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?

  • @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
  • 1
  • @Elisha512 what do you mean by commonly occuring substring ? Do you want all the substrings which are common in all the strings provided ?
    – Shasha99
    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",

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",

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).


To count the number of strings wherein each ngram occurs

from collections import Counter
sequences = ["brownasdfoersjumps",

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

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

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
  • 1
    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:
    return result

def getCommonSequences(S):
    mainList = []
    for word in S:
        temp = getSubSequences(word)
    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[1], reverse=True)}

    return finalData

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

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