How can I check if any of the strings in an array exists in another string?


a = ['a', 'b', 'c']
str = "a123"
if a in str:
  print "some of the strings found in str"
  print "no strings found in str"

That code doesn't work, it's just to show what I want to achieve.

  • 8
    I'm surprised there aren't (yet) any answers comparing to a compiled regex in terms of perf, especially compared to size of the string and number of "needles" to search for.
    – Pat
    Apr 22, 2015 at 23:21
  • 5
    @Pat I am not surprised. The question is not about performance. Today most programmers care more for getting it done and readability. The performance question is valid, but a different question.
    – guettli
    Jul 13, 2016 at 6:42
  • 22
    Using str as a variable is confusing and may result in unexpected behavior as it is a reserved word; see link. Feb 16, 2018 at 21:16
  • regex [abc] also works perfectly well and will be faster if there are more than a couple of candidates to test. But if the strings are arbitrary and you don't know them in advance to construct a regex, you will have to use the any(x in str for x in a) approach.
    – smci
    Jan 8, 2020 at 13:15
  • 2
    @CleverGuy You're right, though it's not a reserved word, otherwise you wouldn't be able to assign to it. It's a builtin.
    – wjandrea
    May 18, 2020 at 0:08

17 Answers 17


You can use any:

a_string = "A string is more than its parts!"
matches = ["more", "wholesome", "milk"]

if any(x in a_string for x in matches):

Similarly to check if all the strings from the list are found, use all instead of any.

  • 16
    any() takes an iterable. I am not sure which version of Python you are using but in 2.6 you will need to put [] around your argument to any(). any([x in str for x in a]) so that the comprehension returns an iterable. But maybe later versions of Python already do this.
    – emispowder
    Mar 27, 2013 at 1:06
  • 8
    @Mark Byers: Sorry for the late comment, but is there a way to print the string that was found? How would you do this. Thank you. Aug 1, 2013 at 1:26
  • 4
    Not sure I understand, if a is the list, and str is the thing to match against, what is the x? Python newbie ftw. :)
    – red
    Nov 13, 2013 at 14:01
  • 7
    @emispowder It works fine for me as-is in Python 2.6.9.
    – MPlanchard
    Jul 10, 2015 at 18:25
  • 7
    @emispowder: Generator expressions were introduced in 2.4.
    – zondo
    Apr 22, 2017 at 3:07

any() is by far the best approach if all you want is True or False, but if you want to know specifically which string/strings match, you can use a couple things.

If you want the first match (with False as a default):

match = next((x for x in a if x in str), False)

If you want to get all matches (including duplicates):

matches = [x for x in a if x in str]

If you want to get all non-duplicate matches (disregarding order):

matches = {x for x in a if x in str}

If you want to get all non-duplicate matches in the right order:

matches = []
for x in a:
    if x in str and x not in matches:
  • please add example for the last match too Apr 2, 2018 at 21:46
  • @OlegKokorin: It creates a list of matching strings in the same order it finds them, but it keeps only the first one if two are the same.
    – zondo
    Apr 4, 2018 at 0:35
  • Using an OrderedDict is probably more performant than a list. See this answer on "Removing duplicates in lists"
    – wjandrea
    May 18, 2020 at 0:11
  • Can you provide an example?
    – Herwini
    Nov 16, 2020 at 14:18

You should be careful if the strings in a or str gets longer. The straightforward solutions take O(S*(A^2)), where S is the length of str and A is the sum of the lenghts of all strings in a. For a faster solution, look at Aho-Corasick algorithm for string matching, which runs in linear time O(S+A).

  • can Aho-Corasick also find substrings instead of prefixes ?
    – RetroCode
    Sep 26, 2016 at 19:58
  • 3
    Some python Aho-Corasick libraries are here and here
    – vorpal
    Sep 27, 2017 at 10:54

Just to add some diversity with regex:

import re

if any(re.findall(r'a|b|c', str, re.IGNORECASE)):
    print 'possible matches thanks to regex'
    print 'no matches'

or if your list is too long - any(re.findall(r'|'.join(a), str, re.IGNORECASE))

  • 1
    This works for the given use case of the question. If the you search for ( or * this fails, since quoting for the regex syntax needs to be done.
    – guettli
    Jul 12, 2016 at 10:13
  • 4
    You can escape it if necessary with '|'.join(map(re.escape, strings_to_match)). You sould probably re.compile('|'.join(...)) as well.
    – Artyer
    Nov 4, 2017 at 21:50
  • 1
    And What's the time complexity ? Apr 30, 2021 at 1:51

A surprisingly fast approach is to use set:

a = ['a', 'b', 'c']
str = "a123"
if set(a) & set(str):
    print("some of the strings found in str")
    print("no strings found in str")

This works if a does not contain any multiple-character values (in which case use any as listed above). If so, it's simpler to specify a as a string: a = 'abc'.


You need to iterate on the elements of a.

a = ['a', 'b', 'c']
str = "a123"
found_a_string = False
for item in a:    
    if item in str:
        found_a_string = True

if found_a_string:
    print "found a match"
    print "no match found"
  • 2
    Yes i knew how to do that but compared to Marks answer, that's horrible code.
    – jahmax
    Aug 2, 2010 at 16:24
  • 14
    Only if you understand Mark's code. The problem you were having is that you weren't examining the elements of your array. There are a lot of terse, pythonic ways to accomplish what you want that would hide the essence of what was wrong with your code. Aug 2, 2010 at 16:38
  • 13
    It may be 'horrible code' but it's exactly what any() does. Also, this gives you the actual string that matched, whereas any() just tells you there is a match. Apr 1, 2013 at 15:21
a = ['a', 'b', 'c']
str =  "a123"

a_match = [True for match in a if match in str]

if True in a_match:
  print "some of the strings found in str"
  print "no strings found in str"

jbernadas already mentioned the Aho-Corasick-Algorithm in order to reduce complexity.

Here is one way to use it in Python:

  1. Download aho_corasick.py from here

  2. Put it in the same directory as your main Python file and name it aho_corasick.py

  3. Try the alrorithm with the following code:

    from aho_corasick import aho_corasick #(string, keywords)
    print(aho_corasick(string, ["keyword1", "keyword2"]))

Note that the search is case-sensitive

  • This would be better as a comment on, or edit to that answer. Aug 2 at 23:45

A compact way to find multiple strings in another list of strings is to use set.intersection. This executes much faster than list comprehension in large sets or lists.

>>> astring = ['abc','def','ghi','jkl','mno']
>>> bstring = ['def', 'jkl']
>>> a_set = set(astring)  # convert list to set
>>> b_set = set(bstring)
>>> matches = a_set.intersection(b_set)
>>> matches
{'def', 'jkl'}
>>> list(matches) # if you want a list instead of a set
['def', 'jkl']
  • The input is specified as a list of strings vs. a longer string that might contain them as a substring, not as two lists of strings. Aug 2 at 23:44

The regex module recommended in python docs, supports this

words = {'he', 'or', 'low'}
p = regex.compile(r"\L<name>", name=words)
m = p.findall('helloworld')


['he', 'low', 'or']

Some details on implementation: link


Just some more info on how to get all list elements availlable in String

a = ['a', 'b', 'c']
str = "a123" 
list(filter(lambda x:  x in str, a))

Yet another solution with set. using set.intersection. For a one-liner.

subset = {"some" ,"words"} 
text = "some words to be searched here"
if len(subset & set(text.split())) == len(subset):
   print("All values present in text")

if subset & set(text.split()):
   print("Atleast one values present in text")

It depends on the context suppose if you want to check single literal like(any single word a,e,w,..etc) in is enough

original_word ="hackerearcth"
for 'h' in original_word:

if you want to check any of the character among the original_word: make use of

if any(your_required in yourinput for your_required in original_word ):

if you want all the input you want in that original_word,make use of all simple

original_word = ['h', 'a', 'c', 'k', 'e', 'r', 'e', 'a', 'r', 't', 'h']
yourinput = str(input()).lower()
if all(requested_word in yourinput for requested_word in original_word):
  • What would be yourinput? I can recognise two things: the sentence where I'm looking for something. The array of words I'm looking for. But you describe three variables and I can't get what the third one is.
    – mayid
    May 19, 2019 at 22:43
flog = open('test.txt', 'r')
flogLines = flog.readlines()
strlist = ['SUCCESS', 'Done','SUCCESSFUL']
res = False
for line in flogLines:
     for fstr in strlist:
         if line.find(fstr) != -1:
            res = True

if res:
    print('res true')
    print('res false')

output example image


I would use this kind of function for speed:

def check_string(string, substring_list):
    for substring in substring_list:
        if substring in string:
            return True
    return False
data = "firstName and favoriteFood"
mandatory_fields = ['firstName', 'lastName', 'age']

# for each
for field in mandatory_fields:
    if field not in data:
        print("Error, missing req field {0}".format(field));

# still fine, multiple if statements
if ('firstName' not in data or 
    'lastName' not in data or
    'age' not in data):
    print("Error, missing a req field");

# not very readable, list comprehension
missing_fields = [x for x in mandatory_fields if x not in data]
if (len(missing_fields)>0):
    print("Error, missing fields {0}".format(", ".join(missing_fields)));

If you want exact matches of words then consider word tokenizing the target string. I use the recommended word_tokenize from nltk:

from nltk.tokenize import word_tokenize

Here is the tokenized string from the accepted answer:

a_string = "A string is more than its parts!"
tokens = word_tokenize(a_string)
Out[46]: ['A', 'string', 'is', 'more', 'than', 'its', 'parts', '!']

The accepted answer gets modified as follows:

matches_1 = ["more", "wholesome", "milk"]
[x in tokens for x in matches_1]
Out[42]: [True, False, False]

As in the accepted answer, the word "more" is still matched. If "mo" becomes a match string, however, the accepted answer still finds a match. That is a behavior I did not want.

matches_2 = ["mo", "wholesome", "milk"]
[x in a_string for x in matches_1]
Out[43]: [True, False, False]

Using word tokenization, "mo" is no longer matched:

[x in tokens for x in matches_2]
Out[44]: [False, False, False]

That is the additional behavior that I wanted. This answer also responds to the duplicate question here.

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