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In learning Parsec, I've found that somewhat verbose rules like

type PhonemeClassMap = Map Char String
type ContextElement = Parser String

phonemeContext :: Parsec String PhonemeClassMap ContextElement
phonemeContext = do
    c <- lower
    return $ char c

can be simplified by lifting functions like char into the Parsec / ParsecT monad.

phonemeContext :: Parsec String PhonemeClassMap ContextElement
phonemeContext = liftM char lower

Now I'm trying to simplify a rule which modifies the user state:

import Data.Map (insert)

phonemeClassDefinition :: Parsec String PhonemeClassMap ()
phonemeClassDefinition = do
    upperChar <- upper
    lowerChars <- char ':' >> spaces >> many1 lower
    modifyState (insert upperChar lowerChars)

I can easily lift insert :: Char -> String -> PhonemeClassMap -> PhonemeClassMap to make the following improvement:

phonemeClassDefinition = do
    f <- liftM2 insert upper (char ':' >> spaces >> many1 lower)
    modifyState f

Is there any way to state these two expressions as one? The same lifting technique does not work for modifyState :: Monad m -> (u -> u) -> ParsecT s u m ().

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2 Answers 2

up vote 3 down vote accepted

In this case, you are looking for monadic bind >>= :: Monad m => (a -> m b) -> m a -> m b which allows you to apply a function that takes a pure a and returns a monadic action to a monadic a (i.e. apply the function "through" the monad). This function is actually an integral part of the monadic type class, and is what the <- in do notation desugars to under the hood.

(Side note, unlike liftM2, liftM3..., there doesn't appear to be predefined bindM2 :: Monad m => (a -> b -> m c) -> m a -> m b -> m c (or bindM3 etc) for convenience. (Hoogle draws a blank.))

Also, Parsec parsers often benefit (stylistically and otherwise) from using its Applicative and Functor instances, not just its Monad one, specifically <$> (alias of fmap/liftM) and the various (semi-)equivalents of monadic ap & >>: <*>, <* & *>.

phonemeContext = char <$> lower

phonemeClassDefinition = (insert <$> upper <*> (char ':' *> spaces *> many1 lower)) >>= modifyState

(Note that @melpomene's =<< is just flip (>>=), i.e. with the arguments swapped.)

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modifyState =<< liftM2 insert upper (char ':' >> spaces >> many1 lower)
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