# Regular vs LALR(1): what is faster

Supposing we have two grammars which define the same languge: regular one and LALR(1) one.

Both regular and LALR(1) algorithms are O(n) where n is input length.

Regexps are usually preferred for parsing regular languages. Why? Is there a formal proof (or maybe that's obvious) that they are faster?

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If both are O(n) there you have your formal proof. They are asympthotically equivalent in terms of complexity. – ssice Jan 25 '13 at 23:53
Yes, but I'm more interested in practice than theory. Maybe lalr parser always has more states than regexp or smth of the kind. Or maybe they are simpler to understand. There must be a reason why regexps exist, if a wider class of languages (LR) can be parsed at O(n). – skvadrik Jan 26 '13 at 0:03
And yes, it is not a formal proof, for one algorithm can be 2*n and another 3*n for instance: they both are O(n), but the first is faster. – skvadrik Jan 26 '13 at 0:26

There is a big difference between parsing and recognizing. Although you could build a regular-language parser, it would be extremely limited, since most useful languages are not parseable with a useful unambiguous regular grammar. However, most (if not all) regular expression libraries recognize, possibly with the addition of a finite number of "captures".

In any event, parsing really isn't the performance bottleneck anymore. IMHO, it's much better to use tools which demonstrably parse the language they appear to parse.

On the other hand, if all you want to do is recognize a language -- and the language happens to be regular -- regular expressions are a lot easier and require much less infrastructure (parser generators, special-purpose DSLs, slightly more complicated Makefiles, etc.)

(As an example of a language feature which is not regular, I give you: parentheses.)

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1) Well, to make myself clear, saying "regular expressions" I mean bare regular expressions (parsed with DFA), not any extensions used in regexp libraries. 2) "Parsing isn't bottleneck" -- depends on the kind of application. 3) About recognizing a language -- sometimes it's impossible without code execution (interpretation), e.g. obfuscated javascript. What I really wonder, can LALR(1) parser be more efficient than regexps. – skvadrik Jan 26 '13 at 0:17
@skvadnik, probably not, unless the regex library is written badly, in part because the LALR(1) parser is parsing. However, the LALR(1) parser can handle a larger variety of languages (such as ones with parentheses). I understood what you meant by regular expressions. I don't see why obfuscating javascript would make it any harder for an automated tool to recognize the language: "recognition" answers the question as to whether a string is syntactically correct; "parsing" provides you with the grammatical structure of the string. – rici Jan 26 '13 at 0:24
Sorry, I misunderstood what you meant by recognition. :) I meant "proof that this sentence belongs to this particular language". I see that LR parsing is a more complex technique. Still I don't understand why it can't be faster for regular languages. – skvadrik Jan 26 '13 at 0:31
@skvadrik, fair enough, but I still don't see how obfuscation affects the process. It makes it more difficult for me to recognize the language, but clearly has no impact on parsing tools; otherwise, it would be somewhat counter-productive :) – rici Jan 26 '13 at 0:35
Maybe lookahead for regular languge is too big so that it leads to much more states than for regexp parser... – skvadrik Jan 26 '13 at 0:36

People prefer regular expressions because they're easier to write. If your language is a regular language, why bother creating a CFG grammer for it?

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Maybe CFG (and LALR(1) or SLR in particular) parser is/can be more efficient than regexps. If so, many people would prefer more complex but also more effective approach. – skvadrik Jan 26 '13 at 0:05