-{-# OPTIONS -fno-implicit-prelude #-}
+{-# OPTIONS_GHC -fno-implicit-prelude #-}
-----------------------------------------------------------------------------
-- |
-- Module : Data.Typeable
-- Stability : experimental
-- Portability : portable
--
--- The Typeable class reifies types to some extent by associating type
+-- The 'Typeable' class reifies types to some extent by associating type
-- representations to types. These type representations can be compared,
-- and one can in turn define a type-safe cast operation. To this end,
-- an unsafe cast is guarded by a test for type (representation)
--- equivalence. The module Data.Dynamic uses Typeable for an
--- implementation of dynamics. The module Data.Generics uses Typeable
+-- equivalence. The module "Data.Dynamic" uses Typeable for an
+-- implementation of dynamics. The module "Data.Generics" uses Typeable
-- and type-safe cast (but not dynamics) to support the \"Scrap your
-- boilerplate\" style of generic programming.
--
+-- Note, only relevant if you use dynamic linking. If you have a program
+-- that is statically linked with Data.Typeable, and then dynamically link
+-- a program that also uses Data.Typeable, you'll get two copies of the module.
+-- That's fine, but behind the scenes, the module uses a mutable variable to
+-- allocate unique Ids to type constructors. So in the situation described,
+-- there'll be two separate Id allocators, which aren't comparable to each other.
+-- This can lead to chaos. (It's a bug that we will fix.) None of
+-- this matters if you aren't using dynamic linking.
+--
-----------------------------------------------------------------------------
module Data.Typeable
import GHC.Float
import GHC.Real( rem, Ratio )
import GHC.IOBase
+import GHC.ST -- So we can give Typeable instance for ST
import GHC.Ptr -- So we can give Typeable instance for Ptr
+import GHC.ForeignPtr -- So we can give Typeable instance for ForeignPtr
import GHC.Stable -- So we can give Typeable instance for StablePtr
#endif
INSTANCE_TYPEABLE2(Either,eitherTc,"Either")
INSTANCE_TYPEABLE2((->),funTc,"->")
INSTANCE_TYPEABLE1(IO,ioTc,"IO")
+#ifdef __GLASGOW_HASKELL__
+INSTANCE_TYPEABLE2(ST,stTc,"ST")
+INSTANCE_TYPEABLE1(ForeignPtr,foreignPtrTc,"ForeignPtr")
+#endif
INSTANCE_TYPEABLE0((),unitTc,"()")
#ifndef __NHC__
INSTANCE_TYPEABLE2((,),pairTc,",")
typeOf6 tu = mkTyConApp tup6Tc []
tup7Tc :: TyCon
-tup7Tc = mkTyCon ",,,,,"
+tup7Tc = mkTyCon ",,,,,,"
instance Typeable7 (,,,,,,) where
typeOf7 tu = mkTyConApp tup7Tc []
#endif /* __NHC__ */
-INSTANCE_TYPEABLE1(Ptr,ptrTc,"Foreign.Ptr.Ptr")
-INSTANCE_TYPEABLE1(StablePtr,stableptrTc,"Foreign.StablePtr.StablePtr")
-INSTANCE_TYPEABLE1(IORef,iorefTc,"Data.IORef.IORef")
+INSTANCE_TYPEABLE1(Ptr,ptrTc,"Ptr")
+INSTANCE_TYPEABLE1(StablePtr,stableptrTc,"StablePtr")
+INSTANCE_TYPEABLE1(IORef,iorefTc,"IORef")
-------------------------------------------------------
--
INSTANCE_TYPEABLE0(Float,floatTc,"Float")
INSTANCE_TYPEABLE0(Double,doubleTc,"Double")
INSTANCE_TYPEABLE0(Int,intTc,"Int")
+#ifndef __NHC__
+INSTANCE_TYPEABLE0(Word,wordTc,"Word" )
+#endif
INSTANCE_TYPEABLE0(Integer,integerTc,"Integer")
INSTANCE_TYPEABLE0(Ordering,orderingTc,"Ordering")
INSTANCE_TYPEABLE0(Handle,handleTc,"Handle")
INSTANCE_TYPEABLE0(TypeRep,typeRepTc,"TypeRep")
#ifdef __GLASGOW_HASKELL__
-INSTANCE_TYPEABLE0(Word,wordTc,"Word" )
+INSTANCE_TYPEABLE0(RealWorld,realWorldTc,"RealWorld")
#endif
---------------------------------------------