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As part of the 4th exercise here I would like to use a reads type function such as readHex with a parsec Parser.

To do this I have written a function:

liftReadsToParse :: Parser String -> (String -> [(a, String)]) -> Parser a
liftReadsToParse p f = p >>= \s -> if null (f s) then fail "No parse" else (return . fst . head ) (f s)

Which can be used, for example in GHCI, like this:

*Main Numeric> parse (liftReadsToParse (many1 hexDigit) readHex) "" "a1"
Right 161

Can anyone suggest any improvement to this approach with regard to:

  • Will the term (f s) be memoised, or evaluated twice in the case of a null (f s) returning False?
  • Handling multiple successful parses, i.e. when length (f s) is greater than one, I do not know how parsec deals with this.
  • Handling the remainder of the parse, i.e. (snd . head) (f s).

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    2 Answers 2

    up vote 3 down vote accepted

    This is a nice idea. A more natural approach that would make your ReadS parser fit in better with Parsec would be to leave off the Parser String at the beginning of the type:

    liftReadS :: ReadS a -> String -> Parse a
    liftReadS f = maybe (unexpected "no parse") (return . fst) .
                  listToMaybe . filter (null . snd) . f

    This "combinator" style is very idiomatic Haskell - once you get used to it, it makes function definitions much easier to read and understand.

    You would then use liftReadS like this in the simple case:

    > parse (many1 hexDigit >>= liftReadS readHex) "" "a1"

    (Note that listToMaybe is in the Data.Maybe module.)

    In more complex cases, liftReadS is easy to use inside any Parsec do block.

    Regarding some of your other questions:

    1. The function f is applied only once now, so there is nothing to "memoize".
    2. It is common and accepted practice to ignore all except the first parse in a ReadS parser in most cases, so you're fine.
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    Very nice, I don't know why I didn't think to pass the String in, and also thanks for reminding me about the maybe function. –  dukedave Aug 27 '10 at 9:57

    To answer the first part of your question, no (f s) will not be memoised, you would have to do that manually:

    liftReadsToParse p f = p >>= \s -> let fs = f s in if null fs then fail "No parse"
                                                                  else (return . fst . head ) fs

    But I'd use pattern matching instead:

    liftReadsToParse p f = p >>= \s -> case f s of
                                            []              -> fail "No parse"
                                            (answer, _) : _ -> return answer
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