interface Data.Bool where { infixr 3 Prelude.&&; infixr 2 Prelude.||; {-# NEED #-} instance Prelude.Functor NHC.Internal.IO; {-# NEED #-} instance Prelude.Monad 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.Integral a) => Prelude.Show (Ratio.Ratio a); {-# NEED #-} instance (Prelude.Show a) => Prelude.Show (NHC.Internal.IO a); interface Ratio {-# NEED Ratio #-} data Ratio a; interface NHC.Internal {-# NEED IO #-} newtype {-# #-} IO a; {-# NEED World #-} data World; interface ! Prelude {-# NEED (&&) #-} (&&){-# 2 #-}::(Prelude.Bool -> (Prelude.Bool -> Prelude.Bool)); {-# NEED otherwise #-} otherwise{-# 0 #-}::Prelude.Bool; {-# NEED (||) #-} (||){-# 2 #-}::(Prelude.Bool -> (Prelude.Bool -> Prelude.Bool)); {-# NEED not #-} not{-# 1 #-}::(Prelude.Bool -> Prelude.Bool); {-# NEED {Bool False True} #-} data Bool = False | True ; }