interface Data.IntMap where { infixl 9 \\; {-# NEED #-} instance (Control.Monad.Fix.MonadFix a) => Control.Arrow.ArrowLoop (Control.Arrow.Kleisli a); {-# NEED #-} instance (Prelude.Monad a) => Control.Arrow.ArrowChoice (Control.Arrow.Kleisli a); {-# NEED #-} instance NHC.FFI.Storable NHC.FFI.CInt; {-# 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 NHC.FFI.Storable NHC.FFI.Word64; {-# NEED #-} instance NHC.FFI.Storable NHC.FFI.Word32; {-# NEED #-} instance NHC.FFI.Storable NHC.FFI.Word16; {-# NEED #-} instance NHC.FFI.Storable NHC.FFI.Word8; {-# NEED #-} instance NHC.FFI.Storable NHC.FFI.Int8; {-# NEED #-} instance NHC.FFI.Storable NHC.FFI.Int16; {-# NEED #-} instance NHC.FFI.Storable NHC.FFI.Int32; {-# NEED #-} instance NHC.FFI.Storable NHC.FFI.Int64; {-# NEED #-} instance Control.Monad.Fix.MonadFix Prelude.Maybe; {-# NEED #-} instance Control.Monad.Fix.MonadFix Prelude.[]; {-# NEED #-} instance Control.Monad.Fix.MonadFix NHC.Internal.IO; {-# NEED #-} instance Control.Monad.Fix.MonadFix ( (->) a); {-# NEED #-} instance Data.Typeable.Typeable2 Prelude.Either; {-# NEED #-} instance Data.Typeable.Typeable2 Array.Array; {-# NEED #-} instance Data.Typeable.Typeable2 ( (->) a); {-# NEED #-} instance Data.Typeable.Typeable2 (Prelude.Monad a); {-# NEED #-} instance Data.Typeable.Typeable1 IntMap; {-# 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.IOExtras.IORef; {-# NEED #-} instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable1 (Prelude.Either a); {-# NEED #-} instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable1 (Array.Array a); {-# NEED #-} instance Data.Typeable.Typeable1 Prelude.Maybe; {-# NEED #-} instance Data.Typeable.Typeable1 Ratio.Ratio; {-# NEED #-} instance Data.Typeable.Typeable1 Prelude.[]; {-# NEED #-} instance Data.Typeable.Typeable1 NHC.Internal.IO; {-# NEED #-} instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable1 ( (->) a); {-# NEED #-} instance Data.Foldable.Foldable IntMap; {-# 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 (Control.Monad.MonadPlus a) => Control.Arrow.ArrowPlus (Control.Arrow.Kleisli a); {-# NEED #-} instance (Control.Monad.MonadPlus a) => Control.Arrow.ArrowZero (Control.Arrow.Kleisli a); {-# NEED #-} instance (Control.Arrow.ArrowZero a,Control.Arrow.ArrowPlus a) => Control.Applicative.Alternative (Control.Applicative.WrappedArrow a b); {-# NEED #-} instance (Control.Monad.MonadPlus a) => Control.Applicative.Alternative (Control.Applicative.WrappedMonad a); {-# NEED #-} instance Control.Applicative.Alternative Prelude.Maybe; {-# NEED #-} instance Control.Applicative.Alternative Prelude.[]; {-# NEED #-} instance Control.Monad.MonadPlus Prelude.Maybe; {-# NEED #-} instance Control.Monad.MonadPlus Prelude.[]; {-# NEED #-} instance Control.Applicative.Applicative Control.Applicative.ZipList; {-# NEED #-} instance (Control.Arrow.Arrow a) => Control.Applicative.Applicative (Control.Applicative.WrappedArrow a b); {-# NEED #-} instance (Prelude.Monad a) => Control.Applicative.Applicative (Control.Applicative.WrappedMonad a); {-# NEED #-} instance (Data.Monoid.Monoid a) => Control.Applicative.Applicative (Control.Applicative.Const a); {-# NEED #-} instance Control.Applicative.Applicative Prelude.Maybe; {-# NEED #-} instance (Data.Monoid.Monoid a) => Control.Applicative.Applicative ((,) a); {-# NEED #-} instance Control.Applicative.Applicative Prelude.[]; {-# NEED #-} instance Control.Applicative.Applicative NHC.Internal.IO; {-# NEED #-} instance Control.Applicative.Applicative ( (->) a); {-# NEED #-} instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (IntMap a); {-# NEED #-} instance Data.Typeable.Typeable Data.IntSet.IntSet; {-# NEED #-} instance Data.Typeable.Typeable IO.Handle; {-# NEED #-} instance Data.Typeable.Typeable Prelude.Double; {-# NEED #-} instance Data.Typeable.Typeable Prelude.Float; {-# 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.IOExtras.IORef a); {-# NEED #-} instance (Data.Typeable.Typeable a,Data.Typeable.Typeable b) => Data.Typeable.Typeable (Prelude.Either a b); {-# NEED #-} instance Data.Typeable.Typeable Data.Typeable.TypeRep; {-# 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 (Prelude.Maybe a); {-# NEED #-} instance Data.Typeable.Typeable (); {-# NEED #-} instance Data.Typeable.Typeable Prelude.Bool; {-# NEED #-} instance Data.Typeable.Typeable Prelude.Ordering; {-# NEED #-} instance Data.Typeable.Typeable Prelude.Int; {-# NEED #-} instance Data.Typeable.Typeable Prelude.Integer; {-# NEED #-} instance Data.Typeable.Typeable Prelude.Char; {-# NEED #-} instance Data.Typeable.Typeable NHC.FFI.Word64; {-# NEED #-} instance Data.Typeable.Typeable NHC.FFI.Word32; {-# NEED #-} instance Data.Typeable.Typeable NHC.FFI.Word16; {-# NEED #-} instance Data.Typeable.Typeable NHC.FFI.Word8; {-# NEED #-} instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable (Ratio.Ratio a); {-# NEED #-} instance Data.Typeable.Typeable NHC.FFI.Int8; {-# NEED #-} instance Data.Typeable.Typeable NHC.FFI.Int16; {-# NEED #-} instance Data.Typeable.Typeable NHC.FFI.Int32; {-# NEED #-} instance Data.Typeable.Typeable NHC.FFI.Int64; {-# NEED #-} instance (Data.Typeable.Typeable a) => Data.Typeable.Typeable [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 (a -> b); {-# NEED #-} instance (Prelude.Monad a) => Control.Arrow.ArrowApply (Control.Arrow.Kleisli a); {-# NEED #-} instance Control.Arrow.ArrowApply ( (->) a); {-# NEED #-} instance Control.Arrow.ArrowApply (Prelude.Monad a); {-# NEED #-} instance (Prelude.Monad a) => Control.Arrow.Arrow (Control.Arrow.Kleisli a); {-# NEED #-} instance Control.Arrow.Arrow ( (->) a); {-# NEED #-} instance Control.Arrow.Arrow (Prelude.Monad a); {-# NEED #-} instance Data.Bits.Bits Prelude.Int; {-# NEED #-} instance Data.Bits.Bits Prelude.Integer; {-# NEED #-} instance Data.Bits.Bits NHC.FFI.Word64; {-# NEED #-} instance Data.Bits.Bits NHC.FFI.Word32; {-# NEED #-} instance Data.Bits.Bits NHC.FFI.Word16; {-# NEED #-} instance Data.Bits.Bits NHC.FFI.Word8; {-# NEED #-} instance Data.Bits.Bits NHC.FFI.Int8; {-# NEED #-} instance Data.Bits.Bits NHC.FFI.Int16; {-# NEED #-} instance Data.Bits.Bits NHC.FFI.Int32; {-# NEED #-} instance Data.Bits.Bits NHC.FFI.Int64; {-# NEED #-} instance Ix.Ix IO.SeekMode; {-# NEED #-} instance Ix.Ix IO.IOMode; {-# NEED #-} instance Ix.Ix Data.Char.GeneralCategory; {-# NEED #-} instance Ix.Ix Prelude.Bool; {-# 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 f,Ix.Ix g,Ix.Ix h,Ix.Ix i,Ix.Ix j,Ix.Ix k,Ix.Ix l,Ix.Ix m,Ix.Ix n,Ix.Ix o) => Ix.Ix (a,b,c,d,e,f,g,h,i,j,k,l,m,n,o); {-# NEED #-} instance (Ix.Ix a,Ix.Ix b,Ix.Ix c,Ix.Ix d,Ix.Ix e,Ix.Ix f,Ix.Ix g,Ix.Ix h,Ix.Ix i,Ix.Ix j,Ix.Ix k,Ix.Ix l,Ix.Ix m) => Ix.Ix (a,b,c,d,e,f,g,h,i,j,k,l,m); {-# NEED #-} instance (Ix.Ix a,Ix.Ix b,Ix.Ix c,Ix.Ix d,Ix.Ix e,Ix.Ix f,Ix.Ix g,Ix.Ix h,Ix.Ix i,Ix.Ix j,Ix.Ix k,Ix.Ix l) => Ix.Ix (a,b,c,d,e,f,g,h,i,j,k,l); {-# NEED #-} instance (Ix.Ix a,Ix.Ix b,Ix.Ix c,Ix.Ix d,Ix.Ix e,Ix.Ix f,Ix.Ix g,Ix.Ix h,Ix.Ix i,Ix.Ix j,Ix.Ix k) => Ix.Ix (a,b,c,d,e,f,g,h,i,j,k); {-# NEED #-} instance (Ix.Ix a,Ix.Ix b,Ix.Ix c,Ix.Ix d,Ix.Ix e,Ix.Ix f,Ix.Ix g,Ix.Ix h,Ix.Ix i,Ix.Ix j) => Ix.Ix (a,b,c,d,e,f,g,h,i,j); {-# NEED #-} instance (Ix.Ix a,Ix.Ix b,Ix.Ix c,Ix.Ix d,Ix.Ix e,Ix.Ix f,Ix.Ix g,Ix.Ix h,Ix.Ix i) => Ix.Ix (a,b,c,d,e,f,g,h,i); {-# NEED #-} instance (Ix.Ix a,Ix.Ix b,Ix.Ix c,Ix.Ix d,Ix.Ix e,Ix.Ix f,Ix.Ix g,Ix.Ix h) => Ix.Ix (a,b,c,d,e,f,g,h); {-# NEED #-} instance (Ix.Ix a,Ix.Ix b,Ix.Ix c,Ix.Ix d,Ix.Ix e,Ix.Ix f,Ix.Ix g) => Ix.Ix (a,b,c,d,e,f,g); {-# NEED #-} instance (Ix.Ix a,Ix.Ix b,Ix.Ix c,Ix.Ix d,Ix.Ix e,Ix.Ix f) => Ix.Ix (a,b,c,d,e,f); {-# 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 Ix.Ix Prelude.Int; {-# NEED #-} instance Ix.Ix Prelude.Integer; {-# NEED #-} instance Ix.Ix Prelude.Char; {-# NEED #-} instance Ix.Ix NHC.FFI.Word64; {-# NEED #-} instance Ix.Ix NHC.FFI.Word32; {-# NEED #-} instance Ix.Ix NHC.FFI.Word16; {-# NEED #-} instance Ix.Ix NHC.FFI.Word8; {-# NEED #-} instance Ix.Ix NHC.FFI.Int8; {-# NEED #-} instance Ix.Ix NHC.FFI.Int16; {-# NEED #-} instance Ix.Ix NHC.FFI.Int32; {-# NEED #-} instance Ix.Ix NHC.FFI.Int64; {-# 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 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.Bounded NHC.FFI.Word64; {-# NEED #-} instance Prelude.Bounded NHC.FFI.Word32; {-# NEED #-} instance Prelude.Bounded NHC.FFI.Word16; {-# NEED #-} instance Prelude.Bounded NHC.FFI.Word8; {-# NEED #-} instance Prelude.Bounded NHC.FFI.Int8; {-# NEED #-} instance Prelude.Bounded NHC.FFI.Int16; {-# NEED #-} instance Prelude.Bounded NHC.FFI.Int32; {-# NEED #-} instance Prelude.Bounded NHC.FFI.Int64; {-# NEED #-} instance (Prelude.Integral a) => Prelude.Fractional (Ratio.Ratio a); {-# NEED #-} instance (Prelude.Integral a) => Prelude.RealFrac (Ratio.Ratio a); {-# NEED #-} instance Prelude.Num NHC.FFI.CInt; {-# NEED #-} instance Prelude.Num NHC.FFI.Word64; {-# NEED #-} instance Prelude.Num NHC.FFI.Word32; {-# NEED #-} instance Prelude.Num NHC.FFI.Word16; {-# NEED #-} instance Prelude.Num NHC.FFI.Word8; {-# NEED #-} instance (Prelude.Integral a) => Prelude.Num (Ratio.Ratio a); {-# NEED #-} instance Prelude.Num NHC.FFI.Int8; {-# NEED #-} instance Prelude.Num NHC.FFI.Int16; {-# NEED #-} instance Prelude.Num NHC.FFI.Int32; {-# NEED #-} instance Prelude.Num NHC.FFI.Int64; {-# NEED #-} instance Prelude.Real NHC.FFI.CInt; {-# NEED #-} instance Prelude.Real NHC.FFI.Word64; {-# NEED #-} instance Prelude.Real NHC.FFI.Word32; {-# NEED #-} instance Prelude.Real NHC.FFI.Word16; {-# NEED #-} instance Prelude.Real NHC.FFI.Word8; {-# NEED #-} instance (Prelude.Integral a) => Prelude.Real (Ratio.Ratio a); {-# NEED #-} instance Prelude.Real NHC.FFI.Int8; {-# NEED #-} instance Prelude.Real NHC.FFI.Int16; {-# NEED #-} instance Prelude.Real NHC.FFI.Int32; {-# NEED #-} instance Prelude.Real NHC.FFI.Int64; {-# 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.Ptr a); {-# NEED #-} instance Prelude.Enum NHC.FFI.Word64; {-# NEED #-} instance Prelude.Enum NHC.FFI.Word32; {-# NEED #-} instance Prelude.Enum NHC.FFI.Word16; {-# NEED #-} instance Prelude.Enum NHC.FFI.Word8; {-# NEED #-} instance (Prelude.Integral a) => Prelude.Enum (Ratio.Ratio a); {-# NEED #-} instance Prelude.Enum NHC.FFI.Int8; {-# NEED #-} instance Prelude.Enum NHC.FFI.Int16; {-# NEED #-} instance Prelude.Enum NHC.FFI.Int32; {-# NEED #-} instance Prelude.Enum NHC.FFI.Int64; {-# NEED #-} instance (Prelude.Read a) => Prelude.Read (IntMap a); {-# NEED #-} instance Prelude.Read Data.IntSet.IntSet; {-# 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 (Ix.Ix a,Prelude.Read a,Prelude.Read b) => Prelude.Read (Array.Array a b); {-# 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 Prelude.Read NHC.FFI.Word64; {-# NEED #-} instance Prelude.Read NHC.FFI.Word32; {-# NEED #-} instance Prelude.Read NHC.FFI.Word16; {-# NEED #-} instance Prelude.Read NHC.FFI.Word8; {-# NEED #-} instance (Prelude.Read a,Prelude.Integral a) => Prelude.Read (Ratio.Ratio a); {-# NEED #-} instance Prelude.Read NHC.FFI.Int8; {-# NEED #-} instance Prelude.Read NHC.FFI.Int16; {-# NEED #-} instance Prelude.Read NHC.FFI.Int32; {-# NEED #-} instance Prelude.Read NHC.FFI.Int64; {-# NEED #-} instance (Prelude.Ord a) => Prelude.Ord (IntMap a); {-# NEED #-} instance Prelude.Ord Data.IntSet.IntSet; {-# 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.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.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.Ord NHC.FFI.Word64; {-# NEED #-} instance Prelude.Ord NHC.FFI.Word32; {-# NEED #-} instance Prelude.Ord NHC.FFI.Word16; {-# NEED #-} instance Prelude.Ord NHC.FFI.Word8; {-# NEED #-} instance (Prelude.Integral a) => Prelude.Ord (Ratio.Ratio a); {-# NEED #-} instance Prelude.Ord NHC.FFI.Int8; {-# NEED #-} instance Prelude.Ord NHC.FFI.Int16; {-# NEED #-} instance Prelude.Ord NHC.FFI.Int32; {-# NEED #-} instance Prelude.Ord NHC.FFI.Int64; {-# NEED #-} instance (Prelude.Eq a) => Prelude.Eq (IntMap a); {-# NEED #-} instance Prelude.Eq Data.IntSet.IntSet; {-# 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 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 Prelude.Eq Data.Typeable.TypeRep; {-# NEED #-} instance (Ix.Ix a,Prelude.Eq b) => Prelude.Eq (Array.Array a b); {-# 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.Eq NHC.FFI.Word64; {-# NEED #-} instance Prelude.Eq NHC.FFI.Word32; {-# NEED #-} instance Prelude.Eq NHC.FFI.Word16; {-# NEED #-} instance Prelude.Eq NHC.FFI.Word8; {-# NEED #-} instance (Prelude.Integral a) => Prelude.Eq (Ratio.Ratio a); {-# NEED #-} instance Prelude.Eq NHC.FFI.Int8; {-# NEED #-} instance Prelude.Eq NHC.FFI.Int16; {-# NEED #-} instance Prelude.Eq NHC.FFI.Int32; {-# NEED #-} instance Prelude.Eq NHC.FFI.Int64; {-# NEED #-} instance Prelude.Integral NHC.FFI.CInt; {-# NEED #-} instance Prelude.Integral NHC.FFI.Word64; {-# NEED #-} instance Prelude.Integral NHC.FFI.Word32; {-# NEED #-} instance Prelude.Integral NHC.FFI.Word16; {-# NEED #-} instance Prelude.Integral NHC.FFI.Word8; {-# NEED #-} instance Prelude.Integral NHC.FFI.Int8; {-# NEED #-} instance Prelude.Integral NHC.FFI.Int16; {-# NEED #-} instance Prelude.Integral NHC.FFI.Int32; {-# NEED #-} instance Prelude.Integral NHC.FFI.Int64; {-# NEED #-} instance Data.Monoid.Monoid (IntMap a); {-# NEED #-} instance Data.Monoid.Monoid Data.IntSet.IntSet; {-# 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 (); {-# NEED #-} instance (Data.Monoid.Monoid a,Data.Monoid.Monoid b) => Data.Monoid.Monoid (a,b); {-# 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); {-# NEED #-} instance Prelude.Functor IntMap; {-# NEED #-} instance Prelude.Functor Control.Applicative.ZipList; {-# NEED #-} instance (Control.Arrow.Arrow a) => Prelude.Functor (Control.Applicative.WrappedArrow a b); {-# NEED #-} instance (Prelude.Monad a) => Prelude.Functor (Control.Applicative.WrappedMonad a); {-# NEED #-} instance Prelude.Functor (Control.Applicative.Const a); {-# NEED #-} instance (Ix.Ix a) => Prelude.Functor (Array.Array a); {-# NEED #-} instance Prelude.Functor NHC.Internal.IO; {-# NEED #-} instance (Prelude.Show a) => Prelude.Show (IntMap a); {-# NEED #-} instance Prelude.Show Data.IntSet.IntSet; {-# 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 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 Data.Typeable.TypeRep; {-# NEED #-} instance (Ix.Ix a,Prelude.Show a,Prelude.Show b) => Prelude.Show (Array.Array a b); {-# 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.Show NHC.FFI.Word64; {-# NEED #-} instance Prelude.Show NHC.FFI.Word32; {-# NEED #-} instance Prelude.Show NHC.FFI.Word16; {-# NEED #-} instance Prelude.Show NHC.FFI.Word8; {-# NEED #-} instance (Prelude.Integral a) => Prelude.Show (Ratio.Ratio a); {-# NEED #-} instance Prelude.Show NHC.FFI.Int8; {-# NEED #-} instance Prelude.Show NHC.FFI.Int16; {-# NEED #-} instance Prelude.Show NHC.FFI.Int32; {-# NEED #-} instance Prelude.Show NHC.FFI.Int64; {-# NEED #-} instance (Prelude.Show a) => Prelude.Show (NHC.Internal.IO a); {-# NEED #-} instance Prelude.Monad Identity; {-# NEED #-} instance Prelude.Monad Data.IntSet.Identity; {-# NEED #-} instance (Control.Arrow.ArrowApply a) => Prelude.Monad (Control.Arrow.ArrowMonad a); {-# NEED #-} instance Prelude.Monad NHC.Internal.IO; interface Control.Monad.Fix {-# NEED MonadFix #-} class (Prelude.Monad a) => MonadFix a; interface Control.Arrow {-# NEED ArrowPlus #-} class (Control.Arrow.ArrowZero a) => ArrowPlus a; {-# NEED ArrowZero #-} class (Control.Arrow.Arrow a) => ArrowZero a; interface Control.Monad {-# NEED MonadPlus #-} class (Prelude.Monad a) => MonadPlus a; interface NHC.FFI {-# NEED StablePtr #-} data StablePtr a; interface NHC.IOExtras {-# NEED IORef #-} newtype {-# #-} IORef a; interface Data.Typeable {-# NEED Typeable #-} class Typeable a; interface Control.Arrow {-# NEED Kleisli #-} newtype {-# #-} Kleisli a b c; interface Data.HashTable {-# NEED Inserts #-} data Inserts; interface Data.Typeable {-# NEED Key #-} newtype {-# #-} Key; {-# NEED KeyPr #-} data KeyPr; interface Data.Monoid {-# NEED Endo #-} newtype {-# #-} Endo a; {-# NEED Monoid #-} class Monoid a; interface Control.Applicative {-# NEED ZipList #-} newtype {-# #-} ZipList a; {-# NEED WrappedArrow #-} newtype {-# #-} WrappedArrow a b c; {-# NEED WrappedMonad #-} newtype {-# #-} WrappedMonad a b; {-# NEED Const #-} newtype {-# #-} Const a b; 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 NHC.FFI {-# NEED CInt #-} newtype {-# #-} CInt; interface IO {-# NEED Handle #-} newtype {-# #-} Handle; interface Data.Typeable {-# NEED TyCon #-} data TyCon; interface NHC.FFI {-# NEED FunPtr #-} data FunPtr a; {-# NEED ForeignPtr #-} data ForeignPtr a; {-# NEED Ptr #-} data Ptr a; interface Data.Typeable {-# NEED TypeRep #-} data TypeRep; interface Array {-# NEED Array #-} data (Ix.Ix a) => Array a b; interface Ix {-# NEED Ix #-} class (Prelude.Ord a) => Ix a; interface Data.Monoid {-# NEED Product #-} newtype {-# #-} Product a; {-# NEED Sum #-} newtype {-# #-} Sum a; {-# NEED Any #-} newtype {-# #-} Any; {-# NEED All #-} newtype {-# #-} All; {-# NEED Dual #-} newtype {-# #-} Dual a; interface NHC.FFI {-# NEED Word64 #-} data Word64; {-# NEED Word32 #-} data Word32; {-# NEED Word16 #-} data Word16; {-# NEED Word8 #-} data Word8; interface Ratio {-# NEED Ratio #-} data (Prelude.Integral a) => Ratio a; interface NHC.FFI {-# NEED Int8 #-} data Int8; {-# NEED Int16 #-} data Int16; {-# NEED Int32 #-} data Int32; {-# NEED Int64 #-} data Int64; interface Data.IntMap {-# NEED Identity #-} newtype {-# #-} Identity a; interface Data.IntSet {-# NEED Identity #-} newtype {-# #-} Identity a; interface Control.Arrow {-# NEED ArrowMonad #-} newtype {-# #-} (Control.Arrow.ArrowApply a) => ArrowMonad a b; {-# NEED ArrowApply #-} class (Control.Arrow.Arrow a) => ArrowApply a; {-# NEED Arrow #-} class Arrow a; interface NHC.Internal {-# NEED IO #-} newtype {-# #-} IO a; {-# NEED World #-} data World; interface ! Data.IntMap {-# NEED showTreeWith #-} showTreeWith{-# 3 #-}::(Prelude.Show a) => (Prelude.Bool -> (Prelude.Bool -> ((IntMap a) -> Prelude.String))); {-# NEED showTree #-} showTree{-# 1 #-}::(Prelude.Show a) => ((IntMap a) -> Prelude.String); {-# NEED fromDistinctAscList #-} fromDistinctAscList{-# 1 #-}::([(Key,a)] -> (IntMap a)); {-# NEED fromAscListWithKey #-} fromAscListWithKey{-# 2 #-}::((Key -> (a -> (a -> a))) -> ([(Key,a)] -> (IntMap a))); {-# NEED fromAscListWith #-} fromAscListWith{-# 2 #-}::((a -> (a -> a)) -> ([(Key,a)] -> (IntMap a))); {-# NEED fromAscList #-} fromAscList{-# 1 #-}::([(Key,a)] -> (IntMap a)); {-# NEED fromListWithKey #-} fromListWithKey{-# 2 #-}::((Key -> (a -> (a -> a))) -> ([(Key,a)] -> (IntMap a))); {-# NEED fromListWith #-} fromListWith{-# 2 #-}::((a -> (a -> a)) -> ([(Key,a)] -> (IntMap a))); {-# NEED fromList #-} fromList{-# 1 #-}::([(Key,a)] -> (IntMap a)); {-# NEED toAscList #-} toAscList{-# 1 #-}::((IntMap a) -> [(Key,a)]); {-# NEED toList #-} toList{-# 1 #-}::((IntMap a) -> [(Key,a)]); {-# NEED assocs #-} assocs{-# 1 #-}::((IntMap a) -> [(Key,a)]); {-# NEED keysSet #-} keysSet{-# 1 #-}::((IntMap a) -> Data.IntSet.IntSet); interface Data.IntSet {-# NEED IntSet #-} data IntSet; interface ! Data.IntMap {-# NEED keys #-} keys{-# 1 #-}::((IntMap a) -> [Key]); {-# NEED elems #-} elems{-# 1 #-}::((IntMap a) -> [a]); {-# NEED foldWithKey #-} foldWithKey{-# 3 #-}::((Key -> (a -> (b -> b))) -> (b -> ((IntMap a) -> b))); {-# NEED fold #-} fold{-# 3 #-}::((a -> (b -> b)) -> (b -> ((IntMap a) -> b))); {-# NEED splitLookup #-} splitLookup{-# 2 #-}::(Key -> ((IntMap a) -> ((IntMap a),(Prelude.Maybe a),(IntMap a)))); {-# NEED split #-} split{-# 2 #-}::(Key -> ((IntMap a) -> ((IntMap a),(IntMap a)))); {-# NEED mapEitherWithKey #-} mapEitherWithKey{-# 2 #-}::((Key -> (a -> (Prelude.Either b c))) -> ((IntMap a) -> ((IntMap b),(IntMap c)))); {-# NEED mapEither #-} mapEither{-# 2 #-}::((a -> (Prelude.Either b c)) -> ((IntMap a) -> ((IntMap b),(IntMap c)))); {-# NEED mapMaybeWithKey #-} mapMaybeWithKey{-# 2 #-}::((Key -> (a -> (Prelude.Maybe b))) -> ((IntMap a) -> (IntMap b))); {-# NEED mapMaybe #-} mapMaybe{-# 2 #-}::((a -> (Prelude.Maybe b)) -> ((IntMap a) -> (IntMap b))); {-# NEED partitionWithKey #-} partitionWithKey{-# 2 #-}::((Key -> (a -> Prelude.Bool)) -> ((IntMap a) -> ((IntMap a),(IntMap a)))); {-# NEED partition #-} partition{-# 2 #-}::((a -> Prelude.Bool) -> ((IntMap a) -> ((IntMap a),(IntMap a)))); {-# NEED filterWithKey #-} filterWithKey{-# 2 #-}::((Key -> (a -> Prelude.Bool)) -> ((IntMap a) -> (IntMap a))); {-# NEED filter #-} filter{-# 2 #-}::((a -> Prelude.Bool) -> ((IntMap a) -> (IntMap a))); {-# NEED mapAccumWithKey #-} mapAccumWithKey{-# 3 #-}::((a -> (Key -> (b -> (a,c)))) -> (a -> ((IntMap b) -> (a,(IntMap c))))); {-# NEED mapAccum #-} mapAccum{-# 3 #-}::((a -> (b -> (a,c))) -> (a -> ((IntMap b) -> (a,(IntMap c))))); {-# NEED mapWithKey #-} mapWithKey{-# 2 #-}::((Key -> (a -> b)) -> ((IntMap a) -> (IntMap b))); {-# NEED map #-} map{-# 2 #-}::((a -> b) -> ((IntMap a) -> (IntMap b))); {-# NEED isSubmapOfBy #-} isSubmapOfBy{-# 3 #-}::((a -> (b -> Prelude.Bool)) -> ((IntMap a) -> ((IntMap b) -> Prelude.Bool))); {-# NEED isSubmapOf #-} isSubmapOf{-# 2 #-}::(Prelude.Eq a) => ((IntMap a) -> ((IntMap a) -> Prelude.Bool)); {-# NEED isProperSubmapOfBy #-} isProperSubmapOfBy{-# 3 #-}::((a -> (b -> Prelude.Bool)) -> ((IntMap a) -> ((IntMap b) -> Prelude.Bool))); {-# NEED isProperSubmapOf #-} isProperSubmapOf{-# 2 #-}::(Prelude.Eq a) => ((IntMap a) -> ((IntMap a) -> Prelude.Bool)); {-# NEED deleteMax #-} deleteMax{-# 0 #-}::((IntMap a) -> (IntMap a)); {-# NEED deleteMin #-} deleteMin{-# 0 #-}::((IntMap a) -> (IntMap a)); {-# NEED findMax #-} findMax{-# 0 #-}::((IntMap a) -> a); {-# NEED findMin #-} findMin{-# 0 #-}::((IntMap a) -> a); {-# NEED deleteFindMin #-} deleteFindMin{-# 0 #-}::((IntMap a) -> (a,(IntMap a))); {-# NEED deleteFindMax #-} deleteFindMax{-# 0 #-}::((IntMap a) -> (a,(IntMap a))); {-# NEED minView #-} minView{-# 1 #-}::(Prelude.Monad b) => ((IntMap a) -> (b (a,(IntMap a)))); {-# NEED maxView #-} maxView{-# 1 #-}::(Prelude.Monad b) => ((IntMap a) -> (b (a,(IntMap a)))); {-# NEED updateMin #-} updateMin{-# 1 #-}::((a -> a) -> ((IntMap a) -> (IntMap a))); {-# NEED updateMax #-} updateMax{-# 1 #-}::((a -> a) -> ((IntMap a) -> (IntMap a))); {-# NEED minViewWithKey #-} minViewWithKey{-# 1 #-}::(Prelude.Monad b) => ((IntMap a) -> (b ((Key,a),(IntMap a)))); {-# NEED maxViewWithKey #-} maxViewWithKey{-# 1 #-}::(Prelude.Monad b) => ((IntMap a) -> (b ((Key,a),(IntMap a)))); {-# NEED updateMaxWithKey #-} updateMaxWithKey{-# 2 #-}::((Key -> (a -> a)) -> ((IntMap a) -> (IntMap a))); {-# NEED updateMinWithKey #-} updateMinWithKey{-# 2 #-}::((Key -> (a -> a)) -> ((IntMap a) -> (IntMap a))); {-# NEED intersectionWithKey #-} intersectionWithKey{-# 3 #-}::((Key -> (a -> (b -> a))) -> ((IntMap a) -> ((IntMap b) -> (IntMap a)))); {-# NEED intersectionWith #-} intersectionWith{-# 3 #-}::((a -> (b -> a)) -> ((IntMap a) -> ((IntMap b) -> (IntMap a)))); {-# NEED intersection #-} intersection{-# 2 #-}::((IntMap a) -> ((IntMap b) -> (IntMap a))); {-# NEED differenceWithKey #-} differenceWithKey{-# 3 #-}::((Key -> (a -> (b -> (Prelude.Maybe a)))) -> ((IntMap a) -> ((IntMap b) -> (IntMap a)))); {-# NEED differenceWith #-} differenceWith{-# 3 #-}::((a -> (b -> (Prelude.Maybe a))) -> ((IntMap a) -> ((IntMap b) -> (IntMap a)))); {-# NEED difference #-} difference{-# 2 #-}::((IntMap a) -> ((IntMap b) -> (IntMap a))); {-# NEED unionWithKey #-} unionWithKey{-# 3 #-}::((Key -> (a -> (a -> a))) -> ((IntMap a) -> ((IntMap a) -> (IntMap a)))); {-# NEED unionWith #-} unionWith{-# 3 #-}::((a -> (a -> a)) -> ((IntMap a) -> ((IntMap a) -> (IntMap a)))); {-# NEED union #-} union{-# 2 #-}::((IntMap a) -> ((IntMap a) -> (IntMap a))); {-# NEED unionsWith #-} unionsWith{-# 2 #-}::((a -> (a -> a)) -> ([(IntMap a)] -> (IntMap a))); {-# NEED unions #-} unions{-# 1 #-}::([(IntMap a)] -> (IntMap a)); {-# NEED alter #-} alter{-# 3 #-}::(((Prelude.Maybe a) -> (Prelude.Maybe a)) -> (Key -> ((IntMap a) -> (IntMap a)))); {-# NEED updateLookupWithKey #-} updateLookupWithKey{-# 3 #-}::((Key -> (a -> (Prelude.Maybe a))) -> (Key -> ((IntMap a) -> ((Prelude.Maybe a),(IntMap a))))); {-# NEED updateWithKey #-} updateWithKey{-# 3 #-}::((Key -> (a -> (Prelude.Maybe a))) -> (Key -> ((IntMap a) -> (IntMap a)))); {-# NEED update #-} update{-# 3 #-}::((a -> (Prelude.Maybe a)) -> (Key -> ((IntMap a) -> (IntMap a)))); {-# NEED adjustWithKey #-} adjustWithKey{-# 3 #-}::((Key -> (a -> a)) -> (Key -> ((IntMap a) -> (IntMap a)))); {-# NEED adjust #-} adjust{-# 3 #-}::((a -> a) -> (Key -> ((IntMap a) -> (IntMap a)))); {-# NEED delete #-} delete{-# 2 #-}::(Key -> ((IntMap a) -> (IntMap a))); {-# NEED insertLookupWithKey #-} insertLookupWithKey{-# 4 #-}::((Key -> (a -> (a -> a))) -> (Key -> (a -> ((IntMap a) -> ((Prelude.Maybe a),(IntMap a)))))); {-# NEED insertWithKey #-} insertWithKey{-# 4 #-}::((Key -> (a -> (a -> a))) -> (Key -> (a -> ((IntMap a) -> (IntMap a))))); {-# NEED insertWith #-} insertWith{-# 4 #-}::((a -> (a -> a)) -> (Key -> (a -> ((IntMap a) -> (IntMap a))))); {-# NEED insert #-} insert{-# 3 #-}::(Key -> (a -> ((IntMap a) -> (IntMap a)))); {-# NEED singleton #-} singleton{-# 2 #-}::(Key -> (a -> (IntMap a))); {-# NEED empty #-} empty{-# 0 #-}::(IntMap a); {-# NEED findWithDefault #-} findWithDefault{-# 3 #-}::(a -> (Key -> ((IntMap a) -> a))); {-# NEED lookup #-} lookup{-# 2 #-}::(Prelude.Monad b) => (Key -> ((IntMap a) -> (b a))); {-# NEED notMember #-} notMember{-# 2 #-}::(Key -> ((IntMap a) -> Prelude.Bool)); {-# NEED member #-} member{-# 2 #-}::(Key -> ((IntMap a) -> Prelude.Bool)); {-# NEED size #-} size{-# 1 #-}::((IntMap a) -> Prelude.Int); {-# NEED null #-} null{-# 1 #-}::((IntMap a) -> Prelude.Bool); {-# NEED (\\) #-} (\\){-# 2 #-}::((IntMap a) -> ((IntMap b) -> (IntMap a))); {-# NEED (!) #-} (!){-# 2 #-}::((IntMap a) -> (Key -> a)); {-# NEED Key #-} type {-# 5 #-} Key = Prelude.Int; {-# NEED IntMap #-} data IntMap a; }