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I have set of 100000 String. And for example I want to get all strings starting with "JO" from that set. What would be the best solution for that?

I was thinking Aho-Corasick but the implementation I have does not support wild cards.

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I'm probably missing something, but what's wrong with looping and doing str.matches(somePattern)? – aioobe May 10 '11 at 15:32
1  
Are you always going to be looking for strings of the form "xyz*", or do you also want to look for strings of the form "x*y" etc? – Dilum Ranatunga May 10 '11 at 15:33
    
@aioobe, your suggestion is O(n) for each lookup, and also incurs possibly unnecessary memory use to return results. – Dilum Ranatunga May 10 '11 at 15:34
    
@Mat you don't want to go there. Java Strings are unicode-based. Matching bytes will be hell – Sean Patrick Floyd May 10 '11 at 15:35
2  
If you compare them more than once, it could be faster to sort them once, and then to do a binary search. – user unknown May 10 '11 at 15:42
up vote 10 down vote accepted

If you want all the strings starting with a sequence you can add all the String into a NavigableSet like TreeSet and get the subSet(text, text+'\uFFFF') will give you all the entries starting with text This lookup is O(log n)


If you want all the Strings with end with a sequence, you can do a similar thing, except you have to reverse the String. In this case a TreeMap from reversed String to forward String would be a better structure.

If you want "x*z" you can do a search with the first set and take a union with the values of the Map.

if you want contains "x", you can use a Navigable<String, Set<String>> where the key is each String starting from the first, second, third char etc The value is a Set as you can get duplicates. You can do a search like the starts with structure.

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3  
Wow, great answer Peter. +1 – aioobe May 10 '11 at 15:43
2  
That's elegant! But if you don't already have the TreeSet, filling it will be O(n log n), when just simply searching an ArrayList is O(n) – Lukas Eder May 10 '11 at 15:45
    
Right. The topic states that he has a "collection". Hopefully he is able to choose this collection himself. – aioobe May 10 '11 at 15:49
    
@aioobe, I had hoped he has a Set already which can be easily changed to a TreeSet or ConcurrentSkipListSet if concurrency is required. – Peter Lawrey May 10 '11 at 15:53

Here's a custom matcher class that does the matching without regular expressions (it only uses regex in the constructor, to put it more precisely) and supports wildcard matching:

public class WildCardMatcher {
    private Iterable<String> patternParts;
    private boolean openStart;
    private boolean openEnd;

    public WildCardMatcher(final String pattern) {
        final List<String> tmpList = new ArrayList<String>(
                                     Arrays.asList(pattern.split("\\*")));
        while (tmpList.remove("")) { /* remove empty Strings */ }
        // these last two lines can be made a lot simpler using a Guava Joiner
        if (tmpList.isEmpty())
            throw new IllegalArgumentException("Invalid pattern");
        patternParts = tmpList;
        openStart = pattern.startsWith("*");
        openEnd = pattern.endsWith("*");
    }

    public boolean matches(final String item) {
        int index = -1;
        int nextIndex = -1;
        final Iterator<String> it = patternParts.iterator();
        if (it.hasNext()) {
            String part = it.next();
            index = item.indexOf(part);
            if (index < 0 || (index > 0 && !openStart))
                return false;
            nextIndex = index + part.length();
            while (it.hasNext()) {
                part = it.next();
                index = item.indexOf(part, nextIndex);
                if (index < 0)
                    return false;
                nextIndex = index + part.length();
            }
            if (nextIndex < item.length())
                return openEnd;
        }
        return true;
    }

}

Here's some test code:

public static void main(final String[] args) throws Exception {
    testMatch("foo*bar", "foobar", "foo123bar", "foo*bar", "foobarandsomethingelse");
    testMatch("*.*", "somefile.doc", "somefile", ".doc", "somefile.");
    testMatch("pe*", "peter", "antipeter");
}

private static void testMatch(final String pattern, final String... words) {
    final WildCardMatcher matcher = new WildCardMatcher(pattern);
    for (final String word : words) {
        System.out.println("Pattern " + pattern + " matches word '"
                          + word + "': " + matcher.matches(word));
    }
}

Output:

Pattern foo*bar matches word 'foobar': true
Pattern foo*bar matches word 'foo123bar': true
Pattern foo*bar matches word 'foo*bar': true
Pattern foo*bar matches word 'foobarandsomethingelse': false
Pattern *.* matches word 'somefile.doc': true
Pattern *.* matches word 'somefile': false
Pattern *.* matches word '.doc': true
Pattern *.* matches word 'somefile.': true
Pattern pe* matches word 'peter': true
Pattern pe* matches word 'antipeter': false

While this is far from being production-ready, it should be fast enough and it supports multiple wild cards (including in the first and last place). But of course if your wildcards are only at the end, use Peter's answer (+1).

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is it possible to get a \W mixed into your solution without being forced to use regex? – Wrench Oct 12 '14 at 6:54

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