I'm new to Haskell and could use some guidance.

The challenge: take an S-expression and parse it into a record.

Where I have succeeded: I can take a file and read it into a parsed String. Yet, using parsing Text to DFA s.t

 let 
        toDFA :: [L.Text] -> EntryDFA
        toDFA t =
           let [q,a,d,s,f] = t
           in EntryDFA { 
               state = read q
              ,alpha = read a
              ,delta = read d
              ,start = read s
              ,final = read f }

returns this error:

• Couldn't match type ‘L.Text’ with ‘[Char]’
  Expected type: String
    Actual type: L.Text

There must be a more idiomatic approach.

  • Your full code is missing imports it seems. Also your do-block seems to end with a let which is not allowed AFAIK. Why are you using Text at all? There is a splitOn that works for strings in Data.List.Split in the split package. I don't think using read the way you do will work though. – Jonas Duregård Oct 11 at 8:19
  • 1
    @JonasDuregård Text is definitely the right type for reading source files. – Cubic Oct 11 at 9:43
  • 1
    There are generally two approaches to parsing in Haskell: parser combinators and parser generators. Google should take you through the next few steps from there once you know these keywords. A tutorial on either tech is much too large to be a good topic for SO, I think. – Daniel Wagner Oct 11 at 13:48
  • @Cubic 1) That seems a bit oversimplified. 2) This code doesn't appear to read the source file as Text. – Jonas Duregård Oct 11 at 15:22
  • I am using the appropriate imports. I didn't include them, so full code is a bit misleading. I apologize. I was really looking for a way to resolve the issues between String and Text, or how to resolve the error code. From what I understood, Text is the best way to handle source files. – xnorlord Oct 11 at 16:15
up vote 0 down vote accepted

read is a partial function with type Read a => String -> a, which throws an exception on parsing failure. Normally you want to avoid it (use readMaybe instead if you have a string). String and L.Text are different types, which is why you're getting an error.

Your sample code is missing an extra ) after the trans-func.

I'm using the Megaparsec package which provides an easy way to work with parser combinators. The author of the library has written a longer tutorial here.

The basic idea is that Parser a is the type of a value that can parse something of type a. In Text.Megaparsec there are several functions which you can use (parse, parseMaybe etc.), to "run" the parser on a "stringy" data type (e.g. String or strict/lazy Text).

When you use do notation for IO, it means "do one action after another". Similarly, you can use do notation with Parser, it means "parse this one thing, then parse the next thing".

p1 *> p2 means run the parser p1, run p2 and return the result of running p2. p1 <* p2 means run the parser p1, run p2 and return the result of running p1. You can also look up documentation on Hoogle in case you're having trouble understanding something.

{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE NamedFieldPuns    #-}

-- In practice, many of these imports would be unqualified, but I've
-- opted for explicitness for clarity.
import Control.Applicative (empty, many, some, (<*), (*>))
import Control.Exception (try, IOException)
import Data.Maybe (fromMaybe)
import Data.Set (Set)
import Data.Text (Text)

import qualified Data.Set as Set
import qualified Data.Text as T
import qualified Data.Text.IO as TIO
import qualified Text.Megaparsec as MP
import qualified Text.Megaparsec.Char as MPC
import qualified Text.Megaparsec.Char.Lexer as MPCL

type Q = Text
type E = Char

data EntryDFA = EntryDFA
  { state :: Set Q
  , alpha :: Set E
  , delta :: Set (Q,E,Q)
  , start :: Q
  , final :: Set Q
  } deriving Show

inputFile = "foo.sexp"

main :: IO ()
main = do
  -- read file and check for exception instead of checking if
  -- it exists and then trying to read it
  result <- try (TIO.readFile inputFile)
  case result of
    Left e -> print (e :: IOException)
    Right txt -> do
      case MP.parse dfaParser inputFile txt of
        Left e -> print e
        Right dfa -> print dfa

type Parser = MP.Parsec () Text

-- There are no comments in the S-exprs, so leave those empty
spaceConsumer :: Parser ()
spaceConsumer = MPCL.space MPC.space1 empty empty

symbol :: Text -> Parser Text
symbol txt = MPCL.symbol spaceConsumer txt

parens :: Parser a -> Parser a
parens p = MP.between (symbol "(") (symbol ")") p

setP :: Ord a => Parser a -> Parser (Set a)
setP p = do
  items <- parens (p `MP.sepBy1` (symbol ","))
  return (Set.fromList items)

pair :: Parser a -> Parser b -> Parser (a, b)
pair p1 p2 = parens $ do
  x1 <- p1
  x2 <- symbol "," *> p2
  return (x1, x2)

stateP :: Parser Text
stateP = do
  c <- MPC.letterChar
  cs <- many MPC.alphaNumChar
  return (T.pack (c:cs))

dfaParser :: Parser EntryDFA
dfaParser = do
  () <- spaceConsumer
  (_, state) <- pair (symbol "states") (setP stateP)
  (_, alpha) <- pair (symbol "alpha") (setP alphaP)
  (_, delta) <- pair (symbol "trans-func") (setP transFuncP)
  (_, start) <- pair (symbol "start") valP
  (_, final) <- pair (symbol "final") (setP valP)
  return (EntryDFA {state, alpha, delta, start, final})
  where
    alphaP :: Parser Char
    alphaP = MPC.letterChar <* spaceConsumer
    transFuncP :: Parser (Text, Char, Text)
    transFuncP = parens $ do
      s1 <- stateP
      a <- symbol "," *> alphaP
      s2 <- symbol "," *> stateP
      return (s1, a, s2)
    valP :: Parser Text
    valP = fmap T.pack (some MPC.digitChar)
  • Thank you. This is exactly the sort of answer I was looking for. I am familiar with parsing, just not in Haskell. Coming from Python and C++, the handling of Data Types is my biggest impasse. A lot of my issues are with implementation, syntax, etc. Using String explicitly left me with issues where read q would fail when q is a parsed [Char], where [[Char]] looked like [\"states q\",\"alphabet e\", ... ]. And using Lazy.Text, which seems like the proper way to deal with consuming strings, lead to IO issues and the above error. And Hoogle is amazing. Thanks again. – xnorlord Oct 11 at 19:31

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