To learn how to write and parse a context-free grammar I want to choose a tool. For Haskell, there are two big options: Happy, which generates a parser from a grammar description and *Parsec, which allows you to directly code a parser in Haskell.

What are the (dis)advantages of either approach?

  • Depending on what you're doing attoparsec may be a good choice. serpentine.com/blog/2010/03/03/…
    – asm
    Sep 1, 2011 at 11:34
  • Out of all the parser combinator libraries on Hackage, parsec is possibly my least favorite. uu-parsinglib, attoparsec, and polyparse are my top choices (in that order).
    – John L
    Sep 1, 2011 at 13:31
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    My impression is that Happy has significantly better performance than almost any parser combinator library, especially for large grammars with little or no context. On the other hand, the flexibility of combinator libraries (with regards to effects, treating parsers as first class values, etc) is I think an everywhere better choice until performance becomes the dominating factor and one is dealing with a complex grammar.
    – sclv
    Sep 1, 2011 at 15:20
  • @sclv Would you consider a grammar for a (simple) programming language like PL/0 complex?
    – fuz
    Sep 1, 2011 at 16:09
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    My rule of thumb is if I have a LR grammar I go with Happy, otherwise I use Parsec. It's usually not worth the effort changing LR to Parsec (more code, slower parser), but if I have to work out the grammar myself I like the tricks that Parsec supplies (e.g. context sensitive parsing). Sep 1, 2011 at 18:02

5 Answers 5


External vs internal DSL

The parser specification format for Happy is an external DSL, whereas with Parsec you have the full power of Haskell available when defining your parsers. This means that you can for example write functions to generate parsers, use Template Haskell and so on.

Precedence rules

With Happy, you can use precedences to simplify your grammar, whereas with Parsec you have to nest the grammar rules correctly yourself. Changing the precedence of an operator is therefore much more tedious in Parsec.

Static checking

Happy will warn you about ambiguities in your grammar at compile time. (Though it's not great at telling you where they are.) With Parsec, you get no warning until your parser fails at run time.

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    buildExpressionParser in Text.ParserCombinators.Parsec.Expr does the expression grammar nesting for you.
    – pat
    Sep 1, 2011 at 16:02
  • @pat: Neat! I did not know about that one.
    – hammar
    Sep 1, 2011 at 16:04

This is the traditional decision: do I use lex/yacc (happy) or do I write my own (mostly recursive descent) parser, only that the parsec library is like a DSL for doing it right.

If one has experience with the yacc/lex approach, using happy will be a smaller learning curve.

  • I have only experience with Parsec, which is a toolkit to write LL(1) parsers in Haskell using a specialized monad, so it's not quite "writing a parser from scratch".
    – fuz
    Sep 1, 2011 at 11:12
  • If you already have experience with Parsec, then I advise to stay with it. Note that I said Parsec "is like a DSL for doing it (i.e. writing it's own parser) right"
    – Ingo
    Sep 1, 2011 at 11:15
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    @FUZxxl: Slight nitpick: Parsec is LL(N) not just LL(1). You can have arbitrary lookahead using the try combinator. Actually, parsec is even more powerful than LL(N) because it can cause context sensitive grammars due to it being a monad.
    – nominolo
    Sep 12, 2011 at 13:43

In my opinion Parsec hides most of the nasty grammar details and lets you write your parsers more intuitively. If you want to learn this stuff in the first place go with some parser-generator like Happy (or even try to implement one yourself).


I'm used to the parser combinator library uu-parsinglib from utrecht university. One can have error correcting and permutations for free, and also the things that parsec has. I also like it because my implemented grammar looks like an EBNF grammar, without so much monadic stuff, and is easy to read.


Naive parser combinators do not allow left-recursion in grammar rules and I haven't found a library that does.

Happy does allow full BNF in language spec, and some useful staff like priority rules. So, for complicated cases Happy and parser generators in general are much better. However, in case of simple, stupid languages with LL(k) parseable grammars, I would use a parser combinator library as more maintainer-friendly.

  • There are parser combinator libraries that implement the GLL algorithm which can handle left-recursive grammars.
    – Poscat
    May 26, 2020 at 16:58

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