24 Days of Hackage: parsec

There comes a time in every programmer’s life when a plain old string just won’t cut it anymore - you need more structure. However, the more you think about this, the more you are terrified of the prospect of having to write some sort of parser, or maybe it’s time to put on some protective clothing on and fight through a forest of regular expression operators and arcane escaping rules. Why why why, you ask yourself, does it have to be this painful?

Ok, maybe that was a little melodramatic, but I can say that parsing with Haskell is an activity that I no longer dread, in fact - I find it fun and exciting! parsec is a parser combinator library that provides a set of primitives for parsing. As I’ve been stressing throughout this series (and will continue to!), combinators let us build complex logic out of very small, easy to reason about, pieces.

For the example today, we’ll look at parsing International Standard Recording Codes (ISRCs), a problem that I had to solve for some work on MusicBrainz. The linked Wikipedia does a good job at explaining the format of ISRCs, so lets dive right in and try and build up our own ISRC parser. First of all, we need to parse the country code. That’s just two uppercase characters, so lets write that parser:

= count 2 upper countryCodecountupper

Simple! This parser requires two uppercase characters, so we’ve combined the upper parser with the count combinator to run upper twice. If this parser succeeds, it will return the two uppercase characters that it parsed. Moving on, the next section of data we need to parse is “a three character alphanumeric registrant code”:

= count 3 upperNum regCodecountupperNum where upperNum = upper <|> digit upperNumupperdigit

Much like our countryCode parser, we’ve combined the upperNum parser with the count combinator to run it 3 times. upperNum can be defined by parsing either an upper character (A-Z) or a digit (0-9). The <|> combinator, part of the Alternative type class, allows us to try one parser and if that fails, try another.

Next, we take the last two digits of the year of registration:

= count 2 digit regYearcountdigit

And finally, we take the five digit number identifying the recording:

= count 5 digit recordingIdcountdigit

All that we need to do now is thread all these parsers together, and we’re done! One option could be to do the following:

data ISRC = ISRC { isrcCountryCode :: String , isrcRegCode :: String , isrcRegYear :: Int , isrcRecording :: Int } deriving ( Show ) = ISRC <$> countryCode isrcParsercountryCode <*> regCode regCode <*> fmap read regYear regYear <*> fmap read recordingId recordingId <* eof eof λ > parse isrcParser "" "USPR37300012" parse isrcParser Right ( ISRC { isrcCountryCode = "US" { isrcCountryCode = "PR3" , isrcRegCode = 73 , isrcRegYear = 12 }) , isrcRecording})

Here I’ve used the Applicative interface to build a parser that gradually builds up an ISRC value, and also the Functor instance to convert regCode ’s into an Int , as ISRC requires. I’ve finished off by using eof to indicate that the parser should fail if there is any left over input.

However, this isn’t the only way to use parsec , though it’s certainly a convenient way. In practice, I actually only wanted to perform validation and normalization, so I can get by just sequencing these parsers and then stitching things back together:

= mconcat <$> isrcParser₂ sequence [ countryCode, regCode, regYear, recordingId ] [ countryCode, regCode, regYear, recordingId ] <* eof eof λ > parse isrcParser₂ "" "USPR37300012" parse isrcParser₂ Right "USPR37300012"

This parser uses the sequence combinator for Monad s to run a bunch of parsers, and collect all their results - then I just mconcat the results into a single String .

Oh, did I just mention parsers are Monad s? This gives us even more power - for example, we could branch out and run different parsers depending on what we’ve parsed so far. Not only that, but they are monad transformers, which gives us even more power. If we used a base monad such as IO , it’s entirely possible to write a parser that looks up things in a database while it does the parsing. Maybe a little bit on the crazy side, but it’s all possible!

You can contact me via email at ollie@ocharles.org.uk or tweet to me @acid2. I share almost all of my work at GitHub. This post is licensed under a Creative Commons Attribution-NonCommercial-NoDerivs 3.0 Unported License.