# Parse recursive data with parsec

``````import Data.Attoparsec.Text.Lazy
import Data.Text.Lazy.Internal (Text)
import Data.Text.Lazy (pack)

data List a = Nil | Cons a (List a)

list :: Text
list = pack \$ unlines
[ "0"
, "1"
, "2"
, "5"
]
``````

How can `List Int` parser coud be implemented to parse `Cons 0 (Cons 1 (Cons 2 (Cons 5 Nil)))` from `list`?

ps: pure parser without parsing a `[Int]` and converting it to `List Int` is preferable.

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Like this:

``````import Control.Applicative
-- rest of imports as in question

data List a = Nil | Cons a (List a)
deriving Show -- for testing

-- definition of list as in question

parseList :: Parser (List Int)
parseList = foldr Cons Nil <\$> many (decimal <* endOfLine)
``````

Testing in GHCi:

``````*Main> parse parseList list
Done "" Cons 0 (Cons 1 (Cons 2 (Cons 5 Nil)))
``````
-

I'd say we can do this by examining `many'`:

``````many' :: (MonadPlus m) => m a -> m [a]
many' p = many_p
where
many_p = some_p `mplus` return []
some_p = liftM2' (:) p many_p
``````

We can make our own variant similarly:

``````many'' :: (MonadPlus m) => m a -> m (List a)
many'' p = many_p
where
many_p = some_p `mplus` return Nil
some_p = liftM2 Cons p many_p
``````

and apply it on any monadic parser.

(Note that `many'` uses its own `liftM2'` that is strict in the result of the first action. It's not exported by the module so I used an ordinary `liftM2`.)

Or we can make a more general variant that uses `Alternative`:

``````many'' :: (Alternative f) => f a -> f (List a)
many'' p = many_p
where
many_p = some_p <|> pure Nil
some_p = Cons <\$> p <*> many_p
``````
-

Without converting it from a list of ints:

``````import Data.Attoparsec.Text.Lazy
import Data.Text.Lazy (Text, pack)
import Control.Applicative

data List a = Nil | Cons a (List a)
deriving Show

input :: Text
input = pack \$ unlines [ "0", "1", "2", "5"]

list :: Parser (List Int)
list = cons <|> nil
where
cons = Cons <\$> (decimal <* endOfLine) <*> list
nil  = pure Nil

main = print \$ parse list input
``````

As you can see, the list parser almost looks exactly like the datatype it's parsing.

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Is this compilable or even typecheckable? –  ДМИТРИЙ МАЛИКОВ Feb 3 '13 at 18:45
Oops, sorry. I renamed the parser to have the same name as in kosmikus answer, but forgot to do so in the `where`-clause. Edit to be compilable. –  bzn Feb 3 '13 at 20:07
This is actually a recursive parser, as requested. –  jekor Feb 5 '13 at 17:57

As others have pointed out, you don't actually need to use recursion (although you can) to parse the list. But if you have a recursive grammar to parse, you can either use recursion in the parser (see bzn's answer and Petr's answer) or you can recurse on the result of the parser (for something like the nesting you see in Markdown). The latter I covered here: http://www.youtube.com/watch?v=nCwG9ijQMuQ&t=17m32s

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