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Given a set of strings, for example:


I want to be able to detect that these are three sets of files:

  • EntireS[1,2]
  • J27[Red,Green]P[1,2]
  • JournalP[1,2][Red,Green,Blue]

Are there any known ways of approaching this problem - any published papers I can read on this?

The approach I am considering is for each string look at all other strings and find the common characters and where differing characters are, trying to find sets of strings that have the most in common, but I fear that this is not very efficient and may give false positives.

Note that this is not the same as 'How do I detect groups of common strings in filenames' because that assumes that a string will always have a series of digits following it.

[Edited 15/09/09 to add more sample strings]

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What is the rule that determines that [J27Red,Journal]P27[Red,Green] is not a set? Are you giving precedence to matches that start earlier in the string? –  djna Sep 11 '09 at 13:26
Please be more specific as to how you want to define your sets. E.g., in addition to prior comment, what determines that "J27[Red,Green]P[1,2]" is a set and [A-Z][A-Z][A-Z][A-Z][A-Z][A-Z][0-9] or some-such is not. –  DVK Sep 11 '09 at 13:30
By assuming that all files in a given familly start with a common sequence, we greatly reduce the complexity of the problem. Is this effectively an assumption you effectively wish to use or just a coindence that the example set happen to be so ? –  mjv Sep 11 '09 at 13:33
Aside from the lack of specificity for the rules defining the criteria of pattern matching, this is a great question. It is an example of problem which a child can solve effortlessly, yet which could require the collective brain of SO to outline a workable algorithm [with a practical big O complexity] –  mjv Sep 11 '09 at 13:42
@djna @DVK using J27[Red,Green]P[1,2] and JournalP[1,2][Red,Green,Blue] instead give higher numbers of common characters. There could be theoretical examples where looking for the most common characters produces the wrong result, but I don't think this will happen for my data sets. –  danio Sep 11 '09 at 13:46

8 Answers 8

up vote 8 down vote accepted

I would start here: http://en.wikipedia.org/wiki/Longest_common_substring_problem

There are links to supplemental information in the external links, including Perl implementations of the two algorithms explained in the article.

Edited to add:

Based on the discussion, I still think Longest Common Substring could be at the heart of this problem. Even in the Journal example you reference in your comment, the defining characteristic of that set is the substring 'Journal'.

I would first consider what defines a set as separate from the other sets. That gives you your partition to divide up the data, and then the problem is in measuring how much commonality exists within a set. If the defining characteristic is a common substring, then Longest Common Substring would be a logical starting point.

To automate the process of set detection, in general, you will need a pairwise measure of commonality which you can use to measure the 'difference' between all possible pairs. Then you need an algorithm to compute the partition that results in the overall lowest total difference. If the difference measure is not Longest Common Substring, that's fine, but then you need to determine what it will be. Obviously it needs to be something concrete that you can measure.

Bear in mind also that the properties of your difference measurement will bear on the algorithms that can be used to make the partition. For example, assume diff(X,Y) gives the measure of difference between X and Y. Then it would probably be useful if your measure of distance was such that diff(A,C) <= diff(A,B) + diff(B,C). And obviously diff(A,C) should be the same as diff(C,A).

In thinking about this, I also begin to wonder whether we could conceive of the 'difference' as a distance between any two strings, and, with a rigorous definition of the distance, could we then attempt some kind of cluster analysis on the input strings. Just a thought.

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This is helpful, but I think I'm closer to the Longest common subsequence problem as I may have several substrings (e.g. the Journal example) –  danio Sep 11 '09 at 14:07
Yes, possibly. When I first read your question I thought the 'sets' would be restricted to a single sub-string root, with various appendages. But I see now that you're looking for something more involved. –  Jeremy Bourque Sep 11 '09 at 14:25
I will experiment to see how LCS works with multiple common substrings. Your new points about distance & clustering also looks like a good approach to try - thanks. –  danio Sep 15 '09 at 14:39

There are many many approaches to string similarity. I would suggest taking a look at this open-source library that implements alot of metrics like the levenshtein distance.


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This is helpful - looks like Levenshtein Distance, Needleman-Wunch distance or similar might be useful as a distance function to use in the technique suggested by jbourque. –  danio Sep 15 '09 at 14:37
SimMetrics link is dead, but the package is on SourceForge: sourceforge.net/projects/simmetrics –  mins Jul 29 at 16:25

Something like that might work.

  1. Build a trie that represents all your strings.

In the example you gave, there would be two edges from the root: "E" and "J". The "J" branch would then split into "Jo" and "J2".

  1. A single strand that forks, e.g. E-n-t-i-r-e-S-(forks to 1, 2) indicates a choice, so that would be EntireS[1,2]

  2. If the strand is "too short" in relation to the fork, e.g. B-A-(forks to N-A-N-A and H-A-M-A-S), we list two words ("banana, bahamas") rather than a choice ("ba[nana,hamas]"). "Too short" might be as simple as "if the part after the fork is longer than the part before", or maybe weighted by the number of words that have a given prefix.

  3. If two subtrees are "sufficiently similar" then they can be merged so that instead of a tree, you now have a general graph. For example if you have ABRed,ABBlue,ABGreen,CDRed,CDBlue,CDGreen, you may find that the subtree rooted at "AB" is the same as the subtree rooted at "CD", so you'd merge them. In your output this will look like this: [left branch, right branch][subtree], so: [AB,CD][Red,Blue,Green]. How to deal with subtrees that are close but not exactly the same? There's probably no absolute answer but someone here may have a good idea.

I'm marking this answer community wiki. Please feel free to extend it so that, together, we may have a reasonable answer to the question.

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I like this approach but I think it will struggle with e.g. J-27-(RedP,GreenP)-(1,2). I want to be able to identify Red and Green in this case so seems there will be more processing required to find the common substring. –  danio Sep 15 '09 at 14:35
I'm not sure why you think it would struggle: in this case the subtree under both J27RedP and J27GreenP is identical: (1,2). So step 3 will merge them. Displaying this merged tree will directly return J27-(RedP,GreenP)-(1,2) since -(a,b) is how you write (fork to a and b). –  redtuna Sep 18 '09 at 14:57

You should be able to achieve this with generalized suffix trees: look for long paths in the suffix tree which come from multiple source strings.

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For this particular example of strings to keep it extremely simple consider using simple word/digit -separation.

A non-digit sequence apparently can begin with capital letter (Entire). After breaking all strings into groups of sequences, something like


Then start grouping by groups, you can fairly soon see that prefix "Entire" is a common for some group and that all subgroups have S as headgroup, so only variable for those is 1,2. For J27 case you can see that J27 is only leaf, but that it then branches at Red and Green.

So somekind of List<Pair<list, string>> -structure (composite pattern if I recall correctly).

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Nice idea but the actual strings will not have a simpel rule to find like this - I just used caps in the sample to make it easier to read. –  danio Sep 15 '09 at 14:19

I recently wrote a script for this purpose. Still improving it but it may suit your purpose (especially if you know some Perl so you can use the -e option):


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If I read your code correctly it will only find entire strings that are substrings of another. I want to find common substrings in multiple strings. –  danio Sep 15 '09 at 14:36
That's correct. The reason is that if you do that, it's difficult to know where to stop. Many filenames contain, say, 'e'. –  reinierpost Sep 16 '09 at 11:15
import java.util.*;
class StringProblem
    public List<String> subString(String name)
        List<String> list=new ArrayList<String>(); 
        for(int i=0;i<=name.length();i++)
           for(int j=i+1;j<=name.length();j++)
               String s=name.substring(i,j);
        return list;
    public String commonString(List<String> list1,List<String> list2,List<String> list3)

        Iterator it=list3.iterator();
        String s="";
        int length=0;
        System.out.println(list3);   // 1 1 2 3 1 2 1
        return s;
    public static void main(String args[])
        Scanner sc=new Scanner(System.in);
        System.out.println("Enter the String1:");
        String name1=sc.nextLine();
        System.out.println("Enter the String2:");
        String name2=sc.nextLine();
        System.out.println("Enter the String3:");
        String name3=sc.nextLine();
      //  String name1="salman";
      //  String name2="manmohan";
      //  String name3="rahman";

        StringProblem  sp=new StringProblem();

        List<String> list1=new ArrayList<String>();

        List<String> list2=new ArrayList<String>();

        List<String> list3=new ArrayList<String>();

        System.out.println(" "+sp.commonString(list1,list2,list3));
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try "frak" . It creates regex expression from set of strings. Maybe some modification of it will help you. https://github.com/noprompt/frak

Hope it helps.

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