is extreme flexibility, in case you want to get more specific with your character set.
    – BuvinJ
    Oct 25, 2017 at 23:19

Timing with random strings of ASCII printables:

from inspect import getsource
from random import sample
import re
from string import printable
from timeit import timeit

pattern_single = re.compile(r'[\W]')
pattern_repeat = re.compile(r'[\W]+')
translation_tb = str.maketrans('', '', ''.join(c for c in map(chr, range(256)) if not c.isalnum()))

def generate_test_string(length):
    return ''.join(sample(printable, length))

def main():
    for i in range(0, 60, 10):
        for test in [
            lambda: ''.join(c for c in generate_test_string(i) if c.isalnum()),
            lambda: ''.join(filter(str.isalnum, generate_test_string(i))),
            lambda: re.sub(r'[\W]', '', generate_test_string(i)),
            lambda: re.sub(r'[\W]+', '', generate_test_string(i)),
            lambda: pattern_single.sub('', generate_test_string(i)),
            lambda: pattern_repeat.sub('', generate_test_string(i)),
            lambda: generate_test_string(i).translate(translation_tb),

            print(timeit(test), i, getsource(test).lstrip('            lambda: ').rstrip(',\n'), sep='\t')

if __name__ == '__main__':

Result (Python 3.7):

       Time       Length                           Code                           
6.3716264850008880  00  ''.join(c for c in generate_test_string(i) if c.isalnum())
5.7285426190064750  00  ''.join(filter(str.isalnum, generate_test_string(i)))
8.1875841680011940  00  re.sub(r'[\W]', '', generate_test_string(i))
8.0002205439959650  00  re.sub(r'[\W]+', '', generate_test_string(i))
5.5290945199958510  00  pattern_single.sub('', generate_test_string(i))
5.4417179649972240  00  pattern_repeat.sub('', generate_test_string(i))
4.6772285089973590  00  generate_test_string(i).translate(translation_tb)
23.574712151996210  10  ''.join(c for c in generate_test_string(i) if c.isalnum())
22.829975890002970  10  ''.join(filter(str.isalnum, generate_test_string(i)))
27.210196289997840  10  re.sub(r'[\W]', '', generate_test_string(i))
27.203713296003116  10  re.sub(r'[\W]+', '', generate_test_string(i))
24.008979928999906  10  pattern_single.sub('', generate_test_string(i))
23.945240008994006  10  pattern_repeat.sub('', generate_test_string(i))
21.830899796994345  10  generate_test_string(i).translate(translation_tb)
38.731336012999236  20  ''.join(c for c in generate_test_string(i) if c.isalnum())
37.942474347000825  20  ''.join(filter(str.isalnum, generate_test_string(i)))
42.169366310001350  20  re.sub(r'[\W]', '', generate_test_string(i))
41.933375883003464  20  re.sub(r'[\W]+', '', generate_test_string(i))
38.899814646996674  20  pattern_single.sub('', generate_test_string(i))
38.636144253003295  20  pattern_repeat.sub('', generate_test_string(i))
36.201238164998360  20  generate_test_string(i).translate(translation_tb)
49.377356811004574  30  ''.join(c for c in generate_test_string(i) if c.isalnum())
48.408927293996385  30  ''.join(filter(str.isalnum, generate_test_string(i)))
53.901889764994850  30  re.sub(r'[\W]', '', generate_test_string(i))
52.130339455994545  30  re.sub(r'[\W]+', '', generate_test_string(i))
50.061149017004940  30  pattern_single.sub('', generate_test_string(i))
49.366573111998150  30  pattern_repeat.sub('', generate_test_string(i))
46.649754120997386  30  generate_test_string(i).translate(translation_tb)
63.107938601999194  40  ''.join(c for c in generate_test_string(i) if c.isalnum())
65.116287978999030  40  ''.join(filter(str.isalnum, generate_test_string(i)))
71.477421126997800  40  re.sub(r'[\W]', '', generate_test_string(i))
66.027950693998720  40  re.sub(r'[\W]+', '', generate_test_string(i))
63.315361931003280  40  pattern_single.sub('', generate_test_string(i))
62.342320287003530  40  pattern_repeat.sub('', generate_test_string(i))
58.249303059004890  40  generate_test_string(i).translate(translation_tb)
73.810345625002810  50  ''.join(c for c in generate_test_string(i) if c.isalnum())
72.593953348005020  50  ''.join(filter(str.isalnum, generate_test_string(i)))
76.048324580995540  50  re.sub(r'[\W]', '', generate_test_string(i))
75.106637657001560  50  re.sub(r'[\W]+', '', generate_test_string(i))
74.681338128997600  50  pattern_single.sub('', generate_test_string(i))
72.430461594005460  50  pattern_repeat.sub('', generate_test_string(i))
69.394243567003290  50  generate_test_string(i).translate(translation_tb)

str.maketrans & str.translate is fastest, but includes all non-ASCII characters. re.compile & pattern.sub is slower, but is somehow faster than ''.join & filter.


For a simple one-liner (Python 3.0):

''.join(filter( lambda x: x in '0123456789abcdefghijklmnopqrstuvwxyz', the_string_you_want_stripped ))

For Python < 3.0:

filter( lambda x: x in '0123456789abcdefghijklmnopqrstuvwxyz', the_string_you_want_stripped )

Note: you could add other characters to the allowed characters list if desired (e.g. '0123456789abcdefghijklmnopqrstuvwxyz.,_').


Python 3

Uses the same method as @John Machin's answer but updated for Python 3:

  • larger character set
  • slight changes to how translate works.

Python code is now assumed to be encoded in UTF-8
(source: PEP 3120)

This means the string containing all the characters you wish to delete gets much larger:

del_chars = ''.join(c for c in map(chr, range(1114111)) if not c.isalnum())

And the translate method now needs to consume a translation table which we can create with maketrans():

del_map = str.maketrans('', '', del_chars)

Now, as before, any string s you want to "scrunch":

scrunched = s.translate(del_map)

Using the last timing example from @Joe Machin, we can see it still beats re by an order of magnitude:

> python -mtimeit -s"d=''.join(c for c in map(chr,range(1114111)) if not c.isalnum());m=str.maketrans('','',d);s='foo-'*25" "s.translate(m)"
1000000 loops, best of 5: 255 nsec per loop
> python -mtimeit -s"import re;s='foo-'*25;r=re.compile(r'[\W_]+')" "r.sub('',s)"
50000 loops, best of 5: 4.8 usec per loop
for char in my_string:
    if not char.isalnum():
        my_string = my_string.replace(char,"")

A simple solution because all answers here are complicated

filtered = ''
for c in unfiltered:
    if str.isalnum(c):
        filtered += c

If you'd like to preserve characters like áéíóúãẽĩõũ for example, use this:

import re
re.sub('[\W\d_]+', '', your_string)

If i understood correctly the easiest way is to use regular expression as it provides you lots of flexibility but the other simple method is to use for loop following is the code with example I also counted the occurrence of word and stored in dictionary..

s = """An... essay is, generally, a piece of writing that gives the author's own 
argument — but the definition is vague, 
overlapping with those of a paper, an article, a pamphlet, and a short story. Essays 
have traditionally been 
sub-classified as formal and informal. Formal essays are characterized by "serious 
purpose, dignity, logical 
organization, length," whereas the informal essay is characterized by "the personal 
element (self-revelation, 
individual tastes and experiences, confidential manner), humor, graceful style, 
rambling structure, unconventionality 
or novelty of theme," etc.[1]"""

d = {}      # creating empty dic      
words = s.split() # spliting string and stroing in list
for word in words:
    new_word = ''
    for c in word:
        if c.isalnum(): # checking if indiviual chr is alphanumeric or not
            new_word = new_word + c
    print(new_word, end=' ')
    # if new_word not in d:
    #     d[new_word] = 1
    # else:
    #     d[new_word] = d[new_word] +1

please rate this if this answer is useful!

  • While I think those that voted this down were being a little harsh. It would have been better of them to point out how slow this would be, and that this wouldn't be the most performant option. @otto-allmendinger . Answer gives more insight in to that Sep 4, 2021 at 14:41

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