module Text.Megaparsec
(
module Text.Megaparsec.Pos
, module Text.Megaparsec.Error
, module Text.Megaparsec.Stream
, module Control.Applicative.Combinators
, State (..)
, Parsec
, ParsecT
, parse
, parseMaybe
, parseTest
, parseTest'
, runParser
, runParser'
, runParserT
, runParserT'
, MonadParsec (..)
, (<?>)
, unexpected
, match
, region
, takeRest
, atEnd
, getInput
, setInput
, getPosition
, getNextTokenPosition
, setPosition
, pushPosition
, popPosition
, getTokensProcessed
, setTokensProcessed
, getTabWidth
, setTabWidth
, setParserState
, dbg )
where
import Control.Applicative.Combinators
import Control.DeepSeq
import Control.Monad
import Control.Monad.Cont.Class
import Control.Monad.Error.Class
import Control.Monad.Identity
import Control.Monad.Reader.Class
import Control.Monad.State.Class hiding (state)
import Control.Monad.Trans
import Control.Monad.Trans.Identity
import Data.Data (Data)
import Data.List.NonEmpty (NonEmpty (..))
import Data.Maybe (fromJust)
import Data.Proxy
import Data.Semigroup hiding (option)
import Data.Set (Set)
import Data.Typeable (Typeable)
import Debug.Trace
import GHC.Generics
import Text.Megaparsec.Error
import Text.Megaparsec.Pos
import Text.Megaparsec.Stream
import qualified Control.Applicative as A
import qualified Control.Monad.Fail as Fail
import qualified Control.Monad.RWS.Lazy as L
import qualified Control.Monad.RWS.Strict as S
import qualified Control.Monad.Trans.Reader as L
import qualified Control.Monad.Trans.State.Lazy as L
import qualified Control.Monad.Trans.State.Strict as S
import qualified Control.Monad.Trans.Writer.Lazy as L
import qualified Control.Monad.Trans.Writer.Strict as S
import qualified Data.List.NonEmpty as NE
import qualified Data.Set as E
#if !MIN_VERSION_base(4,8,0)
import Control.Applicative
#endif
data State s = State
{ stateInput :: s
, statePos :: NonEmpty SourcePos
, stateTokensProcessed :: !Int
, stateTabWidth :: Pos
} deriving (Show, Eq, Data, Typeable, Generic)
instance NFData s => NFData (State s)
data Reply e s a = Reply (State s) Consumption (Result (Token s) e a)
data Consumption
= Consumed
| Virgin
data Result t e a
= OK a
| Error (ParseError t e)
newtype Hints t = Hints [Set (ErrorItem t)] deriving (Semigroup, Monoid)
toHints :: NonEmpty SourcePos -> ParseError t e -> Hints t
toHints streamPos = \case
TrivialError errPos _ ps ->
if streamPos == errPos
then Hints (if E.null ps then [] else [ps])
else mempty
FancyError _ _ -> mempty
withHints :: Ord (Token s)
=> Hints (Token s)
-> (ParseError (Token s) e -> State s -> m b)
-> ParseError (Token s) e
-> State s
-> m b
withHints (Hints ps') c e =
case e of
TrivialError pos us ps -> c (TrivialError pos us (E.unions (ps : ps')))
_ -> c e
accHints
:: Hints t
-> (a -> State s -> Hints t -> m b)
-> a
-> State s
-> Hints t
-> m b
accHints hs1 c x s hs2 = c x s (hs1 <> hs2)
refreshLastHint :: Hints t -> Maybe (ErrorItem t) -> Hints t
refreshLastHint (Hints []) _ = Hints []
refreshLastHint (Hints (_:xs)) Nothing = Hints xs
refreshLastHint (Hints (_:xs)) (Just m) = Hints (E.singleton m : xs)
type Parsec e s = ParsecT e s Identity
newtype ParsecT e s m a = ParsecT
{ unParser
:: forall b. State s
-> (a -> State s -> Hints (Token s) -> m b)
-> (ParseError (Token s) e -> State s -> m b)
-> (a -> State s -> Hints (Token s) -> m b)
-> (ParseError (Token s) e -> State s -> m b)
-> m b }
instance (Stream s, Semigroup a) => Semigroup (ParsecT e s m a) where
(<>) = A.liftA2 (<>)
instance (Stream s, Monoid a) => Monoid (ParsecT e s m a) where
mempty = pure mempty
mappend = A.liftA2 mappend
instance Functor (ParsecT e s m) where
fmap = pMap
pMap :: (a -> b) -> ParsecT e s m a -> ParsecT e s m b
pMap f p = ParsecT $ \s cok cerr eok eerr ->
unParser p s (cok . f) cerr (eok . f) eerr
instance Stream s => A.Applicative (ParsecT e s m) where
pure = pPure
(<*>) = pAp
p1 *> p2 = p1 `pBind` const p2
p1 <* p2 = do { x1 <- p1 ; void p2 ; return x1 }
pAp :: Stream s
=> ParsecT e s m (a -> b)
-> ParsecT e s m a
-> ParsecT e s m b
pAp m k = ParsecT $ \s cok cerr eok eerr ->
let mcok x s' hs = unParser k s' (cok . x) cerr
(accHints hs (cok . x)) (withHints hs cerr)
meok x s' hs = unParser k s' (cok . x) cerr
(accHints hs (eok . x)) (withHints hs eerr)
in unParser m s mcok cerr meok eerr
instance (Ord e, Stream s) => A.Alternative (ParsecT e s m) where
empty = mzero
(<|>) = mplus
instance Stream s => Monad (ParsecT e s m) where
return = pure
(>>=) = pBind
fail = Fail.fail
pPure :: a -> ParsecT e s m a
pPure x = ParsecT $ \s _ _ eok _ -> eok x s mempty
pBind :: Stream s
=> ParsecT e s m a
-> (a -> ParsecT e s m b)
-> ParsecT e s m b
pBind m k = ParsecT $ \s cok cerr eok eerr ->
let mcok x s' hs = unParser (k x) s' cok cerr
(accHints hs cok) (withHints hs cerr)
meok x s' hs = unParser (k x) s' cok cerr
(accHints hs eok) (withHints hs eerr)
in unParser m s mcok cerr meok eerr
instance Stream s => Fail.MonadFail (ParsecT e s m) where
fail = pFail
pFail :: String -> ParsecT e s m a
pFail msg = ParsecT $ \s@(State _ pos _ _) _ _ _ eerr ->
let d = E.singleton (ErrorFail msg)
in eerr (FancyError pos d) s
mkPT :: Monad m => (State s -> m (Reply e s a)) -> ParsecT e s m a
mkPT k = ParsecT $ \s cok cerr eok eerr -> do
(Reply s' consumption result) <- k s
case consumption of
Consumed ->
case result of
OK x -> cok x s' mempty
Error e -> cerr e s'
Virgin ->
case result of
OK x -> eok x s' mempty
Error e -> eerr e s'
instance (Stream s, MonadIO m) => MonadIO (ParsecT e s m) where
liftIO = lift . liftIO
instance (Stream s, MonadReader r m) => MonadReader r (ParsecT e s m) where
ask = lift ask
local f p = mkPT $ \s -> local f (runParsecT p s)
instance (Stream s, MonadState st m) => MonadState st (ParsecT e s m) where
get = lift get
put = lift . put
instance (Stream s, MonadCont m) => MonadCont (ParsecT e s m) where
callCC f = mkPT $ \s ->
callCC $ \c ->
runParsecT (f (\a -> mkPT $ \s' -> c (pack s' a))) s
where pack s a = Reply s Virgin (OK a)
instance (Stream s, MonadError e' m) => MonadError e' (ParsecT e s m) where
throwError = lift . throwError
p `catchError` h = mkPT $ \s ->
runParsecT p s `catchError` \e ->
runParsecT (h e) s
instance (Ord e, Stream s) => MonadPlus (ParsecT e s m) where
mzero = pZero
mplus = pPlus
pZero :: ParsecT e s m a
pZero = ParsecT $ \s@(State _ pos _ _) _ _ _ eerr ->
eerr (TrivialError pos Nothing E.empty) s
pPlus :: (Ord e, Stream s)
=> ParsecT e s m a
-> ParsecT e s m a
-> ParsecT e s m a
pPlus m n = ParsecT $ \s cok cerr eok eerr ->
let meerr err ms =
let ncerr err' s' = cerr (err' <> err) (longestMatch ms s')
neok x s' hs = eok x s' (toHints (statePos s') err <> hs)
neerr err' s' = eerr (err' <> err) (longestMatch ms s')
in unParser n s cok ncerr neok neerr
in unParser m s cok cerr eok meerr
instance (Stream s, MonadFix m) => MonadFix (ParsecT e s m) where
mfix f = mkPT $ \s -> mfix $ \(~(Reply _ _ result)) -> do
let
a = case result of
OK a' -> a'
Error _ -> error "mfix ParsecT"
runParsecT (f a) s
longestMatch :: State s -> State s -> State s
longestMatch s1@(State _ _ tp1 _) s2@(State _ _ tp2 _) =
case tp1 `compare` tp2 of
LT -> s2
EQ -> s2
GT -> s1
instance MonadTrans (ParsecT e s) where
lift amb = ParsecT $ \s _ _ eok _ ->
amb >>= \a -> eok a s mempty
parse
:: Parsec e s a
-> String
-> s
-> Either (ParseError (Token s) e) a
parse = runParser
parseMaybe :: (Ord e, Stream s) => Parsec e s a -> s -> Maybe a
parseMaybe p s =
case parse (p <* eof) "" s of
Left _ -> Nothing
Right x -> Just x
parseTest :: ( ShowErrorComponent e
, Ord (Token s)
, ShowToken (Token s)
, Show a )
=> Parsec e s a
-> s
-> IO ()
parseTest p input =
case parse p "" input of
Left e -> putStr (parseErrorPretty e)
Right x -> print x
parseTest' :: ( ShowErrorComponent e
, ShowToken (Token s)
, LineToken (Token s)
, Show a
, Stream s )
=> Parsec e s a
-> s
-> IO ()
parseTest' p input =
case parse p "" input of
Left e -> putStr (parseErrorPretty' input e)
Right x -> print x
runParser
:: Parsec e s a
-> String
-> s
-> Either (ParseError (Token s) e) a
runParser p name s = snd $ runParser' p (initialState name s)
runParser'
:: Parsec e s a
-> State s
-> (State s, Either (ParseError (Token s) e) a)
runParser' p = runIdentity . runParserT' p
runParserT :: Monad m
=> ParsecT e s m a
-> String
-> s
-> m (Either (ParseError (Token s) e) a)
runParserT p name s = snd `liftM` runParserT' p (initialState name s)
runParserT' :: Monad m
=> ParsecT e s m a
-> State s
-> m (State s, Either (ParseError (Token s) e) a)
runParserT' p s = do
(Reply s' _ result) <- runParsecT p s
case result of
OK x -> return (s', Right x)
Error e -> return (s', Left e)
runParsecT :: Monad m
=> ParsecT e s m a
-> State s
-> m (Reply e s a)
runParsecT p s = unParser p s cok cerr eok eerr
where cok a s' _ = return $ Reply s' Consumed (OK a)
cerr err s' = return $ Reply s' Consumed (Error err)
eok a s' _ = return $ Reply s' Virgin (OK a)
eerr err s' = return $ Reply s' Virgin (Error err)
initialState :: String -> s -> State s
initialState name s = State
{ stateInput = s
, statePos = initialPos name :| []
, stateTokensProcessed = 0
, stateTabWidth = defaultTabWidth }
class (Stream s, A.Alternative m, MonadPlus m)
=> MonadParsec e s m | m -> e s where
failure
:: Maybe (ErrorItem (Token s))
-> Set (ErrorItem (Token s))
-> m a
fancyFailure
:: Set (ErrorFancy e)
-> m a
label :: String -> m a -> m a
hidden :: m a -> m a
hidden = label ""
try :: m a -> m a
lookAhead :: m a -> m a
notFollowedBy :: m a -> m ()
withRecovery
:: (ParseError (Token s) e -> m a)
-> m a
-> m a
observing
:: m a
-> m (Either (ParseError (Token s) e) a)
eof :: m ()
token
:: (Token s -> Either ( Maybe (ErrorItem (Token s))
, Set (ErrorItem (Token s)) ) a)
-> Maybe (Token s)
-> m a
tokens
:: (Tokens s -> Tokens s -> Bool)
-> Tokens s
-> m (Tokens s)
takeWhileP
:: Maybe String
-> (Token s -> Bool)
-> m (Tokens s)
takeWhile1P
:: Maybe String
-> (Token s -> Bool)
-> m (Tokens s)
takeP
:: Maybe String
-> Int
-> m (Tokens s)
getParserState :: m (State s)
updateParserState :: (State s -> State s) -> m ()
instance (Ord e, Stream s) => MonadParsec e s (ParsecT e s m) where
failure = pFailure
fancyFailure = pFancyFailure
label = pLabel
try = pTry
lookAhead = pLookAhead
notFollowedBy = pNotFollowedBy
withRecovery = pWithRecovery
observing = pObserving
eof = pEof
token = pToken
tokens = pTokens
takeWhileP = pTakeWhileP
takeWhile1P = pTakeWhile1P
takeP = pTakeP
getParserState = pGetParserState
updateParserState = pUpdateParserState
pFailure
:: Maybe (ErrorItem (Token s))
-> Set (ErrorItem (Token s))
-> ParsecT e s m a
pFailure us ps = ParsecT $ \s@(State _ pos _ _) _ _ _ eerr ->
eerr (TrivialError pos us ps) s
pFancyFailure
:: Set (ErrorFancy e)
-> ParsecT e s m a
pFancyFailure xs = ParsecT $ \s@(State _ pos _ _) _ _ _ eerr ->
eerr (FancyError pos xs) s
pLabel :: String -> ParsecT e s m a -> ParsecT e s m a
pLabel l p = ParsecT $ \s cok cerr eok eerr ->
let el = Label <$> NE.nonEmpty l
cl = Label . (NE.fromList "the rest of " <>) <$> NE.nonEmpty l
cok' x s' hs = cok x s' (refreshLastHint hs cl)
eok' x s' hs = eok x s' (refreshLastHint hs el)
eerr' err = eerr $
case err of
(TrivialError pos us _) ->
TrivialError pos us (maybe E.empty E.singleton el)
_ -> err
in unParser p s cok' cerr eok' eerr'
pTry :: ParsecT e s m a -> ParsecT e s m a
pTry p = ParsecT $ \s cok _ eok eerr ->
let eerr' err _ = eerr err s
in unParser p s cok eerr' eok eerr'
pLookAhead :: ParsecT e s m a -> ParsecT e s m a
pLookAhead p = ParsecT $ \s _ cerr eok eerr ->
let eok' a _ _ = eok a s mempty
in unParser p s eok' cerr eok' eerr
pNotFollowedBy :: Stream s => ParsecT e s m a -> ParsecT e s m ()
pNotFollowedBy p = ParsecT $ \s@(State input pos _ _) _ _ eok eerr ->
let what = maybe EndOfInput (Tokens . nes . fst) (take1_ input)
unexpect u = TrivialError pos (pure u) E.empty
cok' _ _ _ = eerr (unexpect what) s
cerr' _ _ = eok () s mempty
eok' _ _ _ = eerr (unexpect what) s
eerr' _ _ = eok () s mempty
in unParser p s cok' cerr' eok' eerr'
pWithRecovery
:: (ParseError (Token s) e -> ParsecT e s m a)
-> ParsecT e s m a
-> ParsecT e s m a
pWithRecovery r p = ParsecT $ \s cok cerr eok eerr ->
let mcerr err ms =
let rcok x s' _ = cok x s' mempty
rcerr _ _ = cerr err ms
reok x s' _ = eok x s' (toHints (statePos s') err)
reerr _ _ = cerr err ms
in unParser (r err) ms rcok rcerr reok reerr
meerr err ms =
let rcok x s' _ = cok x s' (toHints (statePos s') err)
rcerr _ _ = eerr err ms
reok x s' _ = eok x s' (toHints (statePos s') err)
reerr _ _ = eerr err ms
in unParser (r err) ms rcok rcerr reok reerr
in unParser p s cok mcerr eok meerr
pObserving
:: ParsecT e s m a
-> ParsecT e s m (Either (ParseError (Token s) e) a)
pObserving p = ParsecT $ \s cok _ eok _ ->
let cerr' err s' = cok (Left err) s' mempty
eerr' err s' = eok (Left err) s' (toHints (statePos s') err)
in unParser p s (cok . Right) cerr' (eok . Right) eerr'
pEof :: forall e s m. Stream s => ParsecT e s m ()
pEof = ParsecT $ \s@(State input (pos:|z) tp w) _ _ eok eerr ->
case take1_ input of
Nothing -> eok () s mempty
Just (x,_) ->
let !apos = positionAt1 (Proxy :: Proxy s) pos x
us = (pure . Tokens . nes) x
ps = E.singleton EndOfInput
in eerr (TrivialError (apos:|z) us ps)
(State input (apos:|z) tp w)
pToken :: forall e s m a. Stream s
=> (Token s -> Either ( Maybe (ErrorItem (Token s))
, Set (ErrorItem (Token s)) ) a)
-> Maybe (Token s)
-> ParsecT e s m a
pToken test mtoken = ParsecT $ \s@(State input (pos:|z) tp w) cok _ _ eerr ->
case take1_ input of
Nothing ->
let us = pure EndOfInput
ps = maybe E.empty (E.singleton . Tokens . nes) mtoken
in eerr (TrivialError (pos:|z) us ps) s
Just (c,cs) ->
case test c of
Left (us, ps) ->
let !apos = positionAt1 (Proxy :: Proxy s) pos c
in eerr (TrivialError (apos:|z) us ps)
(State input (apos:|z) tp w)
Right x ->
let !npos = advance1 (Proxy :: Proxy s) w pos c
newstate = State cs (npos:|z) (tp + 1) w
in cok x newstate mempty
pTokens :: forall e s m. Stream s
=> (Tokens s -> Tokens s -> Bool)
-> Tokens s
-> ParsecT e s m (Tokens s)
pTokens f tts = ParsecT $ \s@(State input (pos:|z) tp w) cok _ eok eerr ->
let pxy = Proxy :: Proxy s
unexpect pos' u =
let us = pure u
ps = (E.singleton . Tokens . NE.fromList . chunkToTokens pxy) tts
in TrivialError pos' us ps
len = chunkLength pxy tts
in case takeN_ len input of
Nothing ->
eerr (unexpect (pos:|z) EndOfInput) s
Just (tts', input') ->
if f tts tts'
then let !npos = advanceN pxy w pos tts'
st = State input' (npos:|z) (tp + len) w
in if chunkEmpty pxy tts
then eok tts' st mempty
else cok tts' st mempty
else let !apos = positionAtN pxy pos tts'
ps = (Tokens . NE.fromList . chunkToTokens pxy) tts'
in eerr (unexpect (apos:|z) ps) (State input (apos:|z) tp w)
pTakeWhileP :: forall e s m. Stream s
=> Maybe String
-> (Token s -> Bool)
-> ParsecT e s m (Tokens s)
pTakeWhileP ml f = ParsecT $ \(State input (pos:|z) tp w) cok _ eok _ ->
let pxy = Proxy :: Proxy s
(ts, input') = takeWhile_ f input
!npos = advanceN pxy w pos ts
len = chunkLength pxy ts
hs =
case ml >>= NE.nonEmpty of
Nothing -> mempty
Just l -> (Hints . pure . E.singleton . Label) l
in if chunkEmpty pxy ts
then eok ts (State input' (npos:|z) (tp + len) w) hs
else cok ts (State input' (npos:|z) (tp + len) w) hs
pTakeWhile1P :: forall e s m. Stream s
=> Maybe String
-> (Token s -> Bool)
-> ParsecT e s m (Tokens s)
pTakeWhile1P ml f = ParsecT $ \(State input (pos:|z) tp w) cok _ _ eerr ->
let pxy = Proxy :: Proxy s
(ts, input') = takeWhile_ f input
len = chunkLength pxy ts
el = Label <$> (ml >>= NE.nonEmpty)
hs =
case el of
Nothing -> mempty
Just l -> (Hints . pure . E.singleton) l
in if chunkEmpty pxy ts
then let !apos = positionAtN pxy pos ts
us = pure $
case take1_ input of
Nothing -> EndOfInput
Just (t,_) -> Tokens (nes t)
ps = maybe E.empty E.singleton el
in eerr (TrivialError (apos:|z) us ps)
(State input (apos:|z) tp w)
else let !npos = advanceN pxy w pos ts
in cok ts (State input' (npos:|z) (tp + len) w) hs
pTakeP :: forall e s m. Stream s
=> Maybe String
-> Int
-> ParsecT e s m (Tokens s)
pTakeP ml n = ParsecT $ \s@(State input (pos:|z) tp w) cok _ _ eerr ->
let pxy = Proxy :: Proxy s
el = Label <$> (ml >>= NE.nonEmpty)
ps = maybe E.empty E.singleton el
in case takeN_ n input of
Nothing ->
eerr (TrivialError (pos:|z) (pure EndOfInput) ps) s
Just (ts, input') ->
let len = chunkLength pxy ts
!apos = positionAtN pxy pos ts
!npos = advanceN pxy w pos ts
in if len /= n
then eerr (TrivialError (npos:|z) (pure EndOfInput) ps)
(State input (apos:|z) tp w)
else cok ts (State input' (npos:|z) (tp + len) w) mempty
pGetParserState :: ParsecT e s m (State s)
pGetParserState = ParsecT $ \s _ _ eok _ -> eok s s mempty
pUpdateParserState :: (State s -> State s) -> ParsecT e s m ()
pUpdateParserState f = ParsecT $ \s _ _ eok _ -> eok () (f s) mempty
nes :: a -> NonEmpty a
nes x = x :| []
instance MonadParsec e s m => MonadParsec e s (L.StateT st m) where
failure us ps = lift (failure us ps)
fancyFailure xs = lift (fancyFailure xs)
label n (L.StateT m) = L.StateT $ label n . m
try (L.StateT m) = L.StateT $ try . m
lookAhead (L.StateT m) = L.StateT $ \s ->
(,s) . fst <$> lookAhead (m s)
notFollowedBy (L.StateT m) = L.StateT $ \s ->
notFollowedBy (fst <$> m s) >> return ((),s)
withRecovery r (L.StateT m) = L.StateT $ \s ->
withRecovery (\e -> L.runStateT (r e) s) (m s)
observing (L.StateT m) = L.StateT $ \s ->
fixs s <$> observing (m s)
eof = lift eof
token test mt = lift (token test mt)
tokens e ts = lift (tokens e ts)
takeWhileP l f = lift (takeWhileP l f)
takeWhile1P l f = lift (takeWhile1P l f)
takeP l n = lift (takeP l n)
getParserState = lift getParserState
updateParserState f = lift (updateParserState f)
instance MonadParsec e s m => MonadParsec e s (S.StateT st m) where
failure us ps = lift (failure us ps)
fancyFailure xs = lift (fancyFailure xs)
label n (S.StateT m) = S.StateT $ label n . m
try (S.StateT m) = S.StateT $ try . m
lookAhead (S.StateT m) = S.StateT $ \s ->
(,s) . fst <$> lookAhead (m s)
notFollowedBy (S.StateT m) = S.StateT $ \s ->
notFollowedBy (fst <$> m s) >> return ((),s)
withRecovery r (S.StateT m) = S.StateT $ \s ->
withRecovery (\e -> S.runStateT (r e) s) (m s)
observing (S.StateT m) = S.StateT $ \s ->
fixs s <$> observing (m s)
eof = lift eof
token test mt = lift (token test mt)
tokens e ts = lift (tokens e ts)
takeWhileP l f = lift (takeWhileP l f)
takeWhile1P l f = lift (takeWhile1P l f)
takeP l n = lift (takeP l n)
getParserState = lift getParserState
updateParserState f = lift (updateParserState f)
instance MonadParsec e s m => MonadParsec e s (L.ReaderT r m) where
failure us ps = lift (failure us ps)
fancyFailure xs = lift (fancyFailure xs)
label n (L.ReaderT m) = L.ReaderT $ label n . m
try (L.ReaderT m) = L.ReaderT $ try . m
lookAhead (L.ReaderT m) = L.ReaderT $ lookAhead . m
notFollowedBy (L.ReaderT m) = L.ReaderT $ notFollowedBy . m
withRecovery r (L.ReaderT m) = L.ReaderT $ \s ->
withRecovery (\e -> L.runReaderT (r e) s) (m s)
observing (L.ReaderT m) = L.ReaderT $ observing . m
eof = lift eof
token test mt = lift (token test mt)
tokens e ts = lift (tokens e ts)
takeWhileP l f = lift (takeWhileP l f)
takeWhile1P l f = lift (takeWhile1P l f)
takeP l n = lift (takeP l n)
getParserState = lift getParserState
updateParserState f = lift (updateParserState f)
instance (Monoid w, MonadParsec e s m) => MonadParsec e s (L.WriterT w m) where
failure us ps = lift (failure us ps)
fancyFailure xs = lift (fancyFailure xs)
label n (L.WriterT m) = L.WriterT $ label n m
try (L.WriterT m) = L.WriterT $ try m
lookAhead (L.WriterT m) = L.WriterT $
(,mempty) . fst <$> lookAhead m
notFollowedBy (L.WriterT m) = L.WriterT $
(,mempty) <$> notFollowedBy (fst <$> m)
withRecovery r (L.WriterT m) = L.WriterT $
withRecovery (L.runWriterT . r) m
observing (L.WriterT m) = L.WriterT $
fixs mempty <$> observing m
eof = lift eof
token test mt = lift (token test mt)
tokens e ts = lift (tokens e ts)
takeWhileP l f = lift (takeWhileP l f)
takeWhile1P l f = lift (takeWhile1P l f)
takeP l n = lift (takeP l n)
getParserState = lift getParserState
updateParserState f = lift (updateParserState f)
instance (Monoid w, MonadParsec e s m) => MonadParsec e s (S.WriterT w m) where
failure us ps = lift (failure us ps)
fancyFailure xs = lift (fancyFailure xs)
label n (S.WriterT m) = S.WriterT $ label n m
try (S.WriterT m) = S.WriterT $ try m
lookAhead (S.WriterT m) = S.WriterT $
(,mempty) . fst <$> lookAhead m
notFollowedBy (S.WriterT m) = S.WriterT $
(,mempty) <$> notFollowedBy (fst <$> m)
withRecovery r (S.WriterT m) = S.WriterT $
withRecovery (S.runWriterT . r) m
observing (S.WriterT m) = S.WriterT $
fixs mempty <$> observing m
eof = lift eof
token test mt = lift (token test mt)
tokens e ts = lift (tokens e ts)
takeWhileP l f = lift (takeWhileP l f)
takeWhile1P l f = lift (takeWhile1P l f)
takeP l n = lift (takeP l n)
getParserState = lift getParserState
updateParserState f = lift (updateParserState f)
instance (Monoid w, MonadParsec e s m) => MonadParsec e s (L.RWST r w st m) where
failure us ps = lift (failure us ps)
fancyFailure xs = lift (fancyFailure xs)
label n (L.RWST m) = L.RWST $ \r s -> label n (m r s)
try (L.RWST m) = L.RWST $ \r s -> try (m r s)
lookAhead (L.RWST m) = L.RWST $ \r s -> do
(x,_,_) <- lookAhead (m r s)
return (x,s,mempty)
notFollowedBy (L.RWST m) = L.RWST $ \r s -> do
notFollowedBy (void $ m r s)
return ((),s,mempty)
withRecovery n (L.RWST m) = L.RWST $ \r s ->
withRecovery (\e -> L.runRWST (n e) r s) (m r s)
observing (L.RWST m) = L.RWST $ \r s ->
fixs' s <$> observing (m r s)
eof = lift eof
token test mt = lift (token test mt)
tokens e ts = lift (tokens e ts)
takeWhileP l f = lift (takeWhileP l f)
takeWhile1P l f = lift (takeWhile1P l f)
takeP l n = lift (takeP l n)
getParserState = lift getParserState
updateParserState f = lift (updateParserState f)
instance (Monoid w, MonadParsec e s m) => MonadParsec e s (S.RWST r w st m) where
failure us ps = lift (failure us ps)
fancyFailure xs = lift (fancyFailure xs)
label n (S.RWST m) = S.RWST $ \r s -> label n (m r s)
try (S.RWST m) = S.RWST $ \r s -> try (m r s)
lookAhead (S.RWST m) = S.RWST $ \r s -> do
(x,_,_) <- lookAhead (m r s)
return (x,s,mempty)
notFollowedBy (S.RWST m) = S.RWST $ \r s -> do
notFollowedBy (void $ m r s)
return ((),s,mempty)
withRecovery n (S.RWST m) = S.RWST $ \r s ->
withRecovery (\e -> S.runRWST (n e) r s) (m r s)
observing (S.RWST m) = S.RWST $ \r s ->
fixs' s <$> observing (m r s)
eof = lift eof
token test mt = lift (token test mt)
tokens e ts = lift (tokens e ts)
takeWhileP l f = lift (takeWhileP l f)
takeWhile1P l f = lift (takeWhile1P l f)
takeP l n = lift (takeP l n)
getParserState = lift getParserState
updateParserState f = lift (updateParserState f)
instance MonadParsec e s m => MonadParsec e s (IdentityT m) where
failure us ps = lift (failure us ps)
fancyFailure xs = lift (fancyFailure xs)
label n (IdentityT m) = IdentityT $ label n m
try = IdentityT . try . runIdentityT
lookAhead (IdentityT m) = IdentityT $ lookAhead m
notFollowedBy (IdentityT m) = IdentityT $ notFollowedBy m
withRecovery r (IdentityT m) = IdentityT $
withRecovery (runIdentityT . r) m
observing (IdentityT m) = IdentityT $ observing m
eof = lift eof
token test mt = lift (token test mt)
tokens e ts = lift $ tokens e ts
takeWhileP l f = lift (takeWhileP l f)
takeWhile1P l f = lift (takeWhile1P l f)
takeP l n = lift (takeP l n)
getParserState = lift getParserState
updateParserState f = lift $ updateParserState f
fixs :: s -> Either a (b, s) -> (Either a b, s)
fixs s (Left a) = (Left a, s)
fixs _ (Right (b, s)) = (Right b, s)
fixs' :: Monoid w => s -> Either a (b, s, w) -> (Either a b, s, w)
fixs' s (Left a) = (Left a, s, mempty)
fixs' _ (Right (b,s,w)) = (Right b, s, w)
infix 0 <?>
(<?>) :: MonadParsec e s m => m a -> String -> m a
(<?>) = flip label
unexpected :: MonadParsec e s m => ErrorItem (Token s) -> m a
unexpected item = failure (pure item) E.empty
match :: MonadParsec e s m => m a -> m (Tokens s, a)
match p = do
tp <- getTokensProcessed
s <- getInput
r <- p
tp' <- getTokensProcessed
return ((fst . fromJust) (takeN_ (tp' tp) s), r)
region :: MonadParsec e s m
=> (ParseError (Token s) e -> ParseError (Token s) e)
-> m a
-> m a
region f m = do
r <- observing m
case r of
Left err ->
case f err of
TrivialError pos us ps -> do
updateParserState $ \st -> st { statePos = pos }
failure us ps
FancyError pos xs -> do
updateParserState $ \st -> st { statePos = pos }
fancyFailure xs
Right x -> return x
takeRest :: MonadParsec e s m => m (Tokens s)
takeRest = takeWhileP Nothing (const True)
atEnd :: MonadParsec e s m => m Bool
atEnd = option False (True <$ eof)
getInput :: MonadParsec e s m => m s
getInput = stateInput <$> getParserState
setInput :: MonadParsec e s m => s -> m ()
setInput s = updateParserState (\(State _ pos tp w) -> State s pos tp w)
getPosition :: MonadParsec e s m => m SourcePos
getPosition = NE.head . statePos <$> getParserState
getNextTokenPosition :: forall e s m. MonadParsec e s m => m (Maybe SourcePos)
getNextTokenPosition = do
State {..} <- getParserState
let f = positionAt1 (Proxy :: Proxy s) (NE.head statePos)
return (f . fst <$> take1_ stateInput)
setPosition :: MonadParsec e s m => SourcePos -> m ()
setPosition pos = updateParserState $ \(State s (_:|z) tp w) ->
State s (pos:|z) tp w
pushPosition :: MonadParsec e s m => SourcePos -> m ()
pushPosition pos = updateParserState $ \(State s z tp w) ->
State s (NE.cons pos z) tp w
popPosition :: MonadParsec e s m => m ()
popPosition = updateParserState $ \(State s z tp w) ->
case snd (NE.uncons z) of
Nothing -> State s z tp w
Just z' -> State s z' tp w
getTokensProcessed :: MonadParsec e s m => m Int
getTokensProcessed = stateTokensProcessed <$> getParserState
setTokensProcessed :: MonadParsec e s m => Int -> m ()
setTokensProcessed tp = updateParserState $ \(State s pos _ w) ->
State s pos tp w
getTabWidth :: MonadParsec e s m => m Pos
getTabWidth = stateTabWidth <$> getParserState
setTabWidth :: MonadParsec e s m => Pos -> m ()
setTabWidth w = updateParserState $ \(State s pos tp _) ->
State s pos tp w
setParserState :: MonadParsec e s m => State s -> m ()
setParserState st = updateParserState (const st)
dbg :: forall e s m a.
( Stream s
, ShowToken (Token s)
, ShowErrorComponent e
, Show a )
=> String
-> ParsecT e s m a
-> ParsecT e s m a
dbg lbl p = ParsecT $ \s cok cerr eok eerr ->
let l = dbgLog lbl :: DbgItem s e a -> String
unfold = streamTake 40
cok' x s' hs = flip trace (cok x s' hs) $
l (DbgIn (unfold (stateInput s))) ++
l (DbgCOK (streamTake (streamDelta s s') (stateInput s)) x)
cerr' err s' = flip trace (cerr err s') $
l (DbgIn (unfold (stateInput s))) ++
l (DbgCERR (streamTake (streamDelta s s') (stateInput s)) err)
eok' x s' hs = flip trace (eok x s' hs) $
l (DbgIn (unfold (stateInput s))) ++
l (DbgEOK (streamTake (streamDelta s s') (stateInput s)) x)
eerr' err s' = flip trace (eerr err s') $
l (DbgIn (unfold (stateInput s))) ++
l (DbgEERR (streamTake (streamDelta s s') (stateInput s)) err)
in unParser p s cok' cerr' eok' eerr'
data DbgItem s e a
= DbgIn [Token s]
| DbgCOK [Token s] a
| DbgCERR [Token s] (ParseError (Token s) e)
| DbgEOK [Token s] a
| DbgEERR [Token s] (ParseError (Token s) e)
dbgLog :: (ShowToken (Token s), ShowErrorComponent e, Show a, Ord (Token s))
=> String
-> DbgItem s e a
-> String
dbgLog lbl item = prefix msg
where
prefix = unlines . fmap ((lbl ++ "> ") ++) . lines
msg = case item of
DbgIn ts ->
"IN: " ++ showStream ts
DbgCOK ts a ->
"MATCH (COK): " ++ showStream ts ++ "\nVALUE: " ++ show a
DbgCERR ts e ->
"MATCH (CERR): " ++ showStream ts ++ "\nERROR:\n" ++ parseErrorPretty e
DbgEOK ts a ->
"MATCH (EOK): " ++ showStream ts ++ "\nVALUE: " ++ show a
DbgEERR ts e ->
"MATCH (EERR): " ++ showStream ts ++ "\nERROR:\n" ++ parseErrorPretty e
showStream :: ShowToken t => [t] -> String
showStream ts =
case NE.nonEmpty ts of
Nothing -> "<EMPTY>"
Just ne ->
let (h, r) = splitAt 40 (showTokens ne)
in if null r then h else h ++ " <…>"
streamDelta
:: State s
-> State s
-> Int
streamDelta s0 s1 = stateTokensProcessed s1 stateTokensProcessed s0
streamTake :: forall s. Stream s => Int -> s -> [Token s]
streamTake n s =
case fst <$> takeN_ n s of
Nothing -> []
Just chunk -> chunkToTokens (Proxy :: Proxy s) chunk