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I've heard that "real compiler writers" roll their own handmade parser rather than using parser generators. I've also heard that parser generators don't cut it for real-world languages. Supposedly, there are many special cases that are difficult to implement using a parser generator. I have my doubts about this:

  1. Theoretically, a GLR parser generator should be able to handle most programming language designs (except maybe C++...)
  2. I know of at least one production language that uses a parser generator: Ruby [1].
  3. When I took my compilers class in school, we used a parser generator.

So my question: Is it reasonable to write a production compiler using a parser generator, or is using a parser generator considered a poor design decision by the compiler community?

[1] https://github.com/ruby/ruby/blob/trunk/parse.y

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real programmers use bread boards. –  Woot4Moo Jun 17 '11 at 16:44
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I thought they used butterflies xkcd.com/378 –  Matt Fichman Jun 17 '11 at 16:47
    
@Fichman touche my friend –  Woot4Moo Jun 17 '11 at 16:48
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GLR parsers handle C++ just fine. Our tools use GLR to parse a variety of C++ dialects, and some other 30 languages. (See my bio for "our tools"). –  Ira Baxter Jun 17 '11 at 21:19
    
It's not really that difficult to write all parser rules for C++, even C++0x, and use parser generator, but you will never get the performance of handcrafted parser, even if you use best C++ parser generators. And performance in parsing C++ is extremely important. –  Gene Bushuyev Jun 18 '11 at 5:49

3 Answers 3

up vote 3 down vote accepted

For what it's worth, GCC used a parser generator pre-4.0 I believe, then switched to a hand written recursive descent parser because it was easier to maintain and extend.

Parser generators DO "cut it" for "real" languages, but the amount of work to transform your grammar into something workable grows exponentially.

Edit: link to the GCC document detailing the change with reasons and benefits vs cost analysis: http://gcc.gnu.org/wiki/New_C_Parser.

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I especially like their "Error recovery might go into infinite loops" comment... –  Blindy Jun 17 '11 at 16:43

I worked for a company for a few years where we were more or less writing compilers. We weren't concerned much with performance; just reducing the amount of work/maintenance. We used a combination of generated parsers + handwritten code to achieve this. The ideal balance is to automate the easy, repetitive parts with the parser generator and then tackle the hard stuff in custom functions.

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Sometimes a combination of both methods, is used, like generating code with a parser, and later, modifying "by hand" that code.

Other way is that some scanner (lexer) and parser tools allow them to add custom code, additional to the grammar rules, called "semantic actions". A good example of this case, is that, a parser detects generic identifiers, and some custom code, transform some specific identifiers into keywords.

EDIT: add "semantic actions"

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