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Some example wallclock times for a large number of strings:

.split("[^a-zA-Z]"); // .44 seconds
.split("[^a-zA-Z]+"); // .47 seconds
.split("\\b+"); // 2 seconds

Any explanations for the dramatic increase? I can imagine the [^a-zA-Z] pattern being done in the processor as a set of four compare operations of which all four happen only if it is a true case. What about the \b? Anybody have anything to weigh in for that?

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All of those times seem about 3 orders of magnitude too great. What do your input data look like? – tchrist Dec 1 '10 at 4:17
It looks like a few million rows of splits. This is in the right magnitude. – Jeff Ferland Dec 8 '10 at 15:35
up vote 4 down vote accepted

First, it makes no sense to split on one or more zero-width assertions! Java’s regex is not very clever — and I’m being charitable — about sane optimizations.

Second, never use \b in Java: it is messed up and out of sync with \w.

For a more complete explanation of this, especially how to make it work with Unicode, see this answer.

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Space cadet moment; forgot about \b being zero-width. – Jeff Ferland Dec 8 '10 at 15:34

\b is a zero-width assertion which is fundamentally different from [^A-Za-z]. Because \b is implemented as an if/then (see tchrist's comment below), it will probably be more work to check that for each letter in each string. Further, the plus is causing backtracking which would multiply that cost.

Additionally, when you split on word boundaries, you will match on more places than if you just split on [^a-zA-Z]+. This will cause the allocation of more strings, which will also take more time. To see that, try this program:

import java.lang.String;

class RegexDemo {
    private static void testSplit(String msg, String re) {
        String[] pieces = "the quick brown fox".split(re);
        for (String s : pieces) {

    public static void main(String args[]) {
        testSplit("boundary:", "\\b+");
        testSplit("not alpha:", "[^A-Za-z]+");

Probably unrelated, when you use String.split(), the regular expression has to be compiled for each usage. If you pre-compile the regex as a pattern, e.g.,

Pattern boundary = Pattern.compile("\\b+");

and then split using boundary.split(testString), you will save on the cost of compiling the regex for each test string. So, conceivably the compilation of "\b+" is slower than the compilation of the other patterns, which you could test by using the precompiled idiom here, though this doesn't seem likely to me as an explanation.

For some more information on regex performance, read these articles by Russ Cox http://swtch.com/~rsc/regexp/ and check out http://www.regular-expressions.info/ too.

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I don't know if Java's regular expressions are Unicode-aware (I would be surprised if they weren't), then \b would be a much more complicated check than just [a-zA-Z] or even [a-zA-Z0-9_]... – Dean Harding Dec 1 '10 at 4:12
This is wrong! \b NEVER EVER means [^a-zA-Z0-9_]. For one thing, that has width, and \b does not. What \b really means is (?:(?<=\w)(?!\w)|(?<!\w)(?=\w)). That assumes that you have a sane \w definition, of course. Java does not, so you have to use my rewrite function or ` (?:(?<=[\pL\pM\p{Nd}\p{Nl}\p{Pc}[\p{InEnclosedAlphanumerics}&&\p{So}]])(?![\pL\p‌​M\p{Nd}\p{Nl}\p{Pc}[\p{InEnclosedAlphanumerics}&&\p{So}]])|(?<![\pL\pM\p{Nd}\p{Nl‌​}\p{Pc}[\p{InEnclosedAlphanumerics}&&\p{So}]])(?=[\pL\pM\p{Nd}\p{Nl}\p{Pc}[\p{InE‌​nclosedAlphanumerics}&&\p{So}]]))`. Scary but true. – tchrist Dec 1 '10 at 4:37
@Dean: Yes, \b is Unicode-aware (in its own, funny little way), and it is a much more complicated test. And it has to be applied at every single position, because pass or fail, it never consumes any characters. – Alan Moore Dec 1 '10 at 6:28
split only compiles the pattern once: public String[] split(String regex, int limit) { return Pattern.compile(regex).split(this, limit); } is from j2se/src/share/altclasses/java/lang/String.java. – tchrist Dec 1 '10 at 20:24
@Platinum: Please remember there are two split methods: Pattern#split and String#split. Calling Pattern#split repeatedly does not result in recompilation of the pattern. Calling String#split repeatedly does result in recompilation of the pattern. – Mike Clark Dec 1 '10 at 22:07

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