trifecta-0.17: Text/Trifecta/Parser/Prim.hs
{-# LANGUAGE MultiParamTypeClasses, FunctionalDependencies, FlexibleContexts, Rank2Types, FlexibleInstances #-}
-----------------------------------------------------------------------------
-- |
-- Module : Text.Trifecta.Parser.Prim
-- Copyright : (c) Edward Kmett 2011
-- License : BSD3
--
-- Maintainer : ekmett@gmail.com
-- Stability : experimental
-- Portability : non-portable
--
-----------------------------------------------------------------------------
module Text.Trifecta.Parser.Prim
( Parser(..)
, why
, stepParser
, parseTest
) where
import Control.Applicative
import Control.Monad.Error.Class
import Control.Monad.Writer.Class
import Control.Monad
import Data.Functor.Plus
import Data.Semigroup
import Data.Foldable
import Data.Monoid
import Data.Functor.Bind (Apply(..), Bind((>>-)))
import Data.Set as Set hiding (empty, toList)
import Data.ByteString as Strict hiding (empty)
import Data.Sequence as Seq hiding (empty)
import Data.ByteString.UTF8 as UTF8
import Data.Bifunctor
import Text.PrettyPrint.Free
import Text.Trifecta.Rope.Delta
import Text.Trifecta.Rope.Prim
import Text.Trifecta.Diagnostic.Prim
import Text.Trifecta.Diagnostic.Err
import Text.Trifecta.Diagnostic.Err.State
import Text.Trifecta.Diagnostic.Rendering.Prim
import Text.Trifecta.Diagnostic.Rendering.Caret
import Text.Trifecta.Parser.Class
import Text.Trifecta.Parser.It
import Text.Trifecta.Parser.Step
import Text.Trifecta.Parser.Result
import System.Console.Terminfo.PrettyPrint
data Parser e a = Parser
{ unparser :: forall r.
(a -> ErrState e -> Delta -> ByteString -> It Rope r) -> -- uncommitted ok
(ErrState e -> Delta -> ByteString -> It Rope r) -> -- uncommitted err
(a -> ErrState e -> Delta -> ByteString -> It Rope r) -> -- committed ok
(ErrState e -> Delta -> ByteString -> It Rope r) -> -- committed err
Delta -> ByteString -> It Rope r
}
instance Functor (Parser e) where
fmap f (Parser m) = Parser $ \ eo ee co -> m (eo . f) ee (co . f)
{-# INLINE fmap #-}
a <$ Parser m = Parser $ \ eo ee co -> m (\_ -> eo a) ee (\_ -> co a)
{-# INLINE (<$) #-}
instance Apply (Parser e) where (<.>) = (<*>)
instance Applicative (Parser e) where
pure a = Parser $ \ eo _ _ _ -> eo a mempty
{-# INLINE pure #-}
Parser m <*> Parser n = Parser $ \ eo ee co ce ->
m (\f e -> n (\a e' -> eo (f a) (e <> e')) ee (\a e' -> co (f a) (e <> e')) ce) ee
(\f e -> n (\a e' -> co (f a) (e <> e')) ce (\a e' -> co (f a) (e <> e')) ce) ce
{-# INLINE (<*>) #-}
Parser m <* Parser n = Parser $ \ eo ee co ce ->
m (\a e -> n (\_ e' -> eo a (e <> e')) ee (\_ e' -> co a (e <> e')) ce) ee
(\a e -> n (\_ e' -> co a (e <> e')) ce (\_ e' -> co a (e <> e')) ce) ce
{-# INLINE (<*) #-}
Parser m *> Parser n = Parser $ \ eo ee co ce ->
m (\_ e -> n (\a e' -> eo a (e <> e')) ee (\a e' -> co a (e <> e')) ce) ee
(\_ e -> n (\a e' -> co a (e <> e')) ce (\a e' -> co a (e <> e')) ce) ce
{-# INLINE (*>) #-}
instance Alt (Parser e) where (<!>) = (<|>)
instance Plus (Parser e) where zero = empty
instance Alternative (Parser e) where
empty = Parser $ \_ ee _ _ -> ee mempty
{-# INLINE empty #-}
-- Parser m <|> Parser n = Parser $ \ eo ee co ce -> m eo (n eo ee co ce) co ce
Parser m <|> Parser n = Parser $ \ eo ee co ce ->
m eo (\e -> n (\a e'-> eo a (e <> e'))
(\e' -> ee (e <> e'))
co
ce)
co ce
{-# INLINE (<|>) #-}
instance Semigroup (Parser e a) where
(<>) = (<|>)
instance Monoid (Parser e a) where
mappend = (<|>)
mempty = empty
instance Bind (Parser e) where (>>-) = (>>=)
instance Monad (Parser e) where
return a = Parser $ \ eo _ _ _ -> eo a mempty
{-# INLINE return #-}
Parser m >>= k = Parser $ \ eo ee co ce ->
m (\a e -> unparser (k a) (\b e' -> eo b (e <> e')) (\e' -> ee (e <> e')) co ce) ee
(\a e -> unparser (k a) (\b e' -> co b (e <> e')) (\e' -> ce (e <> e')) co ce) ce
{-# INLINE (>>=) #-}
(>>) = (*>)
{-# INLINE (>>) #-}
fail = throwError . FailErr
{-# INLINE fail #-}
instance MonadPlus (Parser e) where
mzero = empty
mplus = (<|>)
instance MonadWriter (Seq (Diagnostic e)) (Parser e) where
tell w = Parser $ \eo _ _ _ -> eo () mempty { errLog = w }
{-# INLINE tell #-}
listen (Parser m) = Parser $ \eo ee co ce ->
m (\ a e -> eo (a,errLog e) e) ee
(\ a e -> co (a,errLog e) e) ce
pass (Parser m) = Parser $ \eo ee co ce ->
m (\(a,p) e -> eo a e { errLog = p $ errLog e }) ee
(\(a,p) e -> co a e { errLog = p $ errLog e }) ce
instance MonadError (Err e) (Parser e) where
throwError m = Parser $ \_ ee _ _ -> ee mempty { errMessage = m }
{-# INLINE throwError #-}
catchError (Parser m) k = Parser $ \ eo ee co ce ->
m eo (\e -> unparser (k (errMessage e)) (\a e'-> eo a (e <> e')) (\e' -> ee (e <> e')) co ce)
co ce
{-# INLINE catchError #-}
instance MonadParser (Parser e) where
-- commit (Parser m) = Parser $ \ _ _ co ce -> m co ce co ce
try (Parser m) = Parser $ \ eo ee co _ -> m eo ee co ee
{-# INLINE try #-}
unexpected s = Parser $ \ _ ee _ _ -> ee mempty { errMessage = UnexpectedErr s }
labels (Parser p) msgs = Parser $ \ eo ee -> p
(\a e -> eo a $ if knownErr (errMessage e)
then e { errExpected = errExpected e }
else e)
(\e -> ee e { errExpected = msgs })
{-# INLINE labels #-}
liftIt m = Parser $ \ eo _ _ _ d bs -> do
a <- m
eo a mempty d bs
{-# INLINE liftIt #-}
mark = Parser $ \eo _ _ _ d -> eo d mempty d
{-# INLINE mark #-}
release d' = Parser $ \_ ee co _ d bs -> do
mbs <- rewindIt d'
case mbs of
Just bs' -> co () mempty d' bs'
Nothing -> ee mempty d bs
{-# INLINE release #-}
line = Parser $ \eo _ _ _ d bs -> eo bs mempty d bs
{-# INLINE line #-}
satisfy f = Parser $ \ _ ee co _ d bs ->
case UTF8.uncons $ Strict.drop (columnByte d) bs of
Nothing -> ee mempty { errMessage = EndOfFileErr } d bs
Just (c, xs)
| not (f c) -> ee mempty d bs
| Strict.null xs -> let ddc = d <> delta c in
join $ fillIt (co c mempty ddc bs) (co c mempty) ddc
| otherwise -> co c mempty (d <> delta c) bs
{-# INLINE satisfy #-}
satisfyAscii f = Parser $ \ _ ee co _ d bs ->
let b = columnByte d in
if b >= 0 && b < Strict.length bs
then case toEnum $ fromEnum $ Strict.index bs b of
c | not (f c) -> ee mempty d bs
| b == Strict.length bs - 1 -> let ddc = d <> delta c in
join $ fillIt (co c mempty ddc bs) (co c mempty) ddc
| otherwise -> co c mempty (d <> delta c) bs
else ee mempty { errMessage = EndOfFileErr } d bs
{-# INLINE satisfyAscii #-}
data St e a = JuSt a !(ErrState e) !Delta !ByteString
| NoSt !(ErrState e) !Delta !ByteString
instance Bifunctor St where
bimap f g (JuSt a e d bs) = JuSt (g a) (fmap f e) d bs
bimap f _ (NoSt e d bs) = NoSt (fmap f e) d bs
stepParser :: (Diagnostic e -> Diagnostic t) ->
(ErrState e -> Delta -> ByteString -> Diagnostic t) ->
Parser e a -> Delta -> ByteString -> Step t a
stepParser yl y (Parser p) d0 bs0 =
go mempty $ p ju no ju no d0 bs0
where
ju a e d bs = Pure (JuSt a e d bs)
no e d bs = Pure (NoSt e d bs)
go r (Pure (JuSt a e _ _)) = StepDone r (yl <$> errLog e) a
go r (Pure (NoSt e d bs)) = StepFail r (yl <$> errLog e) $ y e d bs
go r (It ma k) = StepCont r (case ma of
JuSt a e _ _ -> Success (yl <$> errLog e) a
NoSt e d bs -> Failure (yl <$> errLog e) (y e d bs))
(go <*> k)
why :: Pretty e => (e -> Doc t) -> ErrState e -> Delta -> ByteString -> Diagnostic (Doc t)
why pp (ErrState ss _m _) d bs
| Set.null ss = diagnose pp (addCaret d $ rendering d bs) m
| otherwise = expected <$> diagnose pp (addCaret d $ rendering d bs) m
where
m = EmptyErr
expected doc = doc <> text ", expected" <+> fillSep (punctuate (char ',') $ text <$> toList ss)
parseTest :: Show a => Parser TermDoc a -> String -> IO ()
parseTest p s = case starve (feed st (UTF8.fromString s)) of
Failure xs e -> displayLn $ prettyTerm $ toList (xs |> e)
Success xs a -> do
displayLn $ prettyTerm $ toList xs
print a
where st = stepParser id (why id) (release mempty *> p) mempty mempty