I'm new to Haskell and Parsec. After reading Chapter 16 Using Parsec of Real World Haskell, a question appeared in my mind: Why and when is Parsec better than other parser generators like Yacc/Bison/Antlr?

My understanding is that Parsec creates a nice DSL of writing parsers and Haskell makes it very easy and expressive. But parsing is such a standard/popular technology that deserves its own language, which outputs to multiple target languages. So when shall we use Parsec instead of, say, generating Haskell code from Bison/Antlr?

This question might go a little beyond technology, and into the realm of industry practice. When writing a parser from scratch, what's the benefit of picking up Haskell/Parsec compared to Bison/Antlr or something similar?

BTW: my question is quite similar to this one but wasn't answered satisfactorily there.

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    "But parsing is such a standard/popular technology that deserves its own language, which outputs to multiple target languages." I'd be curious to hear why—I don't know enough about the subject to really agree or disagree, but it certainly doesn't strike me as a self-evident statement. – Antal Spector-Zabusky Feb 20 '11 at 6:35

One of the main differences between the tools you listed, is that ANTLR, Bison and their friends are parser generators, whereas Parsec is a parser combinator library.

A parser generator reads in a description of a grammar and spits out a parser. It is generally not possible to combine existing grammars into a new grammar, and it is certainly not possible to combine two existing generated parsers into a new parser.

A parser combinator OTOH does nothing but combine existing parsers into new parsers. Usually, a parser combinator library ships with a couple of trivial built-in parsers that can parse the empty string or a single character, and it ships with a set of combinators that take 1 or more parsers and return a new one that, for example, parses the sequence of the original parsers (e.g. you can combine a d parser and an o parser to form a do parser), the alternation of the original parsers (e.g. a 0 parser and a 1 parser to a 0|1 parser) or parses the original parse multiple times (repetetion).

What this means is that you could, for example, take an existing parser for Java and an existing parser for HTML and combine them into a parser for JSP.

Most parser generators don't support this, or only support it in a limited way. Parser combinators OTOH only support this and nothing else.

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    s/combinator/combinator library. A combinator is, classically speaking, a function which takes functions and returns functions. A combinator library is a library built out of, for the most part, combinator functions. – sclv Feb 20 '11 at 16:16
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    @sclv: Thanks. I think I fixed all the instances where I was actually talking about the library as a whole and left those instances where I was actually talking about individual combinators. I really appreciate your comment, since I am generally a stickler for correct terminology. Interestingly, most Ruby and Smalltalk ports of Parsec combine parser objects, not parser functions, although of course a function is just an object with only one method and an object is just a (record of) function(s) partially applied to this :-) – Jörg W Mittag Feb 21 '11 at 3:07

You might want to see this question as well as the linked one in your question.

Which Haskell parsing technology is most pleasant to use, and why?

In Haskell the competition is between Parsec (and other parser combinators) and the parser generator Happy. I'd pick Happy if I already had an LR grammar to work from - parser combinators take grammars in LL form and the translation from LR to LL takes some effort and a combinator parser will usually be significantly slower. If I don't have a grammar I'll use Parsec, it is more flexible (powerful) than Happy and its more fun to work "in Haskell" than generate code with Happy and Alex. If you use Happy for parsing you almost always need to use Alex for lexing.

For industry practice, it would be odd to decide to use Haskell just to get Parsec. For parsing, most of the current crop of languages will have at least a parser generator and probably something more flexible like a port of Parsec or a PEG system.

Ira Baxter's answer to the linked question was spot-on about a parser getting you merely to the foothold of the Himalayas for writing a translator, but being part of a translator is only one of the uses for a parser, so there are still many domains where fairly minimalist systems like ANTLR, Happy and Parsec are satisfactory.


Following on from stephen's answer, I think that one of the most common alternatives to Parsec, if you want to stick with parser combinators, is attoparsec. The main difference is that attoparsec was written with more of a bias towards speed, and makes trade-offs accordingly. For example, Parsec does some book-keeping to try to return helpful error messages if a parse fails, which attoparsec doesn't do to the same extent. Also, I think that attoparsec is specialised to one input stream/token type, whereas Parsec abstracts from the input type so that it can parse streams of type String, ByteString, Text, etc. without problem.

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    attoparsec's parser is also an applicative functor, but importantly not a monad. this means using the set of applicative combinators (<*> <|> <$>) instead of the do notation or monad functions. – John F. Miller Apr 24 '13 at 3:18
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    @John F. Miller I'm not sure if there was ever a time where Attoparsec's parser wasn't a monad, but it certainly isn't the case now, and I highly doubt it was ever the case. Both Parsec and Attoparsec encourage using Applicative's over monads when possible, though... Actually I just checked and the oldest version on Hackage, from 2008, 5 years before your post, had it as a Monad. So that is just plain incorrect information. – alternative Oct 22 '14 at 20:05

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