interface Text.ParserCombinators.Poly.NoLeak.State where { infixl 3 `Text.ParserCombinators.Poly.Base.discard`; infixl 3 `Text.ParserCombinators.Poly.Base.apply`; infixl 6 `Text.ParserCombinators.Poly.Base.onFail`; {-# NEED #-} instance Text.ParserCombinators.Poly.Base.PolyParse (Parser a b); {-# NEED #-} instance Text.ParserCombinators.Poly.Base.PolyParse Prelude.[]; {-# NEED #-} instance Prelude.Monad (Parser a b); {-# NEED #-} instance Prelude.Monad NHC.Internal.IO; {-# NEED #-} instance Prelude.Functor (Result a b); {-# NEED #-} instance Prelude.Functor (Parser a b); {-# NEED #-} instance Prelude.Functor NHC.Internal.IO; {-# NEED #-} instance (Prelude.Integral a) => Prelude.Fractional (Ratio.Ratio a); {-# NEED #-} instance (Prelude.Integral a) => Prelude.RealFrac (Ratio.Ratio a); {-# NEED #-} instance (Prelude.Integral a) => Prelude.Num (Ratio.Ratio a); {-# NEED #-} instance (Prelude.Integral a) => Prelude.Real (Ratio.Ratio a); {-# NEED #-} instance (Prelude.Integral a) => Prelude.Enum (Ratio.Ratio a); {-# NEED #-} instance (Prelude.Read a,Prelude.Integral a) => Prelude.Read (Ratio.Ratio a); {-# NEED #-} instance (Prelude.Integral a) => Prelude.Ord (Ratio.Ratio a); {-# NEED #-} instance (Prelude.Integral a) => Prelude.Eq (Ratio.Ratio a); {-# NEED #-} instance (Prelude.Show a) => Prelude.Show (NHC.Internal.IO a); {-# NEED #-} instance (Prelude.Integral a) => Prelude.Show (Ratio.Ratio a); interface NHC.Internal {-# NEED IO #-} newtype {-# #-} IO a; {-# NEED World #-} data World; interface Ratio {-# NEED Ratio #-} data Ratio a; interface ! Text.ParserCombinators.Poly.NoLeak.State {-# NEED reparse #-} reparse{-# 1 #-}::([a] -> (Parser b a ())); {-# NEED stGet #-} stGet{-# 0 #-}::(Parser a b a); {-# NEED stQuery #-} stQuery{-# 1 #-}::((a -> b) -> (Parser a c b)); {-# NEED stUpdate #-} stUpdate{-# 1 #-}::((a -> a) -> (Parser a b ())); {-# NEED satisfy #-} satisfy{-# 1 #-}::((a -> Prelude.Bool) -> (Parser b a a)); {-# NEED next #-} next{-# 0 #-}::(Parser a b b); {-# NEED runParser #-} runParser{-# 1 #-}::((Parser a b c) -> (a -> ([b] -> ((Prelude.Either Prelude.String c),a,[b])))); {-# NEED {Parser P} #-} newtype {-# #-} Parser a b c = P (a -> ([b] -> (Result [b] a c))); interface Text.ParserCombinators.Poly.NoLeak.State {-# NEED Result #-} data Result a b c; interface ! Text.ParserCombinators.Poly.Base {-# NEED failBad #-} failBad{-# 1 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => (Prelude.String -> (a b)); {-# NEED discard #-} discard{-# 2 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ((a b) -> ((a c) -> (a b))); {-# NEED adjustErrBad #-} adjustErrBad{-# 2 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ((a b) -> ((Prelude.String -> Prelude.String) -> (a b))); {-# NEED oneOf #-} oneOf{-# 1 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ([(a b)] -> (a b)); {-# NEED indent #-} indent{-# 1 #-}::(Prelude.Int -> (Prelude.String -> Prelude.String)); {-# NEED optional #-} optional{-# 1 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ((a b) -> (a (Prelude.Maybe b))); {-# NEED exactly #-} exactly{-# 2 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => (Prelude.Int -> ((a b) -> (a [b]))); {-# NEED many #-} many{-# 1 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ((a b) -> (a [b])); {-# NEED many1 #-} many1{-# 1 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ((a b) -> (a [b])); {-# NEED sepBy #-} sepBy{-# 2 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ((a b) -> ((a c) -> (a [b]))); {-# NEED sepBy1 #-} sepBy1{-# 2 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ((a b) -> ((a c) -> (a [b]))); {-# NEED bracketSep #-} bracketSep{-# 4 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ((a b) -> ((a c) -> ((a d) -> ((a e) -> (a [e]))))); {-# NEED bracket #-} bracket{-# 3 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ((a b) -> ((a c) -> ((a d) -> (a d)))); {-# NEED manyFinally #-} manyFinally{-# 2 #-}::(Text.ParserCombinators.Poly.Base.PolyParse a) => ((a b) -> ((a c) -> (a [b]))); {-# NEED {PolyParse apply commit adjustErr onFail oneOf'} #-} class (Prelude.Functor a,Prelude.Monad a) => PolyParse a where { apply{-# 2 #-}::((a (b -> c)) -> ((a b) -> (a c))); commit{-# 1 #-}::((a b) -> (a b)); adjustErr{-# 2 #-}::((a b) -> ((Prelude.String -> Prelude.String) -> (a b))); onFail{-# 2 #-}::((a b) -> ((a b) -> (a b))); oneOf'{-# 1 #-}::([(Prelude.String,(a b))] -> (a b)); }; }