base-4.7.0.0: Data/OldTypeable/Internal.hs
{-# LANGUAGE Unsafe #-}
-----------------------------------------------------------------------------
-- |
-- Module : Data.Typeable.Internal
-- Copyright : (c) The University of Glasgow, CWI 2001--2011
-- License : BSD-style (see the file libraries/base/LICENSE)
--
-- The representations of the types TyCon and TypeRep, and the
-- function mkTyCon which is used by derived instances of Typeable to
-- construct a TyCon.
--
-- /Since: 4.7.0.0/
-----------------------------------------------------------------------------
{-# LANGUAGE CPP
, NoImplicitPrelude
, OverlappingInstances
, ScopedTypeVariables
, FlexibleInstances
, MagicHash
, DeriveDataTypeable
, StandaloneDeriving #-}
module Data.OldTypeable.Internal {-# DEPRECATED "Use Data.Typeable.Internal instead" #-} ( -- deprecated in 7.8
TypeRep(..),
TyCon(..),
mkTyCon,
mkTyCon3,
mkTyConApp,
mkAppTy,
typeRepTyCon,
typeOfDefault,
typeOf1Default,
typeOf2Default,
typeOf3Default,
typeOf4Default,
typeOf5Default,
typeOf6Default,
Typeable(..),
Typeable1(..),
Typeable2(..),
Typeable3(..),
Typeable4(..),
Typeable5(..),
Typeable6(..),
Typeable7(..),
mkFunTy,
splitTyConApp,
funResultTy,
typeRepArgs,
showsTypeRep,
tyConString,
listTc, funTc
) where
import GHC.Base
import GHC.Word
import GHC.Show
import Data.Maybe
import Data.List
import GHC.Num
import GHC.Real
import GHC.IORef
import GHC.IOArray
import GHC.MVar
import GHC.ST ( ST )
import GHC.STRef ( STRef )
import GHC.Ptr ( Ptr, FunPtr )
import GHC.Stable
import GHC.Arr ( Array, STArray )
import Data.Int
import GHC.Fingerprint.Type
import GHC.Fingerprint
-- | A concrete representation of a (monomorphic) type. 'TypeRep'
-- supports reasonably efficient equality.
data TypeRep = TypeRep {-# UNPACK #-} !Fingerprint TyCon [TypeRep]
-- Compare keys for equality
instance Eq TypeRep where
(TypeRep k1 _ _) == (TypeRep k2 _ _) = k1 == k2
instance Ord TypeRep where
(TypeRep k1 _ _) <= (TypeRep k2 _ _) = k1 <= k2
-- | An abstract representation of a type constructor. 'TyCon' objects can
-- be built using 'mkTyCon'.
data TyCon = TyCon {
tyConHash :: {-# UNPACK #-} !Fingerprint,
tyConPackage :: String,
tyConModule :: String,
tyConName :: String
}
instance Eq TyCon where
(TyCon t1 _ _ _) == (TyCon t2 _ _ _) = t1 == t2
instance Ord TyCon where
(TyCon k1 _ _ _) <= (TyCon k2 _ _ _) = k1 <= k2
----------------- Construction --------------------
#include "MachDeps.h"
-- mkTyCon is an internal function to make it easier for GHC to
-- generate derived instances. GHC precomputes the MD5 hash for the
-- TyCon and passes it as two separate 64-bit values to mkTyCon. The
-- TyCon for a derived Typeable instance will end up being statically
-- allocated.
#if WORD_SIZE_IN_BITS < 64
mkTyCon :: Word64# -> Word64# -> String -> String -> String -> TyCon
#else
mkTyCon :: Word# -> Word# -> String -> String -> String -> TyCon
#endif
mkTyCon high# low# pkg modl name
= TyCon (Fingerprint (W64# high#) (W64# low#)) pkg modl name
-- | Applies a type constructor to a sequence of types
mkTyConApp :: TyCon -> [TypeRep] -> TypeRep
mkTyConApp tc@(TyCon tc_k _ _ _) []
= TypeRep tc_k tc [] -- optimisation: all derived Typeable instances
-- end up here, and it helps generate smaller
-- code for derived Typeable.
mkTyConApp tc@(TyCon tc_k _ _ _) args
= TypeRep (fingerprintFingerprints (tc_k : arg_ks)) tc args
where
arg_ks = [k | TypeRep k _ _ <- args]
-- | A special case of 'mkTyConApp', which applies the function
-- type constructor to a pair of types.
mkFunTy :: TypeRep -> TypeRep -> TypeRep
mkFunTy f a = mkTyConApp funTc [f,a]
-- | Splits a type constructor application
splitTyConApp :: TypeRep -> (TyCon,[TypeRep])
splitTyConApp (TypeRep _ tc trs) = (tc,trs)
-- | Applies a type to a function type. Returns: @'Just' u@ if the
-- first argument represents a function of type @t -> u@ and the
-- second argument represents a function of type @t@. Otherwise,
-- returns 'Nothing'.
funResultTy :: TypeRep -> TypeRep -> Maybe TypeRep
funResultTy trFun trArg
= case splitTyConApp trFun of
(tc, [t1,t2]) | tc == funTc && t1 == trArg -> Just t2
_ -> Nothing
-- | Adds a TypeRep argument to a TypeRep.
mkAppTy :: TypeRep -> TypeRep -> TypeRep
mkAppTy (TypeRep _ tc trs) arg_tr = mkTyConApp tc (trs ++ [arg_tr])
-- Notice that we call mkTyConApp to construct the fingerprint from tc and
-- the arg fingerprints. Simply combining the current fingerprint with
-- the new one won't give the same answer, but of course we want to
-- ensure that a TypeRep of the same shape has the same fingerprint!
-- See Trac #5962
-- | Builds a 'TyCon' object representing a type constructor. An
-- implementation of "Data.Typeable" should ensure that the following holds:
--
-- > A==A' ^ B==B' ^ C==C' ==> mkTyCon A B C == mkTyCon A' B' C'
--
--
mkTyCon3 :: String -- ^ package name
-> String -- ^ module name
-> String -- ^ the name of the type constructor
-> TyCon -- ^ A unique 'TyCon' object
mkTyCon3 pkg modl name =
TyCon (fingerprintString (unwords [pkg, modl, name])) pkg modl name
----------------- Observation ---------------------
-- | Observe the type constructor of a type representation
typeRepTyCon :: TypeRep -> TyCon
typeRepTyCon (TypeRep _ tc _) = tc
-- | Observe the argument types of a type representation
typeRepArgs :: TypeRep -> [TypeRep]
typeRepArgs (TypeRep _ _ args) = args
-- | Observe string encoding of a type representation
{-# DEPRECATED tyConString "renamed to tyConName; tyConModule and tyConPackage are also available." #-} -- deprecated in 7.4
tyConString :: TyCon -> String
tyConString = tyConName
-------------------------------------------------------------
--
-- The Typeable class and friends
--
-------------------------------------------------------------
{- Note [Memoising typeOf]
~~~~~~~~~~~~~~~~~~~~~~~~~~
IMPORTANT: we don't want to recalculate the type-rep once per
call to the dummy argument. This is what went wrong in Trac #3245
So we help GHC by manually keeping the 'rep' *outside* the value
lambda, thus
typeOfDefault :: forall t a. (Typeable1 t, Typeable a) => t a -> TypeRep
typeOfDefault = \_ -> rep
where
rep = typeOf1 (undefined :: t a) `mkAppTy`
typeOf (undefined :: a)
Notice the crucial use of scoped type variables here!
-}
-- | The class 'Typeable' allows a concrete representation of a type to
-- be calculated.
class Typeable a where
typeOf :: a -> TypeRep
-- ^ Takes a value of type @a@ and returns a concrete representation
-- of that type. The /value/ of the argument should be ignored by
-- any instance of 'Typeable', so that it is safe to pass 'undefined' as
-- the argument.
-- | Variant for unary type constructors
class Typeable1 t where
typeOf1 :: t a -> TypeRep
-- | For defining a 'Typeable' instance from any 'Typeable1' instance.
typeOfDefault :: forall t a. (Typeable1 t, Typeable a) => t a -> TypeRep
typeOfDefault = \_ -> rep
where
rep = typeOf1 (undefined :: t a) `mkAppTy`
typeOf (undefined :: a)
-- Note [Memoising typeOf]
-- | Variant for binary type constructors
class Typeable2 t where
typeOf2 :: t a b -> TypeRep
-- | For defining a 'Typeable1' instance from any 'Typeable2' instance.
typeOf1Default :: forall t a b. (Typeable2 t, Typeable a) => t a b -> TypeRep
typeOf1Default = \_ -> rep
where
rep = typeOf2 (undefined :: t a b) `mkAppTy`
typeOf (undefined :: a)
-- Note [Memoising typeOf]
-- | Variant for 3-ary type constructors
class Typeable3 t where
typeOf3 :: t a b c -> TypeRep
-- | For defining a 'Typeable2' instance from any 'Typeable3' instance.
typeOf2Default :: forall t a b c. (Typeable3 t, Typeable a) => t a b c -> TypeRep
typeOf2Default = \_ -> rep
where
rep = typeOf3 (undefined :: t a b c) `mkAppTy`
typeOf (undefined :: a)
-- Note [Memoising typeOf]
-- | Variant for 4-ary type constructors
class Typeable4 t where
typeOf4 :: t a b c d -> TypeRep
-- | For defining a 'Typeable3' instance from any 'Typeable4' instance.
typeOf3Default :: forall t a b c d. (Typeable4 t, Typeable a) => t a b c d -> TypeRep
typeOf3Default = \_ -> rep
where
rep = typeOf4 (undefined :: t a b c d) `mkAppTy`
typeOf (undefined :: a)
-- Note [Memoising typeOf]
-- | Variant for 5-ary type constructors
class Typeable5 t where
typeOf5 :: t a b c d e -> TypeRep
-- | For defining a 'Typeable4' instance from any 'Typeable5' instance.
typeOf4Default :: forall t a b c d e. (Typeable5 t, Typeable a) => t a b c d e -> TypeRep
typeOf4Default = \_ -> rep
where
rep = typeOf5 (undefined :: t a b c d e) `mkAppTy`
typeOf (undefined :: a)
-- Note [Memoising typeOf]
-- | Variant for 6-ary type constructors
class Typeable6 t where
typeOf6 :: t a b c d e f -> TypeRep
-- | For defining a 'Typeable5' instance from any 'Typeable6' instance.
typeOf5Default :: forall t a b c d e f. (Typeable6 t, Typeable a) => t a b c d e f -> TypeRep
typeOf5Default = \_ -> rep
where
rep = typeOf6 (undefined :: t a b c d e f) `mkAppTy`
typeOf (undefined :: a)
-- Note [Memoising typeOf]
-- | Variant for 7-ary type constructors
class Typeable7 t where
typeOf7 :: t a b c d e f g -> TypeRep
-- | For defining a 'Typeable6' instance from any 'Typeable7' instance.
typeOf6Default :: forall t a b c d e f g. (Typeable7 t, Typeable a) => t a b c d e f g -> TypeRep
typeOf6Default = \_ -> rep
where
rep = typeOf7 (undefined :: t a b c d e f g) `mkAppTy`
typeOf (undefined :: a)
-- Note [Memoising typeOf]
-- Given a @Typeable@/n/ instance for an /n/-ary type constructor,
-- define the instances for partial applications.
-- Programmers using non-GHC implementations must do this manually
-- for each type constructor.
-- (The INSTANCE_TYPEABLE/n/ macros in Typeable.h include this.)
-- | One Typeable instance for all Typeable1 instances
instance (Typeable1 s, Typeable a)
=> Typeable (s a) where
typeOf = typeOfDefault
-- | One Typeable1 instance for all Typeable2 instances
instance (Typeable2 s, Typeable a)
=> Typeable1 (s a) where
typeOf1 = typeOf1Default
-- | One Typeable2 instance for all Typeable3 instances
instance (Typeable3 s, Typeable a)
=> Typeable2 (s a) where
typeOf2 = typeOf2Default
-- | One Typeable3 instance for all Typeable4 instances
instance (Typeable4 s, Typeable a)
=> Typeable3 (s a) where
typeOf3 = typeOf3Default
-- | One Typeable4 instance for all Typeable5 instances
instance (Typeable5 s, Typeable a)
=> Typeable4 (s a) where
typeOf4 = typeOf4Default
-- | One Typeable5 instance for all Typeable6 instances
instance (Typeable6 s, Typeable a)
=> Typeable5 (s a) where
typeOf5 = typeOf5Default
-- | One Typeable6 instance for all Typeable7 instances
instance (Typeable7 s, Typeable a)
=> Typeable6 (s a) where
typeOf6 = typeOf6Default
----------------- Showing TypeReps --------------------
instance Show TypeRep where
showsPrec p (TypeRep _ tycon tys) =
case tys of
[] -> showsPrec p tycon
[x] | tycon == listTc -> showChar '[' . shows x . showChar ']'
[a,r] | tycon == funTc -> showParen (p > 8) $
showsPrec 9 a .
showString " -> " .
showsPrec 8 r
xs | isTupleTyCon tycon -> showTuple xs
| otherwise ->
showParen (p > 9) $
showsPrec p tycon .
showChar ' ' .
showArgs tys
showsTypeRep :: TypeRep -> ShowS
showsTypeRep = shows
instance Show TyCon where
showsPrec _ t = showString (tyConName t)
isTupleTyCon :: TyCon -> Bool
isTupleTyCon (TyCon _ _ _ ('(':',':_)) = True
isTupleTyCon _ = False
-- Some (Show.TypeRep) helpers:
showArgs :: Show a => [a] -> ShowS
showArgs [] = id
showArgs [a] = showsPrec 10 a
showArgs (a:as) = showsPrec 10 a . showString " " . showArgs as
showTuple :: [TypeRep] -> ShowS
showTuple args = showChar '('
. (foldr (.) id $ intersperse (showChar ',')
$ map (showsPrec 10) args)
. showChar ')'
listTc :: TyCon
listTc = typeRepTyCon (typeOf [()])
funTc :: TyCon
funTc = mkTyCon3 "ghc-prim" "GHC.Types" "->"
-------------------------------------------------------------
--
-- Instances of the Typeable classes for Prelude types
--
-------------------------------------------------------------
#include "OldTypeable.h"
INSTANCE_TYPEABLE0((),unitTc,"()")
INSTANCE_TYPEABLE1([],listTc,"[]")
INSTANCE_TYPEABLE1(Maybe,maybeTc,"Maybe")
INSTANCE_TYPEABLE1(Ratio,ratioTc,"Ratio")
{-
TODO: Deriving this instance fails with:
libraries/base/Data/Typeable.hs:589:1:
Can't make a derived instance of `Typeable2 (->)':
The last argument of the instance must be a data or newtype application
In the stand-alone deriving instance for `Typeable2 (->)'
-}
instance Typeable2 (->) where { typeOf2 _ = mkTyConApp funTc [] }
INSTANCE_TYPEABLE1(IO,ioTc,"IO")
-- Types defined in GHC.MVar
INSTANCE_TYPEABLE1(MVar,mvarTc,"MVar" )
INSTANCE_TYPEABLE2(Array,arrayTc,"Array")
INSTANCE_TYPEABLE2(IOArray,iOArrayTc,"IOArray")
INSTANCE_TYPEABLE2(ST,stTc,"ST")
INSTANCE_TYPEABLE2(STRef,stRefTc,"STRef")
INSTANCE_TYPEABLE3(STArray,sTArrayTc,"STArray")
INSTANCE_TYPEABLE2((,),pairTc,"(,)")
INSTANCE_TYPEABLE3((,,),tup3Tc,"(,,)")
INSTANCE_TYPEABLE4((,,,),tup4Tc,"(,,,)")
INSTANCE_TYPEABLE5((,,,,),tup5Tc,"(,,,,)")
INSTANCE_TYPEABLE6((,,,,,),tup6Tc,"(,,,,,)")
INSTANCE_TYPEABLE7((,,,,,,),tup7Tc,"(,,,,,,)")
INSTANCE_TYPEABLE1(Ptr,ptrTc,"Ptr")
INSTANCE_TYPEABLE1(FunPtr,funPtrTc,"FunPtr")
INSTANCE_TYPEABLE1(StablePtr,stablePtrTc,"StablePtr")
INSTANCE_TYPEABLE1(IORef,iORefTc,"IORef")
-------------------------------------------------------
--
-- Generate Typeable instances for standard datatypes
--
-------------------------------------------------------
INSTANCE_TYPEABLE0(Bool,boolTc,"Bool")
INSTANCE_TYPEABLE0(Char,charTc,"Char")
INSTANCE_TYPEABLE0(Float,floatTc,"Float")
INSTANCE_TYPEABLE0(Double,doubleTc,"Double")
INSTANCE_TYPEABLE0(Int,intTc,"Int")
INSTANCE_TYPEABLE0(Word,wordTc,"Word" )
INSTANCE_TYPEABLE0(Integer,integerTc,"Integer")
INSTANCE_TYPEABLE0(Ordering,orderingTc,"Ordering")
INSTANCE_TYPEABLE0(Int8,int8Tc,"Int8")
INSTANCE_TYPEABLE0(Int16,int16Tc,"Int16")
INSTANCE_TYPEABLE0(Int32,int32Tc,"Int32")
INSTANCE_TYPEABLE0(Int64,int64Tc,"Int64")
INSTANCE_TYPEABLE0(Word8,word8Tc,"Word8" )
INSTANCE_TYPEABLE0(Word16,word16Tc,"Word16")
INSTANCE_TYPEABLE0(Word32,word32Tc,"Word32")
INSTANCE_TYPEABLE0(Word64,word64Tc,"Word64")
INSTANCE_TYPEABLE0(TyCon,tyconTc,"TyCon")
INSTANCE_TYPEABLE0(TypeRep,typeRepTc,"TypeRep")
{-
TODO: This can't be derived currently:
libraries/base/Data/Typeable.hs:674:1:
Can't make a derived instance of `Typeable RealWorld':
The last argument of the instance must be a data or newtype application
In the stand-alone deriving instance for `Typeable RealWorld'
-}
realWorldTc :: TyCon; \
realWorldTc = mkTyCon3 "ghc-prim" "GHC.Types" "RealWorld"; \
instance Typeable RealWorld where { typeOf _ = mkTyConApp realWorldTc [] }