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I am having trouble figuring this out.

So if a string is followed by one or many newline chars without one or many spaces after it - it is an end of line and I return the line. If a string is followed by one or many newline chars and then one or many spaces after that - it is a line continuation and I keep going till I encounter newlines without spaces. Then return it.

This just totally locked my brain. Please help.


In case there is a confusion about my explanation above, I give an example

From: John Doe <j.doe@gmail.com>
To: dude@cooldomain.biz
Content-Type: multipart/alternative;

Given the above text I should be able to parse 3 lines for further processing like so

["From: John Doe <j.doe@gmail.com>", "To: dude@cooldomain.biz", "Content-Type: multipart/alternative; boundary=047d7b2e4e3cdc627304eb094bfe"]
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2 Answers 2

up vote 1 down vote accepted

Something like this pseudocode, perhaps (assuming you want to keep all the whitespace):

continuedLine = go "" where
    go s = do
        s'      <- many (noneOf "\n")
        empties <- many (char '\n')
        let soFar = s ++ s' ++ empties
        (char ' ' >> go (soFar ++ " ")) <|> return soFar

Apply your favorite transformation to eliminate the deeply-nested left-associated ++s.

EDIT: Hm, it just occurred to me that there's a subtlety I may have overlooked. In case this is not a continuation, are you hoping to leave the newlines "unparsed", so to speak? If so, you can use try to do something like this:

continuedLine = go "" where
    continuationHerald = do
        empties <- many (char '\n')
        char ' '
        return (empties ++ " ")

    go s = do
        s'   <- many (noneOf "\n")
        cont <- try (Just <$> continuationHerald) <|> return Nothing
        case cont of
            Nothing -> return (s ++ s')
            Just empties -> go (s ++ s' ++ empties)

Note that we go to some length to avoid putting the recursive call to go inside the try. This is an efficiency concern: doing so would cause the parser to refuse to give up on the alternate return Nothing branch, and prevent garbage collection of the beginning of the string being parsed.

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It freakin works! How did you do it? Well, it was a rhetorical question ... Looking at the complexity of it I probably would never figured it out. I was hoping I missed something simple. Now I need to go through your snippet and understand it. By looking at the output, I realized that I need to strip the newline and extra spaces from a continued line as well. Your first example is similar to what I was trying to do but I would test for a space after the newline and then recurse if true. Did not work though. So why didn't you like your first example? It works as expected too.. –  r.sendecky Nov 15 '13 at 7:56
@r.sendecky The difference between the first snippet and the second is that the first snippet consumes the newlines of non-continuations, but the second doesn't. –  Daniel Wagner Nov 16 '13 at 0:20

I suggest splitting your parser into multiple passes, so the code for parsing expressions isn't cluttered with whitespace handling. Example:

  • lex :: String -> [Token]

    Handle whitespace and split input into tokens.

  • parse :: Parsec [Token] Expr

    Convert a stream of tokens to an expression tree.

Here's a pretty straightforward way to join continued lines:

-- | For each line with whitespace in front of it,
-- remove it and append it to the preceding line.
joinContinuedLines :: [String] -> [String]
joinContinuedLines [] = []
joinContinuedLines (x0:xs0) = go x0 xs0
    go joinedLine (x : xs)
      | startsWithSpace x = go (joinedLine ++ x) xs
      | otherwise         = joinedLine : go x xs
    go joinedLine [] = [joinedLine]

    startsWithSpace (x:_) = isSpace x
    startsWithSpace ""    = False
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