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I have set of string like below a.b.c


If asked for a1.* it should return me all the string starting from a1. If asked for a1.b1 , then should return all the string starting from a1.b1

All the output should be in sorted fashion ( lexicographic )

Any suggestion on datastructure, I was thinking of Suffix Tree.

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what about a simple List and some regexp pattern matching to filter the elements? – Stefano Crespi Mar 21 '13 at 4:38

This code may help you.

String stringarray[] = {"a1.b1.c1",
String startingfrom = "a1.b1";
for(int i = 0; i < stringarray.length;i++) {
              System.out.println("string is : " + stringarray[i]);
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If your set of strings is basically fixed (not updated often), a simple sorted list would be fine. To find all the strings with a prefix, perform a binary search on that list, finding the first string. Then iterate from that point while strings match the prefix.

In terms of builtin Java data structures, I'd recommend using a TreeSet.

SortedSet<String> data = new TreeSet<String>();

Set<String> findMatching(SortedSet<String> data, String prefix) {
    String prefix = prefix.replace("*", ""); // remove unnecessary *
    String nextPrefix = prefix + '\uffff'; // a string guaranteed to be after anything matching the prefix
    // get the subset after the prefix, and then get the subset of that before the prefix
    return data.tailSet(prefix).headSet(nextPrefix, false);

findMatching(data, "a1.b1.*");

Using nextPrefix is a little ugly, as I have assumed that prefixes will always be sequences of .-separated parts, and that appending the FFFF character is the best way to get a string greater than any matching the prefix. There may be nicer ways of doing this part.

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NavigabeeSet can do things like that and fast:

    NavigableSet<String> s = new TreeSet<>();
    s.addAll(Arrays.asList("a1.b1.c1", "a1.b1.c2", "a1.b2.c3", "a2.b1.c1"));
    System.out.println(s.subSet("a1.", true, "a2", false)); // a1.*
    System.out.println(s.tailSet("a1.b1"));                 // a1.b1


[a1.b1.c1, a1.b1.c2, a1.b2.c3]
[a1.b1.c1, a1.b1.c2, a1.b2.c3, a2.b1.c1]
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My function:

class Match
    public static ArrayList<String> match (String[] data, String regex)
        ArrayList<String> m = new ArrayList<String>();

        for (String d : data)
            if (d.matches(regex))


        return m;


String data [] =

// match using a regular expression
ArrayList<String> matched = match (data, "^a1\.b1.*");
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You can create a 3d tree (a special case of kd-tree). Then to do search on something like a1.b1.*, you do a range search on a1.b1.c1_min and a1.b1.c1_max. And sort the output.

That would give you O (n ^ (2/3) + r) for search and O (r log (r)) for sort, where n is the number of all nodes and r is the number of found nodes.

Search complexity follows from search complexity of a general kd-tree: O(n ^ (1-1/k) + r), in case of 3d tree, k is 3. ^ is to the power of.

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