# How to find the longest common substring of multiple strings?

I am writing a python script where I have multiple strings.

For example:

``````x = "brownasdfoersjumps"
y = "foxsxzxasis12sa[[#brown"
z = "thissasbrownxc-34a@s;"
``````

In all these three strings, they have one sub string in common which is `brown`. I want to search it in a way that I want to create a dictionary as:

``````dict = {[commonly occuring substring] =>
[total number of occurrences in the strings provided]}
``````

What would be the best way of doing that? Considering that I will have more than 200 strings each time, what would be an easy/efficient way of doing it?

• Nov 11 '16 at 21:31
• @WiktorStribiżew My question is quite different from what you commented. He is trying to compare only two strings which is pretty simple where as I need to use multiple strings to find a common element which occurs more than once. Nov 11 '16 at 21:33
• The naïve way would be to pick the shortest word and search for all its ngrams of increasing size in all the other strings. Nov 11 '16 at 21:41
• @Elisha512 what do you mean by commonly occuring substring ? Do you want all the substrings which are common in all the strings provided ? Nov 11 '16 at 22:06

This is a relatively optimised naïve algorithm. You first transform each sequence into a set of all its ngrams. Then you intersect all sets and find the longest ngram in the intersection.

``````from functools import partial, reduce
from itertools import chain
from typing import Iterator

def ngram(seq: str, n: int) -> Iterator[str]:
return (seq[i: i+n] for i in range(0, len(seq)-n+1))

def allngram(seq: str) -> set:
lengths = range(len(seq))
ngrams = map(partial(ngram, seq), lengths)
return set(chain.from_iterable(ngrams))

sequences = ["brownasdfoersjumps",
"foxsxzxasis12sa[[#brown",
"thissasbrownxc-34a@s;"]

seqs_ngrams = map(allngram, sequences)
intersection = reduce(set.intersection, seqs_ngrams)
longest = max(intersection, key=len) # -> brown
``````

While this might get you through short sequences, this algorithm is extremely inefficient on long sequences. If your sequences are long, you can add a heuristic to limit the largest possible ngram length (i.e. the longest possible common substring). One obvious value for such a heuristic may be the shortest sequence's length.

``````def allngram(seq: str, minn=1, maxn=None) -> Iterator[str]:
lengths = range(minn, maxn) if maxn else range(minn, len(seq))
ngrams = map(partial(ngram, seq), lengths)
return set(chain.from_iterable(ngrams))

sequences = ["brownasdfoersjumps",
"foxsxzxasis12sa[[#brown",
"thissasbrownxc-34a@s;"]

maxn = min(map(len, sequences))
seqs_ngrams = map(partial(allngram, maxn=maxn), sequences)
intersection = reduce(set.intersection, seqs_ngrams)
longest = max(intersection, key=len)  # -> brown
``````

This may still take too long (or make your machine run out of RAM), so you might want to read about some optimal algorithms (see the link I left in my comment to your question).

Update

To count the number of strings wherein each ngram occurs

``````from collections import Counter
sequences = ["brownasdfoersjumps",
"foxsxzxasis12sa[[#brown",
"thissasbrownxc-34a@s;"]

seqs_ngrams = map(allngram, sequences)
counts = Counter(chain.from_iterable(seqs_ngrams))
``````

`Counter` is a subclass of `dict`, so its instances have similar interfaces:

``````print(counts)
Counter({'#': 1,
'#b': 1,
'#br': 1,
'#bro': 1,
'#brow': 1,
'#brown': 1,
'-': 1,
'-3': 1,
'-34': 1,
'-34a': 1,
'-34a@': 1,
'-34a@s': 1,
'-34a@s;': 1,
...
``````

You can filter the counts to leave substrings occurring in at least `n` strings: `{string: count for string, count in counts.items() if count >= n}`

• Thanks! Thats exactly what I was looking for. :) Nov 11 '16 at 22:24
• there is one more thing. It gives me the longest element but what if I want to find all elements that occur more than once and add their occurance number to a dictionary as [sequence] => [occurence] ? Would you be able to suggest something o that? Nov 11 '16 at 22:27
• @Elisha512 since that is another, SO policies recommend to start a new post. I would gladly help you with that, though. Nov 11 '16 at 22:32
• Thank you for the edit! But I am asking about the second part of my question. Please see my question where I mention about adding to the dictionary. If you can just help me with it, that would be epic! Nov 11 '16 at 22:36
• Wow man, I can't avoid to acknowledge the beauty in your implementation. Great code. Thanks a lot for sharing Aug 13 '19 at 16:12

I have used a straightforward method to get the common sub sequences from multiple strings. Although the code can be further optimised.

``````import itertools

def getMaxOccurrence(stringsList, key):
count = 0
for word in stringsList:
if key in word:
count += 1
return count

def getSubSequences(STR):
combs = []
result = []
for l in range(1, len(STR)+1):
combs.append(list(itertools.combinations(STR, l)))

for c in combs:
for t in c:
result.append(''.join(t))
return result

def getCommonSequences(S):
mainList = []
for word in S:
temp = getSubSequences(word)
mainList.extend(temp)

mainList = list(set(mainList))
mainList = reversed(sorted(mainList, key=len))
mainList = list(filter(None, mainList))

finalData = dict()

for alpha in mainList:
val = getMaxOccurrence(S, alpha)
if val > 0:
finalData[alpha] = val

finalData = {k: v for k, v in sorted(finalData.items(), key=lambda item: item, reverse=True)}

return finalData

stringsList = ['abc', 'cab', 'dfab', 'xz']
seqs = getCommonSequences(stringsList)
print(seqs)
``````