So, the first hint is to take a look at
type IndentParser s u a = ParsecT s u (State SourcePos) a
I.e. it's a
ParsecT keeping an extra close watch on
SourcePos, an abstract container which can be used to access, among other things, the current column number. So, it's probably storing the current "level of indentation" in
SourcePos. That'd be my initial guess as to what "level of reference" means.
indents gives you a new kind of
Parsec which is context sensitive—in particular, sensitive to the current indentation. I'll answer your questions out of order.
(2) The "level of reference" is the "belief" referred in the current parser context state of where this indentation level starts. To be more clear, let me give some test cases on (3).
(3) In order to start experimenting with these functions, we'll build a little test runner. It'll run the parser with a string that we give it and then unwrap the inner
State part using an
initialPos which we get to modify. In code
testParse :: (SourcePos -> SourcePos)
-> IndentParser String () a
-> String -> Either ParseError a
testParse f p src = fst $ flip runState (f $ initialPos "") $ runParserT p () "" src
(Note that this is almost
runIndent, except I gave a backdoor to modify the
Now we can take a look at
indented. By examining the source, I can tell it does two things. First, it'll
fail if the current
SourcePos column number is less-than-or-equal-to the "level of reference" stored in the
SourcePos stored in the
State. Second, it somewhat mysteriously updates the
SourcePos's line counter (not column counter) to be current.
Only the first behavior is important, to my understanding. We can see the difference here.
>>> testParse id indented ""
Left (line 1, column 1): not indented
>>> testParse id (spaces >> indented) " "
>>> testParse id (many (char 'x') >> indented) "xxxx"
So, in order to have
indented succeed, we need to have consumed enough whitespace (or anything else!) to push our column position out past the "reference" column position. Otherwise, it'll fail saying "not indented". Similar behavior exists for
checkIndent with failure unless the positions match, failure if the current column is strictly less than the reference column, or failure unless the current and reference columns match respectively.
withPos is slightly different. It's not just a
IndentParser, it's an
IndentParser-combinator—it transforms the input
IndentParser into one that thinks the "reference column" (the
SourcePos in the
State) is exactly where it was when we called
This gives us another hint, btw. It lets us know we have the power to change the reference column.
(1) So now let's take a look at how
withBlock work using our new, lower level reference column operators.
withBlock is implemented in terms of
block, so we'll start with
-- simplified from the actual source
block p = withPos $ many1 (checkIndent >> p)
block resets the "reference column" to be whatever the current column is and then consumes at least 1 parses from
p so long as each one is indented identically as this newly set "reference column". Now we can take a look at
withBlock f a p = withPos $ do
r1 <- a
r2 <- option  (indented >> block p)
return (f r1 r2)
So, it resets the "reference column" to the current column, parses a single
a parse, tries to parse an
ps, then combines the results using
f. Your implementation is almost correct, except that you need to use
withPos to choose the correct "reference column".
Then, once you have
withBlock' = withBlock (\_ bs -> bs).
indented and friends are exactly the tools to doing this: they'll cause a parse to immediately fail if it's indented incorrectly with respect to the "reference position" chosen by
(4) Yes, don't worry about these guys until you learn how to use
Applicative style parsing in base
Parsec. It's often a much cleaner, faster, simpler way of specifying parses. Sometimes they're even more powerful, but if you understand
Monads then they're almost always completely equivalent.
(6) And this is the crux. The tools mentioned so far can only do indentation failure if you can describe your intended indentation using
withPos. Quickly, I don't think it's possible to specify
withPos based on the success or failure of other parses... so you'll have to go another level deeper. Fortunately, the mechanism that makes
IndentParsers work is obvious—it's just an inner
State monad containing
SourcePos. You can use
lift :: MonadTrans t => m a -> t m a to manipulate this inner state and set the "reference column" however you like.