{-# LANGUAGE CPP, FlexibleContexts, TypeFamilies, UndecidableInstances #-}
module Text.Grampa.PEG.Backtrack.Measured (Parser(..), Result(..), alt) where
import Control.Applicative (Applicative(..), Alternative(..), liftA2)
import Control.Monad (Monad(..), MonadPlus(..))
#if MIN_VERSION_base(4,13,0)
import Control.Monad (MonadFail(fail))
#endif
import Data.Functor.Classes (Show1(..))
import Data.Functor.Compose (Compose(..))
import Data.Kind (Type)
import Data.Semigroup (Semigroup(..))
import Data.Monoid (Monoid(mappend, mempty))
import Data.Monoid.Factorial(FactorialMonoid)
import Data.Monoid.Textual(TextualMonoid)
import Data.String (fromString)
import Debug.Trace (trace)
import Witherable (Filterable(mapMaybe))
import qualified Data.Monoid.Factorial as Factorial
import qualified Data.Monoid.Null as Null
import qualified Data.Monoid.Textual as Textual
import qualified Data.Semigroup.Cancellative as Cancellative
import qualified Rank2
import qualified Text.Parser.Char
import Text.Parser.Char (CharParsing)
import Text.Parser.Combinators (Parsing(..))
import Text.Parser.LookAhead (LookAheadParsing(..))
import Text.Parser.Input.Position (fromEnd)
import Text.Grampa.Class (CommittedParsing(..), DeterministicParsing(..),
InputParsing(..), InputCharParsing(..), ConsumedInputParsing(..),
MultiParsing(..), ParseResults, ParseFailure(..), FailureDescription(..), Pos)
import Text.Grampa.Internal (expected, TraceableParsing(..))
data Result (g :: (Type -> Type) -> Type) s v =
Parsed{Result g s v -> Int
parsedLength :: !Int,
Result g s v -> v
parsedResult :: !v,
Result g s v -> s
parsedSuffix :: !s}
| NoParse (ParseFailure Pos s)
newtype Parser g s r = Parser{Parser g s r -> s -> Result g s r
applyParser :: s -> Result g s r}
instance Show s => Show1 (Result g s) where
liftShowsPrec :: (Int -> a -> ShowS)
-> ([a] -> ShowS) -> Int -> Result g s a -> ShowS
liftShowsPrec Int -> a -> ShowS
showsPrecSub [a] -> ShowS
_showList Int
prec Parsed{parsedResult :: forall (g :: (* -> *) -> *) s v. Result g s v -> v
parsedResult= a
r} String
rest = String
"Parsed " String -> ShowS
forall a. [a] -> [a] -> [a]
++ Int -> a -> ShowS
showsPrecSub Int
prec a
r String
rest
liftShowsPrec Int -> a -> ShowS
_showsPrec [a] -> ShowS
_showList Int
_prec (NoParse ParseFailure Pos s
f) String
rest = String
"NoParse " String -> ShowS
forall a. [a] -> [a] -> [a]
++ ParseFailure Pos s -> ShowS
forall a. Show a => a -> ShowS
shows ParseFailure Pos s
f String
rest
instance Functor (Result g s) where
fmap :: (a -> b) -> Result g s a -> Result g s b
fmap a -> b
f (Parsed Int
l a
a s
rest) = Int -> b -> s -> Result g s b
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
l (a -> b
f a
a) s
rest
fmap a -> b
_ (NoParse ParseFailure Pos s
failure) = ParseFailure Pos s -> Result g s b
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse ParseFailure Pos s
failure
instance Factorial.FactorialMonoid s => Filterable (Result g s) where
mapMaybe :: (a -> Maybe b) -> Result g s a -> Result g s b
mapMaybe a -> Maybe b
f (Parsed Int
l a
a s
rest) =
Result g s b -> (b -> Result g s b) -> Maybe b -> Result g s b
forall b a. b -> (a -> b) -> Maybe a -> b
maybe (ParseFailure Pos s -> Result g s b
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (ParseFailure Pos s -> Result g s b)
-> ParseFailure Pos s -> Result g s b
forall a b. (a -> b) -> a -> b
$ Pos -> String -> ParseFailure Pos s
forall s. Pos -> String -> ParseFailure Pos s
expected (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) String
"filter") (\b
b-> Int -> b -> s -> Result g s b
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
l b
b s
rest) (a -> Maybe b
f a
a)
mapMaybe a -> Maybe b
_ (NoParse ParseFailure Pos s
failure) = ParseFailure Pos s -> Result g s b
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse ParseFailure Pos s
failure
instance Functor (Parser g s) where
fmap :: (a -> b) -> Parser g s a -> Parser g s b
fmap a -> b
f (Parser s -> Result g s a
p) = (s -> Result g s b) -> Parser g s b
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser ((a -> b) -> Result g s a -> Result g s b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap a -> b
f (Result g s a -> Result g s b)
-> (s -> Result g s a) -> s -> Result g s b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. s -> Result g s a
p)
{-# INLINABLE fmap #-}
instance Applicative (Parser g s) where
pure :: a -> Parser g s a
pure a
a = (s -> Result g s a) -> Parser g s a
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser (Int -> a -> s -> Result g s a
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
0 a
a)
Parser s -> Result g s (a -> b)
p <*> :: Parser g s (a -> b) -> Parser g s a -> Parser g s b
<*> Parser s -> Result g s a
q = (s -> Result g s b) -> Parser g s b
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s b
r where
r :: s -> Result g s b
r s
rest = case s -> Result g s (a -> b)
p s
rest
of Parsed Int
l a -> b
f s
rest' -> case s -> Result g s a
q s
rest'
of Parsed Int
l' a
a s
rest'' -> Int -> b -> s -> Result g s b
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed (Int
lInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
l') (a -> b
f a
a) s
rest''
NoParse ParseFailure Pos s
failure -> ParseFailure Pos s -> Result g s b
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse ParseFailure Pos s
failure
NoParse ParseFailure Pos s
failure -> ParseFailure Pos s -> Result g s b
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse ParseFailure Pos s
failure
{-# INLINABLE (<*>) #-}
instance FactorialMonoid s => Alternative (Parser g s) where
empty :: Parser g s a
empty = (s -> Result g s a) -> Parser g s a
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser (\s
rest-> ParseFailure Pos s -> Result g s a
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (ParseFailure Pos s -> Result g s a)
-> ParseFailure Pos s -> Result g s a
forall a b. (a -> b) -> a -> b
$ Pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure Pos s
forall pos s.
pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure pos s
ParseFailure (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) [] [])
<|> :: Parser g s a -> Parser g s a -> Parser g s a
(<|>) = Parser g s a -> Parser g s a -> Parser g s a
forall (g :: (* -> *) -> *) s a.
Parser g s a -> Parser g s a -> Parser g s a
alt
alt :: Parser g s a -> Parser g s a -> Parser g s a
Parser s -> Result g s a
p alt :: Parser g s a -> Parser g s a -> Parser g s a
`alt` Parser s -> Result g s a
q = (s -> Result g s a) -> Parser g s a
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s a
r where
r :: s -> Result g s a
r s
rest = case s -> Result g s a
p s
rest
of x :: Result g s a
x@Parsed{} -> Result g s a
x
NoParse{} -> s -> Result g s a
q s
rest
instance FactorialMonoid s => Filterable (Parser g s) where
mapMaybe :: (a -> Maybe b) -> Parser g s a -> Parser g s b
mapMaybe a -> Maybe b
f (Parser s -> Result g s a
p) = (s -> Result g s b) -> Parser g s b
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser ((a -> Maybe b) -> Result g s a -> Result g s b
forall (f :: * -> *) a b.
Filterable f =>
(a -> Maybe b) -> f a -> f b
mapMaybe a -> Maybe b
f (Result g s a -> Result g s b)
-> (s -> Result g s a) -> s -> Result g s b
forall b c a. (b -> c) -> (a -> b) -> a -> c
. s -> Result g s a
p)
{-# INLINABLE mapMaybe #-}
#if MIN_VERSION_base(4,13,0)
instance Monad (Parser g s) where
#else
instance Factorial.FactorialMonoid s => Monad (Parser g s) where
#endif
return :: a -> Parser g s a
return = a -> Parser g s a
forall (f :: * -> *) a. Applicative f => a -> f a
pure
Parser s -> Result g s a
p >>= :: Parser g s a -> (a -> Parser g s b) -> Parser g s b
>>= a -> Parser g s b
f = (s -> Result g s b) -> Parser g s b
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s b
r where
r :: s -> Result g s b
r s
rest = case s -> Result g s a
p s
rest
of Parsed Int
l a
a s
rest' -> case Parser g s b -> s -> Result g s b
forall (g :: (* -> *) -> *) s r. Parser g s r -> s -> Result g s r
applyParser (a -> Parser g s b
f a
a) s
rest'
of Parsed Int
l' b
b s
rest'' -> Int -> b -> s -> Result g s b
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed (Int
lInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
l') b
b s
rest''
NoParse ParseFailure Pos s
failure -> ParseFailure Pos s -> Result g s b
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse ParseFailure Pos s
failure
NoParse ParseFailure Pos s
failure -> ParseFailure Pos s -> Result g s b
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse ParseFailure Pos s
failure
#if MIN_VERSION_base(4,13,0)
instance FactorialMonoid s => MonadFail (Parser g s) where
#endif
fail :: String -> Parser g s a
fail String
msg = (s -> Result g s a) -> Parser g s a
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser (\s
rest-> ParseFailure Pos s -> Result g s a
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (ParseFailure Pos s -> Result g s a)
-> ParseFailure Pos s -> Result g s a
forall a b. (a -> b) -> a -> b
$ Pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure Pos s
forall pos s.
pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure pos s
ParseFailure (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) [] [String -> FailureDescription s
forall s. String -> FailureDescription s
StaticDescription String
msg])
instance FactorialMonoid s => MonadPlus (Parser g s) where
mzero :: Parser g s a
mzero = Parser g s a
forall (f :: * -> *) a. Alternative f => f a
empty
mplus :: Parser g s a -> Parser g s a -> Parser g s a
mplus = Parser g s a -> Parser g s a -> Parser g s a
forall (f :: * -> *) a. Alternative f => f a -> f a -> f a
(<|>)
instance Semigroup x => Semigroup (Parser g s x) where
<> :: Parser g s x -> Parser g s x -> Parser g s x
(<>) = (x -> x -> x) -> Parser g s x -> Parser g s x -> Parser g s x
forall (f :: * -> *) a b c.
Applicative f =>
(a -> b -> c) -> f a -> f b -> f c
liftA2 x -> x -> x
forall a. Semigroup a => a -> a -> a
(<>)
instance Monoid x => Monoid (Parser g s x) where
mempty :: Parser g s x
mempty = x -> Parser g s x
forall (f :: * -> *) a. Applicative f => a -> f a
pure x
forall a. Monoid a => a
mempty
mappend :: Parser g s x -> Parser g s x -> Parser g s x
mappend = Parser g s x -> Parser g s x -> Parser g s x
forall a. Semigroup a => a -> a -> a
(<>)
instance FactorialMonoid s => Parsing (Parser g s) where
try :: Parser g s a -> Parser g s a
try (Parser s -> Result g s a
p) = (s -> Result g s a) -> Parser g s a
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s a
q
where q :: s -> Result g s a
q s
rest = Result g s a -> Result g s a
rewindFailure (s -> Result g s a
p s
rest)
where rewindFailure :: Result g s a -> Result g s a
rewindFailure NoParse{} = ParseFailure Pos s -> Result g s a
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure Pos s
forall pos s.
pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure pos s
ParseFailure (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) [] [])
rewindFailure Result g s a
parsed = Result g s a
parsed
Parser s -> Result g s a
p <?> :: Parser g s a -> String -> Parser g s a
<?> String
msg = (s -> Result g s a) -> Parser g s a
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s a
q
where q :: s -> Result g s a
q s
rest = Result g s a -> Result g s a
replaceFailure (s -> Result g s a
p s
rest)
where replaceFailure :: Result g s a -> Result g s a
replaceFailure (NoParse (ParseFailure Pos
pos [FailureDescription s]
msgs [FailureDescription s]
erroneous)) =
ParseFailure Pos s -> Result g s a
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure Pos s
forall pos s.
pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure pos s
ParseFailure Pos
pos
(if Pos
pos Pos -> Pos -> Bool
forall a. Eq a => a -> a -> Bool
== Int -> Pos
fromEnd (s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) then [String -> FailureDescription s
forall s. String -> FailureDescription s
StaticDescription String
msg] else [FailureDescription s]
msgs)
[FailureDescription s]
erroneous)
replaceFailure Result g s a
parsed = Result g s a
parsed
eof :: Parser g s ()
eof = (s -> Result g s ()) -> Parser g s ()
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s ()
forall m (g :: (* -> *) -> *).
(MonoidNull m, Factorial m) =>
m -> Result g m ()
p
where p :: m -> Result g m ()
p m
rest
| m -> Bool
forall m. MonoidNull m => m -> Bool
Null.null m
rest = Int -> () -> m -> Result g m ()
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
0 () m
rest
| Bool
otherwise = ParseFailure Pos m -> Result g m ()
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos
-> [FailureDescription m]
-> [FailureDescription m]
-> ParseFailure Pos m
forall pos s.
pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure pos s
ParseFailure (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ m -> Int
forall m. Factorial m => m -> Int
Factorial.length m
rest)
[String -> FailureDescription m
forall s. String -> FailureDescription s
StaticDescription String
"end of input"] [])
unexpected :: String -> Parser g s a
unexpected String
msg = (s -> Result g s a) -> Parser g s a
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser (\s
t-> ParseFailure Pos s -> Result g s a
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (ParseFailure Pos s -> Result g s a)
-> ParseFailure Pos s -> Result g s a
forall a b. (a -> b) -> a -> b
$ Pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure Pos s
forall pos s.
pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure pos s
ParseFailure (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
t) [] [String -> FailureDescription s
forall s. String -> FailureDescription s
StaticDescription String
msg])
notFollowedBy :: Parser g s a -> Parser g s ()
notFollowedBy (Parser s -> Result g s a
p) = (s -> Result g s ()) -> Parser g s ()
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser (\s
input-> s -> Result g s a -> Result g s ()
forall s (g :: (* -> *) -> *) s v (g :: (* -> *) -> *).
Factorial s =>
s -> Result g s v -> Result g s ()
rewind s
input (s -> Result g s a
p s
input))
where rewind :: s -> Result g s v -> Result g s ()
rewind s
t Parsed{} = ParseFailure Pos s -> Result g s ()
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure Pos s
forall pos s.
pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure pos s
ParseFailure (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
t)
[String -> FailureDescription s
forall s. String -> FailureDescription s
StaticDescription String
"notFollowedBy"] [])
rewind s
t NoParse{} = Int -> () -> s -> Result g s ()
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
0 () s
t
instance FactorialMonoid s => CommittedParsing (Parser g s) where
type CommittedResults (Parser g s) = ParseResults s
commit :: Parser g s a -> Parser g s (CommittedResults (Parser g s) a)
commit (Parser s -> Result g s a
p) = (s -> Result g s (Either (ParseFailure Pos s) a))
-> Parser g s (Either (ParseFailure Pos s) a)
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s (Either (ParseFailure Pos s) a)
q
where q :: s -> Result g s (Either (ParseFailure Pos s) a)
q s
rest = case s -> Result g s a
p s
rest
of NoParse ParseFailure Pos s
failure -> Int
-> Either (ParseFailure Pos s) a
-> s
-> Result g s (Either (ParseFailure Pos s) a)
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
0 (ParseFailure Pos s -> Either (ParseFailure Pos s) a
forall a b. a -> Either a b
Left ParseFailure Pos s
failure) s
rest
Parsed Int
len a
a s
rest' -> Int
-> Either (ParseFailure Pos s) a
-> s
-> Result g s (Either (ParseFailure Pos s) a)
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
len (a -> Either (ParseFailure Pos s) a
forall a b. b -> Either a b
Right a
a) s
rest'
admit :: Parser g s (CommittedResults (Parser g s) a) -> Parser g s a
admit (Parser s -> Result g s (CommittedResults (Parser g s) a)
p) = (s -> Result g s a) -> Parser g s a
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s a
q
where q :: s -> Result g s a
q s
rest = case s -> Result g s (CommittedResults (Parser g s) a)
p s
rest
of NoParse ParseFailure Pos s
failure -> ParseFailure Pos s -> Result g s a
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse ParseFailure Pos s
failure
Parsed Int
_ (Left failure) s
_ -> ParseFailure Pos s -> Result g s a
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse ParseFailure Pos s
failure
Parsed Int
len (Right a) s
rest' -> Int -> a -> s -> Result g s a
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
len a
a s
rest'
instance FactorialMonoid s => DeterministicParsing (Parser g s) where
<<|> :: Parser g s a -> Parser g s a -> Parser g s a
(<<|>) = Parser g s a -> Parser g s a -> Parser g s a
forall (g :: (* -> *) -> *) s a.
Parser g s a -> Parser g s a -> Parser g s a
alt
takeSome :: Parser g s a -> Parser g s [a]
takeSome = Parser g s a -> Parser g s [a]
forall (f :: * -> *) a. Alternative f => f a -> f [a]
some
takeMany :: Parser g s a -> Parser g s [a]
takeMany = Parser g s a -> Parser g s [a]
forall (f :: * -> *) a. Alternative f => f a -> f [a]
many
skipAll :: Parser g s a -> Parser g s ()
skipAll = Parser g s a -> Parser g s ()
forall (m :: * -> *) a. Parsing m => m a -> m ()
skipMany
instance FactorialMonoid s => LookAheadParsing (Parser g s) where
lookAhead :: Parser g s a -> Parser g s a
lookAhead (Parser s -> Result g s a
p) = (s -> Result g s a) -> Parser g s a
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser (\s
input-> s -> Result g s a -> Result g s a
forall s (g :: (* -> *) -> *) v. s -> Result g s v -> Result g s v
rewind s
input (s -> Result g s a
p s
input))
where rewind :: s -> Result g s v -> Result g s v
rewind s
t (Parsed Int
_ v
r s
_) = Int -> v -> s -> Result g s v
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
0 v
r s
t
rewind s
_ r :: Result g s v
r@NoParse{} = Result g s v
r
instance (Show s, Textual.TextualMonoid s) => CharParsing (Parser g s) where
satisfy :: (Char -> Bool) -> Parser g s Char
satisfy Char -> Bool
predicate = (s -> Result g s Char) -> Parser g s Char
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s Char
p
where p :: s -> Result g s Char
p s
rest =
case s -> Maybe (Char, s)
forall t. TextualMonoid t => t -> Maybe (Char, t)
Textual.splitCharacterPrefix s
rest
of Just (Char
first, s
suffix) | Char -> Bool
predicate Char
first -> Int -> Char -> s -> Result g s Char
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
1 Char
first s
suffix
Maybe (Char, s)
_ -> ParseFailure Pos s -> Result g s Char
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos -> String -> ParseFailure Pos s
forall s. Pos -> String -> ParseFailure Pos s
expected (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) String
"Char.satisfy")
string :: String -> Parser g s String
string String
s = (s -> String) -> s -> String
forall t. TextualMonoid t => (t -> String) -> t -> String
Textual.toString (String -> s -> String
forall a. HasCallStack => String -> a
error String
"unexpected non-character") (s -> String) -> Parser g s s -> Parser g s String
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> ParserInput (Parser g s) -> Parser g s (ParserInput (Parser g s))
forall (m :: * -> *).
InputParsing m =>
ParserInput m -> m (ParserInput m)
string (String -> s
forall a. IsString a => String -> a
fromString String
s)
text :: Text -> Parser g s Text
text Text
t = (String -> Text
forall a. IsString a => String -> a
fromString (String -> Text) -> (s -> String) -> s -> Text
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (s -> String) -> s -> String
forall t. TextualMonoid t => (t -> String) -> t -> String
Textual.toString (String -> s -> String
forall a. HasCallStack => String -> a
error String
"unexpected non-character")) (s -> Text) -> Parser g s s -> Parser g s Text
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> ParserInput (Parser g s) -> Parser g s (ParserInput (Parser g s))
forall (m :: * -> *).
InputParsing m =>
ParserInput m -> m (ParserInput m)
string (Text -> s
forall t. TextualMonoid t => Text -> t
Textual.fromText Text
t)
instance (Cancellative.LeftReductive s, FactorialMonoid s) => InputParsing (Parser g s) where
type ParserInput (Parser g s) = s
getInput :: Parser g s (ParserInput (Parser g s))
getInput = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s s
forall s (g :: (* -> *) -> *). s -> Result g s s
p
where p :: s -> Result g s s
p s
rest = Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
0 s
rest s
rest
anyToken :: Parser g s (ParserInput (Parser g s))
anyToken = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s s
forall m (g :: (* -> *) -> *).
FactorialMonoid m =>
m -> Result g m m
p
where p :: m -> Result g m m
p m
rest = case m -> Maybe (m, m)
forall m. FactorialMonoid m => m -> Maybe (m, m)
Factorial.splitPrimePrefix m
rest
of Just (m
first, m
suffix) -> Int -> m -> m -> Result g m m
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
1 m
first m
suffix
Maybe (m, m)
_ -> ParseFailure Pos m -> Result g m m
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos -> String -> ParseFailure Pos m
forall s. Pos -> String -> ParseFailure Pos s
expected (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ m -> Int
forall m. Factorial m => m -> Int
Factorial.length m
rest) String
"anyToken")
satisfy :: (ParserInput (Parser g s) -> Bool)
-> Parser g s (ParserInput (Parser g s))
satisfy ParserInput (Parser g s) -> Bool
predicate = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s s
p
where p :: s -> Result g s s
p s
rest =
case s -> Maybe (s, s)
forall m. FactorialMonoid m => m -> Maybe (m, m)
Factorial.splitPrimePrefix s
rest
of Just (s
first, s
suffix) | ParserInput (Parser g s) -> Bool
predicate s
ParserInput (Parser g s)
first -> Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
1 s
first s
suffix
Maybe (s, s)
_ -> ParseFailure Pos s -> Result g s s
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos -> String -> ParseFailure Pos s
forall s. Pos -> String -> ParseFailure Pos s
expected (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) String
"satisfy")
notSatisfy :: (ParserInput (Parser g s) -> Bool) -> Parser g s ()
notSatisfy ParserInput (Parser g s) -> Bool
predicate = (s -> Result g s ()) -> Parser g s ()
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s ()
p
where p :: s -> Result g s ()
p s
s = case s -> Maybe (s, s)
forall m. FactorialMonoid m => m -> Maybe (m, m)
Factorial.splitPrimePrefix s
s
of Just (s
first, s
_)
| ParserInput (Parser g s) -> Bool
predicate s
ParserInput (Parser g s)
first -> ParseFailure Pos s -> Result g s ()
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos -> String -> ParseFailure Pos s
forall s. Pos -> String -> ParseFailure Pos s
expected (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
s) String
"notSatisfy")
Maybe (s, s)
_ -> Int -> () -> s -> Result g s ()
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
0 () s
s
scan :: state
-> (state -> ParserInput (Parser g s) -> Maybe state)
-> Parser g s (ParserInput (Parser g s))
scan state
s0 state -> ParserInput (Parser g s) -> Maybe state
f = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser (state -> s -> Result g s s
p state
s0)
where p :: state -> s -> Result g s s
p state
s s
rest = Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed (s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
prefix) s
prefix s
suffix
where (s
prefix, s
suffix, state
_) = state -> (state -> s -> Maybe state) -> s -> (s, s, state)
forall m s.
FactorialMonoid m =>
s -> (s -> m -> Maybe s) -> m -> (m, m, s)
Factorial.spanMaybe' state
s state -> s -> Maybe state
state -> ParserInput (Parser g s) -> Maybe state
f s
rest
take :: Int -> Parser g s (ParserInput (Parser g s))
take Int
n = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s s
p
where p :: s -> Result g s s
p s
rest
| (s
prefix, s
suffix) <- Int -> s -> (s, s)
forall m. FactorialMonoid m => Int -> m -> (m, m)
Factorial.splitAt Int
n s
rest, s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
prefix Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
== Int
n = Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
n s
prefix s
suffix
| Bool
otherwise = ParseFailure Pos s -> Result g s s
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos -> String -> ParseFailure Pos s
forall s. Pos -> String -> ParseFailure Pos s
expected (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) (String -> ParseFailure Pos s) -> String -> ParseFailure Pos s
forall a b. (a -> b) -> a -> b
$ String
"take " String -> ShowS
forall a. [a] -> [a] -> [a]
++ Int -> String
forall a. Show a => a -> String
show Int
n)
takeWhile :: (ParserInput (Parser g s) -> Bool)
-> Parser g s (ParserInput (Parser g s))
takeWhile ParserInput (Parser g s) -> Bool
predicate = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s s
p
where p :: s -> Result g s s
p s
rest | (s
prefix, s
suffix) <- (s -> Bool) -> s -> (s, s)
forall m. FactorialMonoid m => (m -> Bool) -> m -> (m, m)
Factorial.span s -> Bool
ParserInput (Parser g s) -> Bool
predicate s
rest =
Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed (s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
prefix) s
prefix s
suffix
takeWhile1 :: (ParserInput (Parser g s) -> Bool)
-> Parser g s (ParserInput (Parser g s))
takeWhile1 ParserInput (Parser g s) -> Bool
predicate = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s s
p
where p :: s -> Result g s s
p s
rest | (s
prefix, s
suffix) <- (s -> Bool) -> s -> (s, s)
forall m. FactorialMonoid m => (m -> Bool) -> m -> (m, m)
Factorial.span s -> Bool
ParserInput (Parser g s) -> Bool
predicate s
rest =
if s -> Bool
forall m. MonoidNull m => m -> Bool
Null.null s
prefix
then ParseFailure Pos s -> Result g s s
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos -> String -> ParseFailure Pos s
forall s. Pos -> String -> ParseFailure Pos s
expected (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) String
"takeWhile1")
else Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed (s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
prefix) s
prefix s
suffix
string :: ParserInput (Parser g s) -> Parser g s (ParserInput (Parser g s))
string ParserInput (Parser g s)
s = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s s
p where
p :: s -> Result g s s
p s
s' | Just s
suffix <- s -> s -> Maybe s
forall m. LeftReductive m => m -> m -> Maybe m
Cancellative.stripPrefix s
ParserInput (Parser g s)
s s
s' = Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
l s
ParserInput (Parser g s)
s s
suffix
| Bool
otherwise = ParseFailure Pos s -> Result g s s
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure Pos s
forall pos s.
pos
-> [FailureDescription s]
-> [FailureDescription s]
-> ParseFailure pos s
ParseFailure (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
s') [s -> FailureDescription s
forall s. s -> FailureDescription s
LiteralDescription s
ParserInput (Parser g s)
s] [])
l :: Int
l = s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
ParserInput (Parser g s)
s
{-# INLINABLE string #-}
instance (Cancellative.LeftReductive s, FactorialMonoid s) => ConsumedInputParsing (Parser g s) where
match :: Parser g s a -> Parser g s (ParserInput (Parser g s), a)
match (Parser s -> Result g s a
p) = (s -> Result g s (s, a)) -> Parser g s (s, a)
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s (s, a)
q
where q :: s -> Result g s (s, a)
q s
rest = case s -> Result g s a
p s
rest
of Parsed Int
l a
prefix s
suffix -> Int -> (s, a) -> s -> Result g s (s, a)
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
l (Int -> s -> s
forall m. FactorialMonoid m => Int -> m -> m
Factorial.take Int
l s
rest, a
prefix) s
suffix
NoParse ParseFailure Pos s
failure -> ParseFailure Pos s -> Result g s (s, a)
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse ParseFailure Pos s
failure
instance InputParsing (Parser g s) => TraceableParsing (Parser g s) where
traceInput :: (ParserInput (Parser g s) -> String)
-> Parser g s a -> Parser g s a
traceInput ParserInput (Parser g s) -> String
description (Parser s -> Result g s a
p) = (s -> Result g s a) -> Parser g s a
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s a
q
where q :: s -> Result g s a
q s
s = case String -> Result g s a -> Result g s a
traceWith String
"Parsing " (s -> Result g s a
p s
s)
of r :: Result g s a
r@Parsed{} -> String -> Result g s a -> Result g s a
traceWith String
"Parsed " Result g s a
r
r :: Result g s a
r@NoParse{} -> String -> Result g s a -> Result g s a
traceWith String
"Failed " Result g s a
r
where traceWith :: String -> Result g s a -> Result g s a
traceWith String
prefix = String -> Result g s a -> Result g s a
forall a. String -> a -> a
trace (String
prefix String -> ShowS
forall a. Semigroup a => a -> a -> a
<> ParserInput (Parser g s) -> String
description s
ParserInput (Parser g s)
s)
instance (Show s, TextualMonoid s) => InputCharParsing (Parser g s) where
satisfyCharInput :: (Char -> Bool) -> Parser g s (ParserInput (Parser g s))
satisfyCharInput Char -> Bool
predicate = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s s
p
where p :: s -> Result g s s
p s
rest =
case s -> Maybe (Char, s)
forall t. TextualMonoid t => t -> Maybe (Char, t)
Textual.splitCharacterPrefix s
rest
of Just (Char
first, s
suffix) | Char -> Bool
predicate Char
first -> Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
1 (s -> s
forall m. Factorial m => m -> m
Factorial.primePrefix s
rest) s
suffix
Maybe (Char, s)
_ -> ParseFailure Pos s -> Result g s s
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos -> String -> ParseFailure Pos s
forall s. Pos -> String -> ParseFailure Pos s
expected (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) String
"satisfyChar")
notSatisfyChar :: (Char -> Bool) -> Parser g s ()
notSatisfyChar Char -> Bool
predicate = (s -> Result g s ()) -> Parser g s ()
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s ()
p
where p :: s -> Result g s ()
p s
s = case s -> Maybe Char
forall t. TextualMonoid t => t -> Maybe Char
Textual.characterPrefix s
s
of Just Char
first | Char -> Bool
predicate Char
first
-> ParseFailure Pos s -> Result g s ()
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos -> String -> ParseFailure Pos s
forall s. Pos -> String -> ParseFailure Pos s
expected (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
s) String
"notSatisfyChar")
Maybe Char
_ -> Int -> () -> s -> Result g s ()
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed Int
0 () s
s
scanChars :: state
-> (state -> Char -> Maybe state)
-> Parser g s (ParserInput (Parser g s))
scanChars state
s0 state -> Char -> Maybe state
f = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser (state -> s -> Result g s s
p state
s0)
where p :: state -> s -> Result g s s
p state
s s
rest = Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed (s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
prefix) s
prefix s
suffix
where (s
prefix, s
suffix, state
_) = state -> (state -> Char -> Maybe state) -> s -> (s, s, state)
forall t s.
TextualMonoid t =>
s -> (s -> Char -> Maybe s) -> t -> (t, t, s)
Textual.spanMaybe_' state
s state -> Char -> Maybe state
f s
rest
takeCharsWhile :: (Char -> Bool) -> Parser g s (ParserInput (Parser g s))
takeCharsWhile Char -> Bool
predicate = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s s
p
where p :: s -> Result g s s
p s
rest | (s
prefix, s
suffix) <- Bool -> (Char -> Bool) -> s -> (s, s)
forall t. TextualMonoid t => Bool -> (Char -> Bool) -> t -> (t, t)
Textual.span_ Bool
False Char -> Bool
predicate s
rest =
Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed (s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
prefix) s
prefix s
suffix
takeCharsWhile1 :: (Char -> Bool) -> Parser g s (ParserInput (Parser g s))
takeCharsWhile1 Char -> Bool
predicate = (s -> Result g s s) -> Parser g s s
forall (g :: (* -> *) -> *) s r.
(s -> Result g s r) -> Parser g s r
Parser s -> Result g s s
p
where p :: s -> Result g s s
p s
rest | (s
prefix, s
suffix) <- Bool -> (Char -> Bool) -> s -> (s, s)
forall t. TextualMonoid t => Bool -> (Char -> Bool) -> t -> (t, t)
Textual.span_ Bool
False Char -> Bool
predicate s
rest =
if s -> Bool
forall m. MonoidNull m => m -> Bool
Null.null s
prefix
then ParseFailure Pos s -> Result g s s
forall (g :: (* -> *) -> *) s v. ParseFailure Pos s -> Result g s v
NoParse (Pos -> String -> ParseFailure Pos s
forall s. Pos -> String -> ParseFailure Pos s
expected (Int -> Pos
fromEnd (Int -> Pos) -> Int -> Pos
forall a b. (a -> b) -> a -> b
$ s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
rest) String
"takeCharsWhile1")
else Int -> s -> s -> Result g s s
forall (g :: (* -> *) -> *) s v. Int -> v -> s -> Result g s v
Parsed (s -> Int
forall m. Factorial m => m -> Int
Factorial.length s
prefix) s
prefix s
suffix
instance (Cancellative.LeftReductive s, Factorial.FactorialMonoid s) => MultiParsing (Parser g s) where
type ResultFunctor (Parser g s) = ParseResults s
{-# NOINLINE parsePrefix #-}
parsePrefix :: g (Parser g s)
-> s -> g (Compose (ResultFunctor (Parser g s)) ((,) s))
parsePrefix g (Parser g s)
g s
input = (forall a. Parser g s a -> Compose (ParseResults s) ((,) s) a)
-> g (Parser g s) -> g (Compose (ParseResults s) ((,) s))
forall k (g :: (k -> *) -> *) (p :: k -> *) (q :: k -> *).
Functor g =>
(forall (a :: k). p a -> q a) -> g p -> g q
Rank2.fmap (Either (ParseFailure Pos s) (s, a)
-> Compose (Either (ParseFailure Pos s)) ((,) s) a
forall k k1 (f :: k -> *) (g :: k1 -> k) (a :: k1).
f (g a) -> Compose f g a
Compose (Either (ParseFailure Pos s) (s, a)
-> Compose (Either (ParseFailure Pos s)) ((,) s) a)
-> (Parser g s a -> Either (ParseFailure Pos s) (s, a))
-> Parser g s a
-> Compose (Either (ParseFailure Pos s)) ((,) s) a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Result g s a -> Either (ParseFailure Pos s) (s, a)
forall s (g :: (* -> *) -> *) r.
(Eq s, FactorialMonoid s) =>
Result g s r -> ParseResults s (s, r)
fromResult (Result g s a -> Either (ParseFailure Pos s) (s, a))
-> (Parser g s a -> Result g s a)
-> Parser g s a
-> Either (ParseFailure Pos s) (s, a)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (Parser g s a -> s -> Result g s a
forall (g :: (* -> *) -> *) s r. Parser g s r -> s -> Result g s r
`applyParser` s
input)) g (Parser g s)
g
parseComplete :: g (Parser g s) -> s -> g (ResultFunctor (Parser g s))
parseComplete g (Parser g s)
g s
input = (forall a. Parser g s a -> ParseResults s a)
-> g (Parser g s) -> g (ParseResults s)
forall k (g :: (k -> *) -> *) (p :: k -> *) (q :: k -> *).
Functor g =>
(forall (a :: k). p a -> q a) -> g p -> g q
Rank2.fmap (((s, a) -> a
forall a b. (a, b) -> b
snd ((s, a) -> a)
-> Either (ParseFailure Pos s) (s, a)
-> Either (ParseFailure Pos s) a
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$>) (Either (ParseFailure Pos s) (s, a)
-> Either (ParseFailure Pos s) a)
-> (Parser g s a -> Either (ParseFailure Pos s) (s, a))
-> Parser g s a
-> Either (ParseFailure Pos s) a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Result g s a -> Either (ParseFailure Pos s) (s, a)
forall s (g :: (* -> *) -> *) r.
(Eq s, FactorialMonoid s) =>
Result g s r -> ParseResults s (s, r)
fromResult (Result g s a -> Either (ParseFailure Pos s) (s, a))
-> (Parser g s a -> Result g s a)
-> Parser g s a
-> Either (ParseFailure Pos s) (s, a)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (Parser g s a -> s -> Result g s a
forall (g :: (* -> *) -> *) s r. Parser g s r -> s -> Result g s r
`applyParser` s
input))
((forall a. Parser g s a -> Parser g s a)
-> g (Parser g s) -> g (Parser g s)
forall k (g :: (k -> *) -> *) (p :: k -> *) (q :: k -> *).
Functor g =>
(forall (a :: k). p a -> q a) -> g p -> g q
Rank2.fmap (Parser g s a -> Parser g s () -> Parser g s a
forall (f :: * -> *) a b. Applicative f => f a -> f b -> f a
<* Parser g s ()
forall (m :: * -> *). Parsing m => m ()
eof) g (Parser g s)
g)
fromResult :: (Eq s, FactorialMonoid s) => Result g s r -> ParseResults s (s, r)
fromResult :: Result g s r -> ParseResults s (s, r)
fromResult (NoParse ParseFailure Pos s
failure) = ParseFailure Pos s -> ParseResults s (s, r)
forall a b. a -> Either a b
Left ParseFailure Pos s
failure
fromResult (Parsed Int
_ r
prefix s
suffix) = (s, r) -> ParseResults s (s, r)
forall a b. b -> Either a b
Right (s
suffix, r
prefix)