I would like to know the best way of parsing an input where multiple parsers can succeed. I have outlined my first failed attempt and an inelegant solution which I hope can be made more idiomatic.
For instance I would like to lex "the", "quick" and "fox" from the following sentence into their own data constructors:
"the quick brown fox jumps over the lazy dog".
So given the following type constructors:
data InterestingWord = Quick | The | Fox deriving Show data Snippet = Word InterestingWord | Rest String deriving Show
I would like the output of the parse to be:
[Word The, Rest " ", Word Quick, Rest " brown ", Word Fox, Rest " jumped over ", Word The, Rest " lazy dog"]
Here are the two solutions:
import Text.Parsec import Data.Maybe import Data.Ord import Data.List data InterestingWord = Quick | The | Fox deriving Show data Snippet = Word InterestingWord | Rest String deriving Show testCase = "the quick brown fox jumped over the lazy dog" -- Expected output: -- [Word The, -- Rest " ", Word Quick, -- Rest " brown ", Word Fox, -- Rest " jumped over ", Word The, -- Rest " lazy dog"] toString Quick = "quick" toString The = "the" toString Fox = "fox" -- First attempt -- Return characters upto the intended word along -- with the word itself upto word = do pre <- manyTill anyChar $ lookAhead $ string (toString word) word' <- try $ string (toString word) return [Rest pre, Word word] -- Parsers for the interesting words parsers = [upto Quick, upto The, upto Fox] -- Try each parser and return its results with the -- rest of the input. -- An incorrect result is produced because "choice" -- picks the first successful parse result. wordParser = do snippets <- many $ try $ choice parsers leftOver <- many anyChar return $ concat $ snippets ++ [[Rest leftOver]] -- [Rest "the ",Word Quick,Rest " brown fox jumped over the lazy dog"] test1 = parseTest wordParser testCase -- Correct -- In addition to the characters leading upto the -- word and the word, the position is also returned upto' word = do result <- upto word pos <- getPosition return (pos, result) -- The new parsers parsers' = [upto' Quick, upto' The, upto' Fox] -- Try each of the given parsers and -- possibly returning the results and -- the parser but don't consume -- input. tryAll = mapM (\p -> do r <- optionMaybe $ try (lookAhead p) case r of Just result -> return $ Just (p, result) Nothing -> return $ Nothing ) -- Pick the parser that has consumed the least. firstSuccess ps = do successes <- tryAll ps >>= return . catMaybes if not (null successes) then return $ Just (fst $ head (sortBy (comparing (\(_,(pos,_)) -> pos)) successes)) else return $ Nothing -- Return the parse results for the parser that -- has consumed the least wordParser' = do parser <- firstSuccess parsers' case parser of Just p -> do (_,snippet) <- p return snippet Nothing -> parserZero -- Returns the right result test2 = parseTest (many wordParser' >>= return . concat) testCase
The first attempt "test1" does not produce the desired output because "choice" returns the first parser that succeeds when what I really want is the first parser that succeeds while consuming the least characters. This is what I try next by holding onto the source position of once input has been parsed and using the parser with the lowest source position.
This case seems common enough that I feel I'm missing some obvious combinator incantation. Can anyone offer better suggestions?