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I'm trying to understand a little more string operations and regexes. Here is, for example, a given array of String :

String [] tab = {"__09_23_HELLO","__89_2_WORLD","900_23_TRY","_34_90_SATELLITE", 
"___23_", "390"};

What I want to do here is to keep data ONLY after underscores followed by a letter, and if I can't find it, return null. In this example I would get this :


So I wrote this recursive function :

public String getName(String string, int i)
    if(i == string.length()-1) return null;
    if(string.charAt(i) != '_' || 
      (string.charAt(i) == '_' && !Character.isLetter(string.charAt(i+1)))) 
        return getName(string, i+1);
        return string.substring(i+1);

And it works well. But as I don't know a lot regexes (and maybe other ways to do ?), I would like to know if I can do that with a regex, and if it will proceed faster with a large amount of data.

Thanks for your answers.

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4 Answers 4

up vote 3 down vote accepted

While you can work with a recursive function it'll most definitely be faster to use a different approach:

  • Either I would use a loop (similar to your approach but use a loop instead of recursion to increase the counter i).

  • Or, write it with a regex matching as you suggested.

Which of these two possibilities is faster is not easy to decide, but I would guess that the regex is faster unless your loop code was very clever and as minimal as possible. To find out there is no way around coding up the two approaches and benchmarking it...

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Thanks for your answer. As I replied to jlordo, I'm afraid that having to reinit a Matcher every time I go in the for-loop will make the process slower in the end, if I use a regex, am I wrong? –  Rob Mar 7 '13 at 10:01
I tried to process it iteratively, creating a j for-loop for every tab[i], but it took more time than my recursive loop. –  Rob Mar 7 '13 at 10:20
Hmm, interesting. Wanna share that iterative code? As for the Matcher initialization: it could well be that the initialization is slower. Especially for short strings/simple patterns (as in your case) a 'hand-drawn' version might be fastest. But as with all performance questions, the only way to know for certain is to implement it and run some benchmarks... –  fgysin Mar 7 '13 at 14:21

Apply regEx for each element in array:

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JIT has a hard time optimizing recursive calls (see this article), so I try to avoid it where possible. Here's a regex solution (in combination with substring, as you anticipated with your tag).

String [] tab = {"__09_23_HELLO","__89_2_WORLD","900_23_TRY","_34_90_SATELLITE",  "___23_", "390"};
Pattern pattern = Pattern.compile("_[a-zA-Z]");
for (int i = 0; i < tab.length; i++) {
    Matcher matcher = pattern.matcher(tab[i]);
    if (matcher.find()) {
        tab[i] = tab[i].substring(matcher.start() + 1);
    } else {
        tab[i] = null;
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Your example is interesting and thanks a lot for your answer. But assuming we will have to reinit the matcher every time we go in the for-loop, won't it be slower in the end? And will it change something to create the Matcher matcher; before the for-loop and only reinit it everytime : matcher = pattern.matcher(tab[i]); ? –  Rob Mar 7 '13 at 9:59
@Rob: The matcher has to be reinitialized for every input string. If you don't use the matcher after the loop, putting Matcher matcher; before the loop will not change the generated bytecode and will therefor have the same performance. Verified this in another answer a few weeks ago. That's because Matcher matcher; doesn't create the matcher, but pattern.matcher(tab[i]); does. –  jlordo Mar 7 '13 at 10:09

I've created the following implementation (it tranforms values from the original String array):

for (int index = 0; index < strings.length; index++) {
    String eachString = strings[index];
    int startIndex = eachString.lastIndexOf('_') + 1;
    if (startIndex > 0 && eachString.length() != startIndex && Character.isLetter(eachString.charAt(startIndex))) {
        strings[index] = eachString.substring(startIndex);
    } else {
        strings[index] = null;
return strings;
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