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var email = '[John Smith] <johnsmith@gmail.com>';

var re1 = /.*<+(.*)+>.*/;
var re2 = /.*\[+(.*)+\].*/;

var address = email.replace(re1, "$1");
var name = email.replace(re2, "$1");

I am finding that the 2nd regex (to get the name) runs super slow. but the first one is fine. Why is this and is there a better way to get the strings that I need?

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closed as not a real question by m0skit0, palaѕн, Anoop Vaidya, Marcus Ekwall, Graviton Jan 9 '13 at 3:00

It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form. For help clarifying this question so that it can be reopened, visit the help center.If this question can be reworded to fit the rules in the help center, please edit the question.

5  
How do you measure that? –  zerkms Jan 6 '13 at 23:57
2  
Also, as those do not change the result in this particular case, I don't see the point in + symbols in your regex –  barius Jan 6 '13 at 23:58
3  
Oh wow jsperf.com/2-regexes So unexpected to me –  zerkms Jan 7 '13 at 0:00
1  
I'd assume, since the < and especially the > are at the end of the string, the first expression has to do fewer backtracking than the second one. Just switch <> and [] and test it: jsperf.com/2-regexes/2. Generally it's best to avoid .*. –  Felix Kling Jan 7 '13 at 0:04
1  
Btw, if you want to get a better understanding of regular expressions, have a look at: shop.oreilly.com/product/9780596528126.do. –  Felix Kling Jan 7 '13 at 0:21

3 Answers 3

up vote 4 down vote accepted

The reason your regular expressions are slow is because they are horribly written.

Now, lets go on to say why they are bad.

Your first expression has a bunch of unnecessary tokens. Such as the leadning and trailing .* - they make no difference. Secondly, you have quantified the < 0 to inf times. Why? Are you wanting to match <<<<<<<<email>? or email>? Lastly, you have quantified a repeating group. This is horrible because

  1. A quantified capturing group will overwrite itself
  2. Due to the statement above, it makes no sense to use a capturing group, thus it uses unnecessary resources.

Alright, that's the first expression. The second one is even worse, even though you just switched <> for []. Why you might ask? I'll tell you why. BECAUSE IT DOES NOT MATCH. Why is this so bad you might ask? Because it generates what we call catastrophic backtracking. Why does it do this you might wonder? I'll tell you why:

.* Will try to match as much as possible. In fact, at first, it will consume the entire string. Obviously that fails, so it backtracks a bunch of times until it can match the first [. Awesome, now the engine has found a match at the first position of the string for the literal [ (thus making the .* match nothing). Now the next token, .* will again match everything due to its greedy nature. This does not work, so the engine backtracks. It will keep trying to do this until it matches the string. Problem is, it never will. Because your greedy quantifier is surrounded by a quantified group that requires 1 or more matches.

Now, how do you fix this? Well, you could simply remove the + from behind the group. That would fix it. Your regular expressions would still be horrible, but they would not cause the engine to backtrack a million times. How can we improve it even further? By using negated character classes.

/\[([^]]+)\] <([^>]+)>/

View a demo of the regular expression over here: http://regex101.com/r/wS2jN0

If you had used regex101.com to begin with you would have noticed the backtracking problem immediately: http://regex101.com/r/vB8xB0

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4  
I can't +1 this answer because of the first line. That the reason is the backtracking is correct, though. –  Paul S. Jan 7 '13 at 0:16
    
To get the best possible results in this micro optimization it would worth adding possessive quantifiers –  zerkms Jan 7 '13 at 0:17
    
I liked shit version more. –  VisioN Jan 7 '13 at 0:18
    
@VisioN: I don't want to offend anyone. SO is sensitive. –  Lindrian Jan 7 '13 at 0:18
    
@Lindrian: ideone.com/gcxKm7 (but, yes, js doesn't support possessive quantifiers) –  zerkms Jan 7 '13 at 0:21

Not sure about your performance problem (if any) but you can use a single regex to extract both values:

var str = '[John Smith] <johnsmith@gmail.com>',
    re = /\[(.+)\] <(.+)>/,
    name = str.match( re )[1],
    email = str.match( re )[2];

console.log( name, email ); //=> "John Smith johnsmith@gmail.com"
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This is due to the use of many greedy .*s combined with fact the string has the form "[..] <..>".

Every time you use .* without a ?, the RegExp engine selects the rest of the whole string then move backwards a character at a time as the following parts of the RegExp fail, testing the next part.

As you have repeated .*s, this means you're telling it to run exponentially more tests for each character back from the end of the string that the RegExp engine has to backtrack. It's then made even worse by the greedy + signs, repeating what the * is doing all over again.

Just adding in ?s is not the best fix here as you know more about the string and you're not looking for that much within it. Therefore to make it less "bad", do something such as matching only the bit you're interested in

var re1 = /\<([^>]*)>/,
    re2 = /\[([^\]]*)\]/;

var address = email.match(re1)[1],
    uname = email.match(re2)[1]; // to avoid `window.name` conflict
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