interface Data.Set where {
infixl 9 \\;
{-# NEED #-}
instance Control.Monad.Fix.MonadFix NHC.Internal.IO;
{-# NEED #-}
instance Control.Applicative.Applicative NHC.Internal.IO;
{-# NEED #-}
instance Data.Bits.Bits NHC.FFI.Int64;
{-# NEED #-}
instance Data.Bits.Bits NHC.FFI.Int32;
{-# NEED #-}
instance Data.Bits.Bits NHC.FFI.Int16;
{-# NEED #-}
instance Data.Bits.Bits NHC.FFI.Int8;
{-# NEED #-}
instance Data.Bits.Bits NHC.FFI.Word8;
{-# NEED #-}
instance Data.Bits.Bits NHC.FFI.Word16;
{-# NEED #-}
instance Data.Bits.Bits NHC.FFI.Word32;
{-# NEED #-}
instance Data.Bits.Bits NHC.FFI.Word64;
{-# NEED #-}
instance NHC.FFI.Storable NHC.FFI.CInt;
{-# NEED #-}
instance NHC.FFI.Storable NHC.FFI.Int64;
{-# NEED #-}
instance NHC.FFI.Storable NHC.FFI.Int32;
{-# NEED #-}
instance NHC.FFI.Storable NHC.FFI.Int16;
{-# NEED #-}
instance NHC.FFI.Storable NHC.FFI.Int8;
{-# NEED #-}
instance NHC.FFI.Storable NHC.FFI.Word8;
{-# NEED #-}
instance NHC.FFI.Storable NHC.FFI.Word16;
{-# NEED #-}
instance NHC.FFI.Storable NHC.FFI.Word32;
{-# NEED #-}
instance NHC.FFI.Storable NHC.FFI.Word64;
{-# NEED #-}
instance NHC.FFI.Storable (NHC.FFI.StablePtr a);
{-# NEED #-}
instance NHC.FFI.Storable (NHC.FFI.FunPtr a);
{-# NEED #-}
instance NHC.FFI.Storable (NHC.FFI.Ptr a);
{-# NEED #-}
instance Prelude.Monad NHC.Internal.IO;
{-# NEED #-}
instance Data.Typeable.Typeable2 Prelude.Either;
{-# NEED #-}
instance Data.Typeable.Typeable2 Array.Array;
{-# NEED #-}
instance Data.Typeable.Typeable2 ( (->) a);
{-# NEED #-}
instance Prelude.Functor NHC.Internal.IO;
{-# NEED #-}
instance (Ix.Ix a) => Prelude.Functor (Array.Array a);
{-# NEED #-}
instance Ix.Ix IO.SeekMode;
{-# NEED #-}
instance Ix.Ix IO.IOMode;
{-# NEED #-}
instance Ix.Ix Data.Char.GeneralCategory;
{-# NEED #-}
instance Ix.Ix NHC.FFI.Int64;
{-# NEED #-}
instance Ix.Ix NHC.FFI.Int32;
{-# NEED #-}
instance Ix.Ix NHC.FFI.Int16;
{-# NEED #-}
instance Ix.Ix NHC.FFI.Int8;
{-# NEED #-}
instance Ix.Ix NHC.FFI.Word8;
{-# NEED #-}
instance Ix.Ix NHC.FFI.Word16;
{-# NEED #-}
instance Ix.Ix NHC.FFI.Word32;
{-# NEED #-}
instance Ix.Ix NHC.FFI.Word64;
{-# NEED #-}
instance Ix.Ix Prelude.Int;
{-# NEED #-}
instance Ix.Ix Prelude.Bool;
{-# NEED #-}
instance Ix.Ix Prelude.Char;
{-# NEED #-}
instance Ix.Ix Prelude.Integer;
{-# NEED #-}
instance (Ix.Ix a,Ix.Ix b) => Ix.Ix (a,b);
{-# NEED #-}
instance Ix.Ix Prelude.Ordering;
{-# NEED #-}
instance (Ix.Ix a,Ix.Ix b,Ix.Ix c,Ix.Ix d,Ix.Ix e) => Ix.Ix (a,b,c,d,e);
{-# NEED #-}
instance (Ix.Ix a,Ix.Ix b,Ix.Ix c,Ix.Ix d) => Ix.Ix (a,b,c,d);
{-# NEED #-}
instance (Ix.Ix a,Ix.Ix b,Ix.Ix c) => Ix.Ix (a,b,c);
{-# NEED #-}
instance Data.Foldable.Foldable Set;
{-# NEED #-}
instance (Ix.Ix a) => Data.Foldable.Foldable (Array.Array a);
{-# NEED #-}
instance Data.Foldable.Foldable Prelude.Maybe;
{-# NEED #-}
instance Data.Foldable.Foldable Prelude.[];
{-# NEED #-}
instance Prelude.Bounded IO.SeekMode;
{-# NEED #-}
instance Prelude.Bounded IO.IOMode;
{-# NEED #-}
instance Prelude.Bounded Data.Char.GeneralCategory;
{-# NEED #-}
instance Prelude.Bounded NHC.FFI.CInt;
{-# NEED #-}
instance Prelude.Bounded NHC.FFI.Int64;
{-# NEED #-}
instance Prelude.Bounded NHC.FFI.Int32;
{-# NEED #-}
instance Prelude.Bounded NHC.FFI.Int16;
{-# NEED #-}
instance Prelude.Bounded NHC.FFI.Int8;
{-# NEED #-}
instance Prelude.Bounded NHC.FFI.Word8;
{-# NEED #-}
instance Prelude.Bounded NHC.FFI.Word16;
{-# NEED #-}
instance Prelude.Bounded NHC.FFI.Word32;
{-# NEED #-}
instance Prelude.Bounded NHC.FFI.Word64;
{-# NEED #-}
instance (Prelude.Bounded a) => Prelude.Bounded (Data.Monoid.Product a);
{-# NEED #-}
instance (Prelude.Bounded a) => Prelude.Bounded (Data.Monoid.Sum a);
{-# NEED #-}
instance Prelude.Bounded Data.Monoid.Any;
{-# NEED #-}
instance Prelude.Bounded Data.Monoid.All;
{-# NEED #-}
instance (Prelude.Bounded a) => Prelude.Bounded (Data.Monoid.Dual a);
{-# NEED #-}
instance (Prelude.Integral a) => Prelude.Fractional (Ratio.Ratio a);
{-# NEED #-}
instance (Prelude.Integral a) => Prelude.RealFrac (Ratio.Ratio a);
{-# NEED #-}
instance Prelude.Real NHC.FFI.CInt;
{-# NEED #-}
instance Prelude.Real NHC.FFI.Int64;
{-# NEED #-}
instance Prelude.Real NHC.FFI.Int32;
{-# NEED #-}
instance Prelude.Real NHC.FFI.Int16;
{-# NEED #-}
instance Prelude.Real NHC.FFI.Int8;
{-# NEED #-}
instance Prelude.Real NHC.FFI.Word8;
{-# NEED #-}
instance Prelude.Real NHC.FFI.Word16;
{-# NEED #-}
instance Prelude.Real NHC.FFI.Word32;
{-# NEED #-}
instance Prelude.Real NHC.FFI.Word64;
{-# NEED #-}
instance (Prelude.Integral a) => Prelude.Real (Ratio.Ratio a);
{-# NEED #-}
instance Prelude.Enum DErrNo.ErrNo;
{-# NEED #-}
instance Prelude.Enum IO.SeekMode;
{-# NEED #-}
instance Prelude.Enum IO.IOMode;
{-# NEED #-}
instance Prelude.Enum Data.Char.GeneralCategory;
{-# NEED #-}
instance Prelude.Enum NHC.FFI.CInt;
{-# NEED #-}
instance Prelude.Enum NHC.FFI.Int64;
{-# NEED #-}
instance Prelude.Enum NHC.FFI.Int32;
{-# NEED #-}
instance Prelude.Enum NHC.FFI.Int16;
{-# NEED #-}
instance Prelude.Enum NHC.FFI.Int8;
{-# NEED #-}
instance Prelude.Enum NHC.FFI.Word8;
{-# NEED #-}
instance Prelude.Enum NHC.FFI.Word16;
{-# NEED #-}
instance Prelude.Enum NHC.FFI.Word32;
{-# NEED #-}
instance Prelude.Enum NHC.FFI.Word64;
{-# NEED #-}
instance Prelude.Enum (NHC.FFI.Ptr a);
{-# NEED #-}
instance (Prelude.Integral a) => Prelude.Enum (Ratio.Ratio a);
{-# NEED #-}
instance (Prelude.Ord a) => Prelude.Ord (Set a);
{-# NEED #-}
instance Prelude.Ord IO.BufferMode;
{-# NEED #-}
instance Prelude.Ord IO.SeekMode;
{-# NEED #-}
instance Prelude.Ord IO.IOMode;
{-# NEED #-}
instance Prelude.Ord Data.Char.GeneralCategory;
{-# NEED #-}
instance Prelude.Ord NHC.FFI.CInt;
{-# NEED #-}
instance Prelude.Ord NHC.FFI.Int64;
{-# NEED #-}
instance Prelude.Ord NHC.FFI.Int32;
{-# NEED #-}
instance Prelude.Ord NHC.FFI.Int16;
{-# NEED #-}
instance Prelude.Ord NHC.FFI.Int8;
{-# NEED #-}
instance Prelude.Ord NHC.FFI.Word8;
{-# NEED #-}
instance Prelude.Ord NHC.FFI.Word16;
{-# NEED #-}
instance Prelude.Ord NHC.FFI.Word32;
{-# NEED #-}
instance Prelude.Ord NHC.FFI.Word64;
{-# NEED #-}
instance Prelude.Ord (NHC.FFI.FunPtr a);
{-# NEED #-}
instance Prelude.Ord (NHC.FFI.ForeignPtr a);
{-# NEED #-}
instance Prelude.Ord (NHC.FFI.Ptr a);
{-# NEED #-}
instance (Ix.Ix a,Prelude.Ord b) => Prelude.Ord (Array.Array a b);
{-# NEED #-}
instance (Prelude.Integral a) => Prelude.Ord (Ratio.Ratio a);
{-# NEED #-}
instance (Prelude.Ord a) => Prelude.Ord (Data.Monoid.Product a);
{-# NEED #-}
instance (Prelude.Ord a) => Prelude.Ord (Data.Monoid.Sum a);
{-# NEED #-}
instance Prelude.Ord Data.Monoid.Any;
{-# NEED #-}
instance Prelude.Ord Data.Monoid.All;
{-# NEED #-}
instance (Prelude.Ord a) => Prelude.Ord (Data.Monoid.Dual a);
{-# NEED #-}
instance (Prelude.Eq a) => Prelude.Eq (Set a);
{-# NEED #-}
instance Prelude.Eq IO.HandlePosn;
{-# NEED #-}
instance Prelude.Eq Data.HashTable.Inserts;
{-# NEED #-}
instance Prelude.Eq Data.HashTable.HashData;
{-# NEED #-}
instance Prelude.Eq Data.Typeable.Key;
{-# NEED #-}
instance Prelude.Eq Data.Typeable.KeyPr;
{-# NEED #-}
instance Prelude.Eq DErrNo.ErrNo;
{-# NEED #-}
instance Prelude.Eq IO.BufferMode;
{-# NEED #-}
instance Prelude.Eq IO.SeekMode;
{-# NEED #-}
instance Prelude.Eq IO.IOMode;
{-# NEED #-}
instance Prelude.Eq Data.Char.GeneralCategory;
{-# NEED #-}
instance Prelude.Eq NHC.FFI.CInt;
{-# NEED #-}
instance Prelude.Eq IO.Handle;
{-# NEED #-}
instance Prelude.Eq NHC.FFI.Int64;
{-# NEED #-}
instance Prelude.Eq NHC.FFI.Int32;
{-# NEED #-}
instance Prelude.Eq NHC.FFI.Int16;
{-# NEED #-}
instance Prelude.Eq NHC.FFI.Int8;
{-# NEED #-}
instance Prelude.Eq NHC.FFI.Word8;
{-# NEED #-}
instance Prelude.Eq NHC.FFI.Word16;
{-# NEED #-}
instance Prelude.Eq NHC.FFI.Word32;
{-# NEED #-}
instance Prelude.Eq NHC.FFI.Word64;
{-# NEED #-}
instance Prelude.Eq Data.Typeable.TypeRep;
{-# NEED #-}
instance Prelude.Eq Data.Typeable.TyCon;
{-# NEED #-}
instance Prelude.Eq (NHC.FFI.FunPtr a);
{-# NEED #-}
instance Prelude.Eq (NHC.FFI.ForeignPtr a);
{-# NEED #-}
instance Prelude.Eq (NHC.FFI.Ptr a);
{-# NEED #-}
instance (Ix.Ix a,Prelude.Eq b) => Prelude.Eq (Array.Array a b);
{-# NEED #-}
instance (Prelude.Integral a) => Prelude.Eq (Ratio.Ratio a);
{-# NEED #-}
instance (Prelude.Eq a) => Prelude.Eq (Data.Monoid.Product a);
{-# NEED #-}
instance (Prelude.Eq a) => Prelude.Eq (Data.Monoid.Sum a);
{-# NEED #-}
instance Prelude.Eq Data.Monoid.Any;
{-# NEED #-}
instance Prelude.Eq Data.Monoid.All;
{-# NEED #-}
instance (Prelude.Eq a) => Prelude.Eq (Data.Monoid.Dual a);
{-# NEED #-}
instance (Prelude.Show a) => Prelude.Show (Set a);
{-# NEED #-}
instance Prelude.Show IO.HandlePosn;
{-# NEED #-}
instance Prelude.Show Data.HashTable.HashData;
{-# NEED #-}
instance Prelude.Show DErrNo.ErrNo;
{-# NEED #-}
instance Prelude.Show IO.BufferMode;
{-# NEED #-}
instance Prelude.Show IO.SeekMode;
{-# NEED #-}
instance Prelude.Show IO.IOMode;
{-# NEED #-}
instance Prelude.Show Data.Char.GeneralCategory;
{-# NEED #-}
instance Prelude.Show NHC.FFI.CInt;
{-# NEED #-}
instance Prelude.Show IO.Handle;
{-# NEED #-}
instance Prelude.Show NHC.FFI.Int64;
{-# NEED #-}
instance Prelude.Show NHC.FFI.Int32;
{-# NEED #-}
instance Prelude.Show NHC.FFI.Int16;
{-# NEED #-}
instance Prelude.Show NHC.FFI.Int8;
{-# NEED #-}
instance Prelude.Show NHC.FFI.Word8;
{-# NEED #-}
instance Prelude.Show NHC.FFI.Word16;
{-# NEED #-}
instance Prelude.Show NHC.FFI.Word32;
{-# NEED #-}
instance Prelude.Show NHC.FFI.Word64;
{-# NEED #-}
instance Prelude.Show Data.Typeable.TypeRep;
{-# NEED #-}
instance Prelude.Show Data.Typeable.TyCon;
{-# NEED #-}
instance Prelude.Show (NHC.FFI.FunPtr a);
{-# NEED #-}
instance Prelude.Show (NHC.FFI.ForeignPtr a);
{-# NEED #-}
instance Prelude.Show (NHC.FFI.Ptr a);
{-# NEED #-}
instance (Prelude.Show a) => Prelude.Show (NHC.Internal.IO a);
{-# NEED #-}
instance (Ix.Ix a,Prelude.Show a,Prelude.Show b) => Prelude.Show (Array.Array a b);
{-# NEED #-}
instance (Prelude.Integral a) => Prelude.Show (Ratio.Ratio a);
{-# NEED #-}
instance (Prelude.Show a) => Prelude.Show (Data.Monoid.Product a);
{-# NEED #-}
instance (Prelude.Show a) => Prelude.Show (Data.Monoid.Sum a);
{-# NEED #-}
instance Prelude.Show Data.Monoid.Any;
{-# NEED #-}
instance Prelude.Show Data.Monoid.All;
{-# NEED #-}
instance (Prelude.Show a) => Prelude.Show (Data.Monoid.Dual a);
{-# NEED #-}
instance (Prelude.Read a,Prelude.Ord a) => Prelude.Read (Set a);
{-# NEED #-}
instance Prelude.Read IO.BufferMode;
{-# NEED #-}
instance Prelude.Read IO.SeekMode;
{-# NEED #-}
instance Prelude.Read IO.IOMode;
{-# NEED #-}
instance Prelude.Read Data.Char.GeneralCategory;
{-# NEED #-}
instance Prelude.Read NHC.FFI.CInt;
{-# NEED #-}
instance Prelude.Read NHC.FFI.Int64;
{-# NEED #-}
instance Prelude.Read NHC.FFI.Int32;
{-# NEED #-}
instance Prelude.Read NHC.FFI.Int16;
{-# NEED #-}
instance Prelude.Read NHC.FFI.Int8;
{-# NEED #-}
instance Prelude.Read NHC.FFI.Word8;
{-# NEED #-}
instance Prelude.Read NHC.FFI.Word16;
{-# NEED #-}
instance Prelude.Read NHC.FFI.Word32;
{-# NEED #-}
instance Prelude.Read NHC.FFI.Word64;
{-# NEED #-}
instance (Ix.Ix a,Prelude.Read a,Prelude.Read b) => Prelude.Read (Array.Array a b);
{-# NEED #-}
instance (Prelude.Read a,Prelude.Integral a) => Prelude.Read (Ratio.Ratio a);
{-# NEED #-}
instance (Prelude.Read a) => Prelude.Read (Data.Monoid.Product a);
{-# NEED #-}
instance (Prelude.Read a) => Prelude.Read (Data.Monoid.Sum a);
{-# NEED #-}
instance Prelude.Read Data.Monoid.Any;
{-# NEED #-}
instance Prelude.Read Data.Monoid.All;
{-# NEED #-}
instance (Prelude.Read a) => Prelude.Read (Data.Monoid.Dual a);
{-# NEED #-}
instance Data.Typeable.Typeable1 Set;
{-# NEED #-}
instance Data.Typeable.Typeable1 NHC.FFI.StablePtr;
{-# NEED #-}
instance Data.Typeable.Typeable1 NHC.FFI.FunPtr;
{-# NEED #-}
instance Data.Typeable.Typeable1 NHC.FFI.ForeignPtr;
{-# NEED #-}
instance Data.Typeable.Typeable1 NHC.FFI.Ptr;
{-# NEED #-}
instance Data.Typeable.Typeable1 NHC.Internal.IO;
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable1 (Prelude.Either a);
{-# NEED #-}
instance Data.Typeable.Typeable1 NHC.IOExtras.IORef;
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable1 (Array.Array a);
{-# NEED #-}
instance Data.Typeable.Typeable1 Ratio.Ratio;
{-# NEED #-}
instance Data.Typeable.Typeable1 Prelude.Maybe;
{-# NEED #-}
instance Data.Typeable.Typeable1 Prelude.[];
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable1 ( (->) a);
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (Set a);
{-# NEED #-}
instance Data.Typeable.Typeable IO.Handle;
{-# NEED #-}
instance Data.Typeable.Typeable NHC.FFI.Int64;
{-# NEED #-}
instance Data.Typeable.Typeable NHC.FFI.Int32;
{-# NEED #-}
instance Data.Typeable.Typeable NHC.FFI.Int16;
{-# NEED #-}
instance Data.Typeable.Typeable NHC.FFI.Int8;
{-# NEED #-}
instance Data.Typeable.Typeable NHC.FFI.Word8;
{-# NEED #-}
instance Data.Typeable.Typeable NHC.FFI.Word16;
{-# NEED #-}
instance Data.Typeable.Typeable NHC.FFI.Word32;
{-# NEED #-}
instance Data.Typeable.Typeable NHC.FFI.Word64;
{-# NEED #-}
instance Data.Typeable.Typeable Prelude.Int;
{-# NEED #-}
instance Data.Typeable.Typeable Prelude.Bool;
{-# NEED #-}
instance Data.Typeable.Typeable Prelude.Double;
{-# NEED #-}
instance Data.Typeable.Typeable Prelude.Float;
{-# NEED #-}
instance Data.Typeable.Typeable Prelude.Char;
{-# NEED #-}
instance Data.Typeable.Typeable Prelude.Integer;
{-# NEED #-}
instance Data.Typeable.Typeable Data.Typeable.TypeRep;
{-# NEED #-}
instance Data.Typeable.Typeable Data.Typeable.TyCon;
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (NHC.FFI.StablePtr a);
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (NHC.FFI.FunPtr a);
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (NHC.FFI.ForeignPtr a);
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (NHC.FFI.Ptr a);
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (NHC.Internal.IO a);
{-# NEED #-}
instance (Data.Typeable.Typeable a,Data.Typeable.Typeable b) => Data.Typeable.Typeable (Prelude.Either a b);
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (NHC.IOExtras.IORef a);
{-# NEED #-}
instance (Data.Typeable.Typeable a,Data.Typeable.Typeable b) => Data.Typeable.Typeable (Array.Array a b);
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (Ratio.Ratio a);
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (Prelude.Maybe a);
{-# NEED #-}
instance Data.Typeable.Typeable ();
{-# NEED #-}
instance Data.Typeable.Typeable Prelude.Ordering;
{-# NEED #-}
instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable [a];
{-# NEED #-}
instance (Data.Typeable.Typeable a,Data.Typeable.Typeable b) => Data.Typeable.Typeable (a -> b);
{-# NEED #-}
instance Prelude.Integral NHC.FFI.CInt;
{-# NEED #-}
instance Prelude.Integral NHC.FFI.Int64;
{-# NEED #-}
instance Prelude.Integral NHC.FFI.Int32;
{-# NEED #-}
instance Prelude.Integral NHC.FFI.Int16;
{-# NEED #-}
instance Prelude.Integral NHC.FFI.Int8;
{-# NEED #-}
instance Prelude.Integral NHC.FFI.Word8;
{-# NEED #-}
instance Prelude.Integral NHC.FFI.Word16;
{-# NEED #-}
instance Prelude.Integral NHC.FFI.Word32;
{-# NEED #-}
instance Prelude.Integral NHC.FFI.Word64;
{-# NEED #-}
instance Prelude.Num NHC.FFI.CInt;
{-# NEED #-}
instance Prelude.Num NHC.FFI.Int64;
{-# NEED #-}
instance Prelude.Num NHC.FFI.Int32;
{-# NEED #-}
instance Prelude.Num NHC.FFI.Int16;
{-# NEED #-}
instance Prelude.Num NHC.FFI.Int8;
{-# NEED #-}
instance Prelude.Num NHC.FFI.Word8;
{-# NEED #-}
instance Prelude.Num NHC.FFI.Word16;
{-# NEED #-}
instance Prelude.Num NHC.FFI.Word32;
{-# NEED #-}
instance Prelude.Num NHC.FFI.Word64;
{-# NEED #-}
instance (Prelude.Integral a) => Prelude.Num (Ratio.Ratio a);
{-# NEED #-}
instance (Prelude.Ord a) => Data.Monoid.Monoid (Set a);
{-# NEED #-}
instance (Prelude.Num a) => Data.Monoid.Monoid (Data.Monoid.Product a);
{-# NEED #-}
instance (Prelude.Num a) => Data.Monoid.Monoid (Data.Monoid.Sum a);
{-# NEED #-}
instance Data.Monoid.Monoid Data.Monoid.Any;
{-# NEED #-}
instance Data.Monoid.Monoid Data.Monoid.All;
{-# NEED #-}
instance Data.Monoid.Monoid (Data.Monoid.Endo a);
{-# NEED #-}
instance (Data.Monoid.Monoid a) => Data.Monoid.Monoid (Data.Monoid.Dual a);
{-# NEED #-}
instance (Data.Monoid.Monoid a) => Data.Monoid.Monoid (Prelude.Maybe a);
{-# NEED #-}
instance (Data.Monoid.Monoid a,Data.Monoid.Monoid b) => Data.Monoid.Monoid (a,b);
{-# NEED #-}
instance Data.Monoid.Monoid ();
{-# NEED #-}
instance Data.Monoid.Monoid Prelude.Ordering;
{-# NEED #-}
instance (Data.Monoid.Monoid a,Data.Monoid.Monoid b,Data.Monoid.Monoid c,Data.Monoid.Monoid d,Data.Monoid.Monoid e) => Data.Monoid.Monoid (a,b,c,d,e);
{-# NEED #-}
instance (Data.Monoid.Monoid a,Data.Monoid.Monoid b,Data.Monoid.Monoid c,Data.Monoid.Monoid d) => Data.Monoid.Monoid (a,b,c,d);
{-# NEED #-}
instance (Data.Monoid.Monoid a,Data.Monoid.Monoid b,Data.Monoid.Monoid c) => Data.Monoid.Monoid (a,b,c);
{-# NEED #-}
instance Data.Monoid.Monoid [a];
{-# NEED #-}
instance (Data.Monoid.Monoid b) => Data.Monoid.Monoid (a -> b);
interface Data.HashTable
{-# NEED Inserts #-}
data Inserts;
interface Data.Typeable
{-# NEED Key #-}
newtype {-# #-} Key;
{-# NEED KeyPr #-}
data KeyPr;
interface IO
{-# NEED HandlePosn #-}
data HandlePosn;
interface Data.HashTable
{-# NEED HashData #-}
data HashData;
interface DErrNo
{-# NEED ErrNo #-}
data ErrNo;
interface IO
{-# NEED BufferMode #-}
data BufferMode;
{-# NEED SeekMode #-}
data SeekMode;
{-# NEED IOMode #-}
data IOMode;
interface Data.Char
{-# NEED GeneralCategory #-}
data GeneralCategory;
interface IO
{-# NEED Handle #-}
newtype {-# #-} Handle;
interface Data.Typeable
{-# NEED TypeRep #-}
data TypeRep;
{-# NEED TyCon #-}
data TyCon;
interface NHC.FFI
{-# NEED StablePtr #-}
data StablePtr a;
{-# NEED FunPtr #-}
data FunPtr a;
{-# NEED ForeignPtr #-}
data ForeignPtr a;
{-# NEED Ptr #-}
data Ptr a;
interface NHC.Internal
{-# NEED IO #-}
newtype {-# #-} IO a;
{-# NEED World #-}
data World;
interface NHC.IOExtras
{-# NEED IORef #-}
newtype {-# #-} IORef a;
interface Array
{-# NEED Array #-}
data (Ix.Ix a) => Array a b;
interface Ix
{-# NEED Ix #-}
class (Prelude.Ord a) => Ix a;
interface Data.Typeable
{-# NEED Typeable #-}
class Typeable a;
interface NHC.FFI
{-# NEED CInt #-}
newtype {-# #-} CInt;
{-# NEED Int64 #-}
data Int64;
{-# NEED Int32 #-}
data Int32;
{-# NEED Int16 #-}
data Int16;
{-# NEED Int8 #-}
data Int8;
{-# NEED Word8 #-}
data Word8;
{-# NEED Word16 #-}
data Word16;
{-# NEED Word32 #-}
data Word32;
{-# NEED Word64 #-}
data Word64;
interface Ratio
{-# NEED Ratio #-}
data Ratio a;
interface Data.Monoid
{-# NEED Product #-}
newtype {-# #-} Product a;
{-# NEED Sum #-}
newtype {-# #-} Sum a;
{-# NEED Any #-}
newtype {-# #-} Any;
{-# NEED All #-}
newtype {-# #-} All;
{-# NEED Endo #-}
newtype {-# #-} Endo a;
{-# NEED Dual #-}
newtype {-# #-} Dual a;
{-# NEED Monoid #-}
class Monoid a;
interface ! Data.Set
{-# NEED valid #-}
valid{-# 1 #-}::(Prelude.Ord a) => ((Set a) -> Prelude.Bool);
{-# NEED showTreeWith #-}
showTreeWith{-# 3 #-}::(Prelude.Show a) => (Prelude.Bool -> (Prelude.Bool -> ((Set a) -> Prelude.String)));
{-# NEED showTree #-}
showTree{-# 1 #-}::(Prelude.Show a) => ((Set a) -> Prelude.String);
{-# NEED maxView #-}
maxView{-# 1 #-}::(Prelude.Monad b) => ((Set a) -> (b (a,(Set a))));
{-# NEED minView #-}
minView{-# 1 #-}::(Prelude.Monad b) => ((Set a) -> (b (a,(Set a))));
{-# NEED deleteFindMax #-}
deleteFindMax{-# 1 #-}::((Set a) -> (a,(Set a)));
{-# NEED deleteFindMin #-}
deleteFindMin{-# 1 #-}::((Set a) -> (a,(Set a)));
{-# NEED splitMember #-}
splitMember{-# 2 #-}::(Prelude.Ord a) => (a -> ((Set a) -> ((Set a),Prelude.Bool,(Set a))));
{-# NEED split #-}
split{-# 2 #-}::(Prelude.Ord a) => (a -> ((Set a) -> ((Set a),(Set a))));
{-# NEED fromDistinctAscList #-}
fromDistinctAscList{-# 1 #-}::([a] -> (Set a));
{-# NEED fromAscList #-}
fromAscList{-# 1 #-}::(Prelude.Eq a) => ([a] -> (Set a));
{-# NEED fromList #-}
fromList{-# 1 #-}::(Prelude.Ord a) => ([a] -> (Set a));
{-# NEED toAscList #-}
toAscList{-# 1 #-}::((Set a) -> [a]);
{-# NEED toList #-}
toList{-# 1 #-}::((Set a) -> [a]);
{-# NEED elems #-}
elems{-# 1 #-}::((Set a) -> [a]);
{-# NEED fold #-}
fold{-# 3 #-}::((a -> (b -> b)) -> (b -> ((Set a) -> b)));
{-# NEED mapMonotonic #-}
mapMonotonic{-# 2 #-}::((a -> b) -> ((Set a) -> (Set b)));
{-# NEED map #-}
map{-# 1 #-}::(Prelude.Ord a,Prelude.Ord b) => ((a -> b) -> ((Set a) -> (Set b)));
{-# NEED partition #-}
partition{-# 2 #-}::(Prelude.Ord a) => ((a -> Prelude.Bool) -> ((Set a) -> ((Set a),(Set a))));
{-# NEED filter #-}
filter{-# 2 #-}::(Prelude.Ord a) => ((a -> Prelude.Bool) -> ((Set a) -> (Set a)));
{-# NEED intersection #-}
intersection{-# 2 #-}::(Prelude.Ord a) => ((Set a) -> ((Set a) -> (Set a)));
{-# NEED difference #-}
difference{-# 2 #-}::(Prelude.Ord a) => ((Set a) -> ((Set a) -> (Set a)));
{-# NEED union #-}
union{-# 2 #-}::(Prelude.Ord a) => ((Set a) -> ((Set a) -> (Set a)));
{-# NEED unions #-}
unions{-# 1 #-}::(Prelude.Ord a) => ([(Set a)] -> (Set a));
{-# NEED deleteMax #-}
deleteMax{-# 1 #-}::((Set a) -> (Set a));
{-# NEED deleteMin #-}
deleteMin{-# 1 #-}::((Set a) -> (Set a));
{-# NEED findMax #-}
findMax{-# 1 #-}::((Set a) -> a);
{-# NEED findMin #-}
findMin{-# 1 #-}::((Set a) -> a);
{-# NEED isSubsetOf #-}
isSubsetOf{-# 2 #-}::(Prelude.Ord a) => ((Set a) -> ((Set a) -> Prelude.Bool));
{-# NEED isProperSubsetOf #-}
isProperSubsetOf{-# 2 #-}::(Prelude.Ord a) => ((Set a) -> ((Set a) -> Prelude.Bool));
{-# NEED delete #-}
delete{-# 2 #-}::(Prelude.Ord a) => (a -> ((Set a) -> (Set a)));
{-# NEED insert #-}
insert{-# 2 #-}::(Prelude.Ord a) => (a -> ((Set a) -> (Set a)));
{-# NEED singleton #-}
singleton{-# 1 #-}::(a -> (Set a));
{-# NEED empty #-}
empty{-# 0 #-}::(Set a);
{-# NEED notMember #-}
notMember{-# 2 #-}::(Prelude.Ord a) => (a -> ((Set a) -> Prelude.Bool));
{-# NEED member #-}
member{-# 2 #-}::(Prelude.Ord a) => (a -> ((Set a) -> Prelude.Bool));
{-# NEED size #-}
size{-# 1 #-}::((Set a) -> Prelude.Int);
{-# NEED null #-}
null{-# 1 #-}::((Set a) -> Prelude.Bool);
{-# NEED (\\) #-}
(\\){-# 2 #-}::(Prelude.Ord a) => ((Set a) -> ((Set a) -> (Set a)));
{-# NEED Set #-}
data Set a;
}
|