megaparsec: Monadic parser combinators

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This is industrial-strength monadic parser combinator library. Megaparsec is a fork of Parsec library originally written by Daan Leijen.

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Dependencies base (>=4.7 && <4.13), bytestring (>=0.2 && <0.11), case-insensitive (>=1.2 && <1.3), containers (>=0.5 && <0.6), deepseq (>=1.3 && <1.5), fail (>=4.9 && <4.10), mtl (>=2.0 && <3.0), parser-combinators (>=0.1 && <0.3), scientific (>=0.3.1 && <0.4), semigroups (>=0.18 && <0.19), text (>=0.2 && <1.3), transformers (>=0.4 && <0.6), void (>=0.7 && <0.8) [details]
License BSD-2-Clause
Author Megaparsec contributors, Paolo Martini <>, Daan Leijen <>
Maintainer Mark Karpov <>
Revised Revision 1 made by HerbertValerioRiedel at 2019-09-02T21:07:21Z
Category Parsing
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Source repo head: git clone
Uploaded by mrkkrp at 2017-08-08T10:28:58Z
Distributions Arch:9.5.0, Debian:8.0.0, Fedora:9.3.1, LTSHaskell:9.5.0, NixOS:9.5.0, Stackage:9.6.1, openSUSE:9.5.0
Reverse Dependencies 275 direct, 426 indirect [details]
Downloads 100706 total (601 in the last 30 days)
Rating 2.75 (votes: 24) [estimated by Bayesian average]
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Status Docs available [build log]
Last success reported on 2017-08-08 [all 1 reports]

Readme for megaparsec-6.1.0

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This is an industrial-strength monadic parser combinator library. Megaparsec is a fork of Parsec library originally written by Daan Leijen.


This project provides flexible solutions to satisfy common parsing needs. The section describes them shortly. If you're looking for comprehensive documentation, see the section about documentation.

Core features

The package is built around MonadParsec, an MTL-style monad transformer. All tools and features work with all instances of MonadParsec. You can achieve various effects combining monad transformers, i.e. building monad stack. Since the standard common monad transformers like WriterT, StateT, ReaderT and others are instances of the MonadParsec type class, you can wrap ParsecT in these monads, achieving, for example, backtracking state.

On the other hand ParsecT is an instance of many type classes as well. The most useful ones are Monad, Applicative, Alternative, and MonadParsec.

Megaparsec includes all functionality that is available in Parsec plus features some combinators that are missing in other parsing libraries:

  • failure allows to fail reporting a parse error with unexpected and expected items.

  • fancyFailure allows to fail reporting custom error messages.

  • withRecovery allows to recover from parse errors “on-the-fly” and continue parsing. Once parsing is finished, several parse errors may be reported or ignored altogether.

  • observing allows to “observe” parse errors without ending parsing (they are returned in Left, while normal results are wrapped in Right).

In addition to that, Megaparsec 6 features high-performance combinators similar to those found in Attoparsec:

  • tokens makes it easy to parse several tokens in a row (string and string' are built on top of this primitive). This is about 100 times faster than matching a string token by token. tokens returns “chunk” of original input, meaning that if you parse Text, it'll return Text without any repacking.

  • takeWhile and takeWhile1 are about 150 times faster than approaches involving many, manyTill and other similar combinators.

  • takeP allows to grab n tokens from the stream and returns them as a “chunk” of the stream.

So now that we have matched the main “performance boosters” of Attoparsec, Megaparsec 6 is not significantly slower than Attoparsec if you write your parser carefully.

Megaparsec can currently work with the following types of input stream out-of-the-box:

  • String = [Char]
  • ByteString (strict and lazy)
  • Text (strict and lazy)

It's also simple to make it work with custom token streams, and Megaparsec users have done so many times with great success.

Error messages

Megaparsec 5 introduces well-typed error messages and the ability to use custom data types to adjust the library to specific domain of interest. No need to use a shapeless bunch of strings anymore.

The design of parse errors has been revised in version 6 significantly, but custom errors are still easy (probably even easier now).

Alex and Happy support

Megaparsec works well with streams of tokens produced by tools like Alex/Happy. The design of the Stream type class has been changed significantly in version 6, but user can still work with custom streams of tokens without problems.

Character parsing

Megaparsec has decent support for Unicode-aware character parsing. Functions for character parsing live in the Text.Megaparsec.Char module. The functions can be divided into several categories:

  • Simple parsers—parsers that parse certain character or several characters of the same kind. This includes newline, crlf, eol, tab, and space.

  • Parsers corresponding to categories of characters parse single character that belongs to certain category of characters, for example: controlChar, spaceChar, upperChar, lowerChar, printChar, digitChar, and others.

  • General parsers that allow you to parse a single character you specify or one of the given characters, or any character except for the given ones, or character satisfying given predicate. Case-insensitive versions of the parsers are available.

  • Parsers for sequences of characters parse strings. Case-sensitive string parser is available as well as case-insensitive string'.

Binary parsing

Similarly, there is Text.Megaparsec.Byte module for parsing streams of bytes.

Permutation parsing

For those who are interested in parsing of permutation phrases, there is Text.Megaparsec.Perm. You have to import the module explicitly, it's not included in the Text.Megaparsec module.

Expression parsing

Megaparsec has a solution for parsing of expressions. Take a look at Text.Megaparsec.Expr. You have to import the module explicitly, it's not included in the Text.Megaparsec.

Given a table of operators that describes their fixity and precedence, you can construct a parser that will parse any expression involving the operators. See documentation for comprehensive description of how it works.


Text.Megaparsec.Char.Lexer is a module that should help you write your lexer. If you have used Parsec in the past, this module “fixes” its particularly inflexible Text.Parsec.Token.

Text.Megaparsec.Char.Lexer is intended to be imported via a qualified import, it's not included in Text.Megaparsec. The module doesn't impose how you should write your parser, but certain approaches may be more elegant than others. An especially important theme is parsing of white space, comments, and indentation.

The design of the module allows you quickly solve simple tasks and doesn't get in your way when you want to implement something less standard.

Since Megaparsec 5, all tools for indentation-sensitive parsing are available in Text.Megaparsec.Char.Lexer module—no third party packages required.

Text.Megaparsec.Byte.Lexer is also available for users who wish to parse binary data.


Megaparsec is well-documented. All functions and data-types are thoroughly described. We pay attention to avoid outdated info or unclear phrases in our documentation. See the current version of Megaparsec documentation on Hackage for yourself.


You can find Megaparsec tutorials here. They should provide sufficient guidance to help you to start with your parsing tasks. The site also has instructions and tips for Parsec users who decide to migrate to Megaparsec.


Despite being quite flexible, Megaparsec is also faster than Parsec. The repository includes benchmarks that can be easily used to compare Megaparsec and Parsec. In most cases Megaparsec is faster, sometimes dramatically faster. If you happen to have some other benchmarks, I would appreciate if you add Megaparsec to them and let me know how it performs.

Additional benchmarks created to guide development of Megaparsec 6 can be found here. These compare 3 pairs of parsers written using Attoparsec and Megaparsec.

If you think your Megaparsec parser is not efficient enough, take a look at these instructions.

Comparison with other solutions

There are quite a few libraries that can be used for parsing in Haskell, let's compare Megaparsec with some of them.

Megaparsec vs Attoparsec

Attoparsec is another prominent Haskell library for parsing. Although the both libraries deal with parsing, it's usually easy to decide which you will need in particular project:

  • Attoparsec is much faster but not that feature-rich. It should be used when you want to process large amounts of data where performance matters more than quality of error messages.

  • Megaparsec is good for parsing of source code or other human-readable texts. It has better error messages and it's implemented as monad transformer.

So, if you work with something human-readable where size of input data is usually not huge, just go with Megaparsec, otherwise Attoparsec may be a better choice.

Since version 6, Megaparsec features the same fast primitives that Attoparsec has, so in many cases the difference in speed is not that big. Megaparsec now aims to be “one size fits all” ultimate solution to parsing, so it can be used even to parse low-level binary formats.

Megaparsec vs Parsec

Since Megaparsec is a fork of Parsec, we are bound to list the main differences between the two libraries:

  • Better error messages. We test our error messages using dense QuickCheck tests. Good error messages are just as important for us as correct return values of our parsers. Megaparsec will be especially useful if you write a compiler or an interpreter for some language.

  • Megaparsec 6 can show line on which parse error happened as part of parse error. This makes it a lot easier to figure out where the error happened.

  • Some quirks and “buggy features” (as well as plain bugs) of original Parsec are fixed. There is no undocumented surprising stuff in Megaparsec.

  • Better support for Unicode parsing in Text.Megaparsec.Char.

  • Megaparsec has more powerful combinators and can parse languages where indentation matters.

  • Comprehensive QuickCheck test suite covering nearly 100% of our code.

  • We have benchmarks to detect performance regressions.

  • Better documentation, with 100% of functions covered, without typos and obsolete information, with working examples. Megaparsec's documentation is well-structured and doesn't contain things useless to end users.

  • Megaparsec's code is clearer and doesn't contain “magic” found in original Parsec.

  • Megaparsec has well-typed error messages and custom error messages.

  • Megaparsec can recover from parse errors “on the fly” and continue parsing.

  • Megaparsec allows to conditionally process parse errors inside your parser before parsing is finished. In particular, it's possible to define regions in which parse errors, should they happen, will get a “context tag”, e.g. we could build a context stack like “in function definition foo”, “in expression x”, etc. This is not possible with Parsec.

  • Megaparsec is faster and supports efficient operations on top of tokens, takeWhileP, takeWhile1P, takeP just like Attoparsec.

If you want to see a detailed change log, may be helpful. Also see this original announcement for another comparison.

Parsec is old and somewhat famous in the Haskell community, so we understand there will be some kind of inertia, but we advise you use Megaparsec from now on because it solves many problems of the original Parsec project. If you think you still have a reason to use original Parsec, open an issue.

Megaparsec vs Trifecta

Trifecta is another Haskell library featuring good error messages. It's probably good, but also under-documented, and has unfixed bugs and flaws that Edward is too busy to fix (simply a fact, no offense intended). Other reasons one may question choice of Trifecta is his/her parsing library:

  • Complicated, doesn't have any tutorials available, and documentation doesn't help at all.

  • Trifecta can parse String and ByteString natively, but not Text.

  • Trifecta's error messages may be different with their own features, but certainly not as flexible as Megaparsec's error messages in the latest versions.

  • Depends on lens. This means you'll pull in half of Hackage as transitive dependencies. Also if you're not into lens and would like to keep your code “vanilla”, you may not like the API.

Megaparsec vs Earley

Earley is a newer library that allows to safely (it your code compiles, then it probably works) parse context-free grammars (CFG). Megaparsec is a lower-level library compared to Earley, but there are still enough reasons to choose it over Earley:

  • Megaparsec is faster.

  • Your grammar may be not context-free or you may want introduce some sort of state to the parsing process. Almost all non-trivial parsers require something of this sort. Even if your grammar is context-free, state may allow to add some additional niceties. Earley does not support that.

  • Megaparsec's error messages are more flexible allowing to include arbitrary data in them, return multiple error messages, mark regions that affect any error that happens in those regions, etc.

  • The approach Earley uses differs from the conventional monadic parsing. If you work not alone, people you work with, especially beginners, will be much more productive with libraries taking more traditional path to parsing like Megaparsec.

IOW, Megaparsec is less safe but also more powerful.

Megaparsec vs Parsers

There is Parsers package, which is great. You can use it with Megaparsec or Parsec, but consider the following:

  • It depends on both Attoparsec and Parsec. This is ridiculous, by the way, because this package is supposed to be useful for parser builders, so they can write basic core functionality and get the rest “for free”.

  • It currently has a bug feature in definition of lookAhead for various monad transformers like StateT, etc. which is visible when you create backtracking state via monad stack, not via built-in features. The feature makes it so lookAhead will backtrack your parser state but not your custom state added via StateT. Kmett thinks this behavior is better.

We intended to use Parsers library in Megaparsec at some point, but aside from already mentioned flaws the library has different conventions for naming of things, different set of “core” functions, etc., different approach to lexing. So it didn't happen, Megaparsec has minimal dependencies, it is feature-rich and self-contained.

The following packages are designed to be used with Megaparsec:

Prominent projects that use Megaparsec

Here are some blog posts mainly announcing new features of the project and describing what sort of things are now possible:


The project was started and is currently maintained by Mark Karpov. You can find the complete list of contributors in the file in the official repository of the project. Thanks to all the people who propose features and ideas, although they are not in, without them Megaparsec would not be that good.


Issues (bugs, feature requests or otherwise feedback) may be reported in the GitHub issue tracker for this project.

Pull requests are also welcome (and yes, they will get attention and will be merged quickly if they are good).


Copyright © 2015–2017 Megaparsec contributors
Copyright © 2007 Paolo Martini
Copyright © 1999–2000 Daan Leijen

Distributed under FreeBSD license.