%
-% (c) The GRASP Project, Glasgow University, 1994-1995
+% (c) The GRASP Project, Glasgow University, 1994-1998
%
\section[TysWiredIn]{Wired-in knowledge about {\em non-primitive} types}
types and operations.''
\begin{code}
-#include "HsVersions.h"
-
module TysWiredIn (
addrDataCon,
addrTy,
consDataCon,
doubleDataCon,
doubleTy,
+ isDoubleTy,
doubleTyCon,
- eqDataCon,
- falseDataCon,
+ falseDataCon, falseDataConId,
floatDataCon,
floatTy,
+ isFloatTy,
floatTyCon,
- getStatePairingConInfo,
- gtDataCon,
+
intDataCon,
intTy,
intTyCon,
+ isIntTy,
+
integerTy,
integerTyCon,
- integerDataCon,
- liftDataCon,
- liftTyCon,
+ smallIntegerDataCon,
+ largeIntegerDataCon,
+ isIntegerTy,
+
listTyCon,
- ltDataCon,
- mallocPtrTyCon,
- mkLiftTy,
+
mkListTy,
- mkPrimIoTy,
- mkStateTransformerTy,
- mkTupleTy,
nilDataCon,
- orderingTy,
- orderingTyCon,
- primIoTyCon,
- ratioDataCon,
- ratioTyCon,
- rationalTy,
- rationalTyCon,
- realWorldStateTy,
- return2GMPsTyCon,
- returnIntAndGMPTyCon,
- stTyCon,
+
+ -- tuples
+ mkTupleTy,
+ tupleTyCon, tupleCon,
+ unitTyCon, unitDataConId, pairTyCon,
+ unboxedSingletonTyCon, unboxedSingletonDataCon,
+ unboxedPairTyCon, unboxedPairDataCon,
+
stablePtrTyCon,
- stateAndAddrPrimTyCon,
- stateAndArrayPrimTyCon,
- stateAndByteArrayPrimTyCon,
- stateAndCharPrimTyCon,
- stateAndDoublePrimTyCon,
- stateAndFloatPrimTyCon,
- stateAndIntPrimTyCon,
- stateAndMallocPtrPrimTyCon,
- stateAndMutableArrayPrimTyCon,
- stateAndMutableByteArrayPrimTyCon,
- stateAndPtrPrimTyCon,
- stateAndStablePtrPrimTyCon,
- stateAndSynchVarPrimTyCon,
- stateAndWordPrimTyCon,
- stateDataCon,
- stateTyCon,
stringTy,
- stringTyCon,
- trueDataCon,
+ trueDataCon, trueDataConId,
unitTy,
- voidTy, voidTyCon,
+ voidTy,
wordDataCon,
wordTy,
- wordTyCon
+ wordTyCon,
+
+ isFFIArgumentTy, -- :: Bool -> Type -> Bool
+ isFFIResultTy, -- :: Type -> Bool
+ isFFIExternalTy, -- :: Type -> Bool
+ isAddrTy, -- :: Type -> Bool
+ isForeignObjTy -- :: Type -> Bool
) where
---ToDo:rm
---import Pretty
---import Util
---import PprType
---import PprStyle
---import Kind
+#include "HsVersions.h"
-import Ubiq
-import TyLoop ( mkDataCon, StrictnessMark(..) )
+import {-# SOURCE #-} MkId( mkDataConId, mkDataConWrapId )
-- friends:
-import PrelMods
+import PrelNames
import TysPrim
-- others:
-import SpecEnv ( SpecEnv(..) )
-import Kind ( mkBoxedTypeKind, mkArrowKind )
-import Name ( mkBuiltinName )
-import SrcLoc ( mkBuiltinSrcLoc )
-import TyCon ( mkDataTyCon, mkTupleTyCon, mkSynTyCon,
- NewOrData(..), TyCon
+import Constants ( mAX_TUPLE_SIZE )
+import Module ( Module, mkPrelModule )
+import Name ( mkWiredInTyConName, mkWiredInIdName, mkSrcOccFS, mkWorkerOcc, dataName )
+import DataCon ( DataCon, StrictnessMark(..), mkDataCon, dataConId )
+import Var ( TyVar, tyVarKind )
+import TyCon ( TyCon, AlgTyConFlavour(..), ArgVrcs, tyConDataCons,
+ mkAlgTyCon, mkSynTyCon, mkTupleTyCon, isUnLiftedTyCon
)
-import Type ( mkTyConTy, applyTyCon, mkSynTy, mkSigmaTy,
- mkFunTys, maybeAppDataTyConExpandingDicts,
- GenType(..), ThetaType(..), TauType(..) )
-import TyVar ( tyVarKind, alphaTyVar, betaTyVar )
+import BasicTypes ( Arity, NewOrData(..), RecFlag(..), Boxity(..), isBoxed )
+import Type ( Type, mkTyConTy, mkTyConApp, mkSigmaTy, mkTyVarTys,
+ mkArrowKinds, boxedTypeKind, unboxedTypeKind,
+ mkFunTy, mkFunTys,
+ splitTyConApp_maybe, repType,
+ TauType, ClassContext )
+import PrimRep ( PrimRep(..) )
import Unique
-import Util ( assoc, panic )
-
-nullSpecEnv = error "TysWiredIn:nullSpecEnv = "
-addOneToSpecEnv = error "TysWiredIn:addOneToSpecEnv = "
-pc_gen_specs = error "TysWiredIn:pc_gen_specs "
-mkSpecInfo = error "TysWiredIn:SpecInfo"
-
-pcDataTyCon :: Unique{-TyConKey-} -> Module -> FAST_STRING
- -> [TyVar] -> [Id] -> TyCon
-pcDataTyCon key mod str tyvars cons
- = mkDataTyCon (mkBuiltinName key mod str) tycon_kind
- tyvars [{-no context-}] cons [{-no derivings-}]
- DataType
+import CmdLineOpts ( opt_GlasgowExts )
+import Util ( assoc )
+import Panic ( panic )
+import Array
+
+alpha_tyvar = [alphaTyVar]
+alpha_ty = [alphaTy]
+alpha_beta_tyvars = [alphaTyVar, betaTyVar]
+
+pcRecDataTyCon, pcNonRecDataTyCon
+ :: Unique{-TyConKey-} -> Module -> FAST_STRING
+ -> [TyVar] -> ArgVrcs -> [DataCon] -> TyCon
+
+pcRecDataTyCon = pcTyCon DataTyCon Recursive
+pcNonRecDataTyCon = pcTyCon DataTyCon NonRecursive
+
+pcTyCon new_or_data is_rec key mod str tyvars argvrcs cons
+ = tycon
where
- tycon_kind = foldr (mkArrowKind . tyVarKind) mkBoxedTypeKind tyvars
+ tycon = mkAlgTyCon name kind
+ tyvars
+ [] -- No context
+ argvrcs
+ cons
+ (length cons)
+ [] -- No derivings
+ new_or_data
+ is_rec
+
+ name = mkWiredInTyConName key mod str tycon
+ kind = mkArrowKinds (map tyVarKind tyvars) boxedTypeKind
+
+pcSynTyCon key mod str kind arity tyvars expansion argvrcs -- this fun never used!
+ = tycon
+ where
+ tycon = mkSynTyCon name kind arity tyvars expansion argvrcs
+ name = mkWiredInTyConName key mod str tycon
pcDataCon :: Unique{-DataConKey-} -> Module -> FAST_STRING
- -> [TyVar] -> ThetaType -> [TauType] -> TyCon -> SpecEnv -> Id
-pcDataCon key mod str tyvars context arg_tys tycon specenv
- = mkDataCon (mkBuiltinName key mod str)
- [ NotMarkedStrict | a <- arg_tys ]
- [ {- no labelled fields -} ]
- tyvars context arg_tys tycon
- -- specenv
-
-pcGenerateDataSpecs :: Type -> SpecEnv
-pcGenerateDataSpecs ty
- = pc_gen_specs False err err err ty
+ -> [TyVar] -> ClassContext -> [TauType] -> TyCon -> DataCon
+-- The unique is the first of two free uniques;
+-- the first is used for the datacon itself and the worker;
+-- the second is used for the wrapper.
+pcDataCon wrap_key mod str tyvars context arg_tys tycon
+ = data_con
where
- err = panic "PrelUtils:GenerateDataSpecs"
+ data_con = mkDataCon wrap_name
+ [ NotMarkedStrict | a <- arg_tys ]
+ [ {- no labelled fields -} ]
+ tyvars context [] [] arg_tys tycon work_id wrap_id
+
+ work_occ = mkWorkerOcc wrap_occ
+ work_key = incrUnique wrap_key
+ work_name = mkWiredInIdName work_key mod work_occ work_id
+ work_id = mkDataConId work_name data_con
+
+ wrap_occ = mkSrcOccFS dataName str
+ wrap_name = mkWiredInIdName wrap_key mod wrap_occ wrap_id
+ wrap_id = mkDataConWrapId data_con
+\end{code}
+
+
+%************************************************************************
+%* *
+\subsection[TysWiredIn-tuples]{The tuple types}
+%* *
+%************************************************************************
+
+\begin{code}
+tupleTyCon :: Boxity -> Arity -> TyCon
+tupleTyCon boxity i | i > mAX_TUPLE_SIZE = fst (mk_tuple boxity i) -- Build one specially
+tupleTyCon Boxed i = fst (boxedTupleArr ! i)
+tupleTyCon Unboxed i = fst (unboxedTupleArr ! i)
+
+tupleCon :: Boxity -> Arity -> DataCon
+tupleCon boxity i | i > mAX_TUPLE_SIZE = snd (mk_tuple boxity i) -- Build one specially
+tupleCon Boxed i = snd (boxedTupleArr ! i)
+tupleCon Unboxed i = snd (unboxedTupleArr ! i)
+
+boxedTupleArr, unboxedTupleArr :: Array Int (TyCon,DataCon)
+boxedTupleArr = array (0,mAX_TUPLE_SIZE) [(i,mk_tuple Boxed i) | i <- [0..mAX_TUPLE_SIZE]]
+unboxedTupleArr = array (0,mAX_TUPLE_SIZE) [(i,mk_tuple Unboxed i) | i <- [0..mAX_TUPLE_SIZE]]
+
+mk_tuple :: Boxity -> Int -> (TyCon,DataCon)
+mk_tuple boxity arity = (tycon, tuple_con)
+ where
+ tycon = mkTupleTyCon tc_name tc_kind arity tyvars tuple_con boxity
+ tc_name = mkWiredInTyConName tc_uniq mod name_str tycon
+ tc_kind = mkArrowKinds (map tyVarKind tyvars) res_kind
+ res_kind | isBoxed boxity = boxedTypeKind
+ | otherwise = unboxedTypeKind
+
+ tyvars | isBoxed boxity = take arity alphaTyVars
+ | otherwise = take arity openAlphaTyVars
+
+ tuple_con = pcDataCon dc_uniq mod name_str tyvars [] tyvar_tys tycon
+ tyvar_tys = mkTyVarTys tyvars
+ (mod_name, name_str) = mkTupNameStr boxity arity
+ tc_uniq = mkTupleTyConUnique boxity arity
+ dc_uniq = mkTupleDataConUnique boxity arity
+ mod = mkPrelModule mod_name
+
+unitTyCon = tupleTyCon Boxed 0
+unitDataConId = dataConId (head (tyConDataCons unitTyCon))
+
+pairTyCon = tupleTyCon Boxed 2
+
+unboxedSingletonTyCon = tupleTyCon Unboxed 1
+unboxedSingletonDataCon = tupleCon Unboxed 1
+
+unboxedPairTyCon = tupleTyCon Unboxed 2
+unboxedPairDataCon = tupleCon Unboxed 2
\end{code}
%************************************************************************
\begin{code}
-- The Void type is represented as a data type with no constructors
-voidTy = mkTyConTy voidTyCon
-
-voidTyCon = pcDataTyCon voidTyConKey pRELUDE_BUILTIN SLIT("Void") [] []
+-- It's a built in type (i.e. there's no way to define it in Haskell;
+-- the nearest would be
+--
+-- data Void = -- No constructors!
+--
+-- ) It's boxed; there is only one value of this
+-- type, namely "void", whose semantics is just bottom.
+--
+-- Haskell 98 drops the definition of a Void type, so we just 'simulate'
+-- voidTy using ().
+voidTy = unitTy
\end{code}
+
\begin{code}
charTy = mkTyConTy charTyCon
-charTyCon = pcDataTyCon charTyConKey pRELUDE_BUILTIN SLIT("Char") [] [charDataCon]
-charDataCon = pcDataCon charDataConKey pRELUDE_BUILTIN SLIT("C#") [] [] [charPrimTy] charTyCon nullSpecEnv
+charTyCon = pcNonRecDataTyCon charTyConKey pREL_BASE SLIT("Char") [] [] [charDataCon]
+charDataCon = pcDataCon charDataConKey pREL_BASE SLIT("C#") [] [] [charPrimTy] charTyCon
+
+stringTy = mkListTy charTy -- convenience only
\end{code}
\begin{code}
intTy = mkTyConTy intTyCon
-intTyCon = pcDataTyCon intTyConKey pRELUDE_BUILTIN SLIT("Int") [] [intDataCon]
-intDataCon = pcDataCon intDataConKey pRELUDE_BUILTIN SLIT("I#") [] [] [intPrimTy] intTyCon nullSpecEnv
+intTyCon = pcNonRecDataTyCon intTyConKey pREL_BASE SLIT("Int") [] [] [intDataCon]
+intDataCon = pcDataCon intDataConKey pREL_BASE SLIT("I#") [] [] [intPrimTy] intTyCon
+
+isIntTy :: Type -> Bool
+isIntTy = isTyCon intTyConKey
\end{code}
\begin{code}
+
wordTy = mkTyConTy wordTyCon
-wordTyCon = pcDataTyCon wordTyConKey pRELUDE_BUILTIN SLIT("_Word") [] [wordDataCon]
-wordDataCon = pcDataCon wordDataConKey pRELUDE_BUILTIN SLIT("W#") [] [] [wordPrimTy] wordTyCon nullSpecEnv
+wordTyCon = pcNonRecDataTyCon wordTyConKey pREL_ADDR SLIT("Word") [] [] [wordDataCon]
+wordDataCon = pcDataCon wordDataConKey pREL_ADDR SLIT("W#") [] [] [wordPrimTy] wordTyCon
\end{code}
\begin{code}
addrTy = mkTyConTy addrTyCon
-addrTyCon = pcDataTyCon addrTyConKey pRELUDE_BUILTIN SLIT("_Addr") [] [addrDataCon]
-addrDataCon = pcDataCon addrDataConKey pRELUDE_BUILTIN SLIT("A#") [] [] [addrPrimTy] addrTyCon nullSpecEnv
+addrTyCon = pcNonRecDataTyCon addrTyConKey pREL_ADDR SLIT("Addr") [] [] [addrDataCon]
+addrDataCon = pcDataCon addrDataConKey pREL_ADDR SLIT("A#") [] [] [addrPrimTy] addrTyCon
+
+isAddrTy :: Type -> Bool
+isAddrTy = isTyCon addrTyConKey
\end{code}
\begin{code}
floatTy = mkTyConTy floatTyCon
-floatTyCon = pcDataTyCon floatTyConKey pRELUDE_BUILTIN SLIT("Float") [] [floatDataCon]
-floatDataCon = pcDataCon floatDataConKey pRELUDE_BUILTIN SLIT("F#") [] [] [floatPrimTy] floatTyCon nullSpecEnv
+floatTyCon = pcNonRecDataTyCon floatTyConKey pREL_FLOAT SLIT("Float") [] [] [floatDataCon]
+floatDataCon = pcDataCon floatDataConKey pREL_FLOAT SLIT("F#") [] [] [floatPrimTy] floatTyCon
+
+isFloatTy :: Type -> Bool
+isFloatTy = isTyCon floatTyConKey
\end{code}
\begin{code}
doubleTy = mkTyConTy doubleTyCon
-doubleTyCon = pcDataTyCon doubleTyConKey pRELUDE_BUILTIN SLIT("Double") [] [doubleDataCon]
-doubleDataCon = pcDataCon doubleDataConKey pRELUDE_BUILTIN SLIT("D#") [] [] [doublePrimTy] doubleTyCon nullSpecEnv
-\end{code}
-
-\begin{code}
-mkStateTy ty = applyTyCon stateTyCon [ty]
-realWorldStateTy = mkStateTy realWorldTy -- a common use
+isDoubleTy :: Type -> Bool
+isDoubleTy = isTyCon doubleTyConKey
-stateTyCon = pcDataTyCon stateTyConKey pRELUDE_BUILTIN SLIT("_State") [alphaTyVar] [stateDataCon]
-stateDataCon
- = pcDataCon stateDataConKey pRELUDE_BUILTIN SLIT("S#")
- [alphaTyVar] [] [mkStatePrimTy alphaTy] stateTyCon nullSpecEnv
+doubleTyCon = pcNonRecDataTyCon doubleTyConKey pREL_FLOAT SLIT("Double") [] [] [doubleDataCon]
+doubleDataCon = pcDataCon doubleDataConKey pREL_FLOAT SLIT("D#") [] [] [doublePrimTy] doubleTyCon
\end{code}
\begin{code}
stablePtrTyCon
- = pcDataTyCon stablePtrTyConKey gLASGOW_MISC SLIT("_StablePtr")
- [alphaTyVar] [stablePtrDataCon]
+ = pcNonRecDataTyCon stablePtrTyConKey pREL_STABLE SLIT("StablePtr")
+ alpha_tyvar [(True,False)] [stablePtrDataCon]
where
stablePtrDataCon
- = pcDataCon stablePtrDataConKey gLASGOW_MISC SLIT("_StablePtr")
- [alphaTyVar] [] [applyTyCon stablePtrPrimTyCon [alphaTy]] stablePtrTyCon nullSpecEnv
+ = pcDataCon stablePtrDataConKey pREL_STABLE SLIT("StablePtr")
+ alpha_tyvar [] [mkStablePtrPrimTy alphaTy] stablePtrTyCon
\end{code}
\begin{code}
-mallocPtrTyCon
- = pcDataTyCon mallocPtrTyConKey gLASGOW_MISC SLIT("_MallocPtr")
- [] [mallocPtrDataCon]
+foreignObjTyCon
+ = pcNonRecDataTyCon foreignObjTyConKey pREL_IO_BASE SLIT("ForeignObj")
+ [] [] [foreignObjDataCon]
where
- mallocPtrDataCon
- = pcDataCon mallocPtrDataConKey gLASGOW_MISC SLIT("_MallocPtr")
- [] [] [applyTyCon mallocPtrPrimTyCon []] mallocPtrTyCon nullSpecEnv
+ foreignObjDataCon
+ = pcDataCon foreignObjDataConKey pREL_IO_BASE SLIT("ForeignObj")
+ [] [] [foreignObjPrimTy] foreignObjTyCon
+
+isForeignObjTy :: Type -> Bool
+isForeignObjTy = isTyCon foreignObjTyConKey
\end{code}
%************************************************************************
@Integer@ and its pals are not really primitive. @Integer@ itself, first:
\begin{code}
-integerTy :: GenType t u
-integerTy = mkTyConTy integerTyCon
-
-integerTyCon = pcDataTyCon integerTyConKey pRELUDE_BUILTIN SLIT("Integer") [] [integerDataCon]
+integerTy :: Type
+integerTy = mkTyConTy integerTyCon
-integerDataCon = pcDataCon integerDataConKey pRELUDE_BUILTIN SLIT("J#")
- [] [] [intPrimTy, intPrimTy, byteArrayPrimTy] integerTyCon nullSpecEnv
-\end{code}
+integerTyCon = pcNonRecDataTyCon integerTyConKey pREL_NUM SLIT("Integer")
+ [] [] [smallIntegerDataCon, largeIntegerDataCon]
-And the other pairing types:
-\begin{code}
-return2GMPsTyCon = pcDataTyCon return2GMPsTyConKey
- pRELUDE_BUILTIN SLIT("_Return2GMPs") [] [return2GMPsDataCon]
+smallIntegerDataCon = pcDataCon smallIntegerDataConKey pREL_NUM SLIT("S#")
+ [] [] [intPrimTy] integerTyCon
+largeIntegerDataCon = pcDataCon largeIntegerDataConKey pREL_NUM SLIT("J#")
+ [] [] [intPrimTy, byteArrayPrimTy] integerTyCon
-return2GMPsDataCon
- = pcDataCon return2GMPsDataConKey pRELUDE_BUILTIN SLIT("_Return2GMPs") [] []
- [intPrimTy, intPrimTy, byteArrayPrimTy,
- intPrimTy, intPrimTy, byteArrayPrimTy] return2GMPsTyCon nullSpecEnv
-returnIntAndGMPTyCon = pcDataTyCon returnIntAndGMPTyConKey
- pRELUDE_BUILTIN SLIT("_ReturnIntAndGMP") [] [returnIntAndGMPDataCon]
-
-returnIntAndGMPDataCon
- = pcDataCon returnIntAndGMPDataConKey pRELUDE_BUILTIN SLIT("_ReturnIntAndGMP") [] []
- [intPrimTy, intPrimTy, intPrimTy, byteArrayPrimTy] returnIntAndGMPTyCon nullSpecEnv
+isIntegerTy :: Type -> Bool
+isIntegerTy = isTyCon integerTyConKey
\end{code}
-%************************************************************************
-%* *
-\subsection[TysWiredIn-state-pairing]{``State-pairing'' types}
-%* *
-%************************************************************************
-
-These boring types pair a \tr{State#} with another primitive type.
-They are not really primitive, so they are given here, not in
-\tr{TysPrim.lhs}.
-
-We fish one of these \tr{StateAnd<blah>#} things with
-@getStatePairingConInfo@ (given a little way down).
-
-\begin{code}
-stateAndPtrPrimTyCon
- = pcDataTyCon stateAndPtrPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndPtr#")
- [alphaTyVar, betaTyVar] [stateAndPtrPrimDataCon]
-stateAndPtrPrimDataCon
- = pcDataCon stateAndPtrPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndPtr#")
- [alphaTyVar, betaTyVar] [] [mkStatePrimTy alphaTy, betaTy]
- stateAndPtrPrimTyCon nullSpecEnv
-
-stateAndCharPrimTyCon
- = pcDataTyCon stateAndCharPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndChar#")
- [alphaTyVar] [stateAndCharPrimDataCon]
-stateAndCharPrimDataCon
- = pcDataCon stateAndCharPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndChar#")
- [alphaTyVar] [] [mkStatePrimTy alphaTy, charPrimTy]
- stateAndCharPrimTyCon nullSpecEnv
-
-stateAndIntPrimTyCon
- = pcDataTyCon stateAndIntPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndInt#")
- [alphaTyVar] [stateAndIntPrimDataCon]
-stateAndIntPrimDataCon
- = pcDataCon stateAndIntPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndInt#")
- [alphaTyVar] [] [mkStatePrimTy alphaTy, intPrimTy]
- stateAndIntPrimTyCon nullSpecEnv
-
-stateAndWordPrimTyCon
- = pcDataTyCon stateAndWordPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndWord#")
- [alphaTyVar] [stateAndWordPrimDataCon]
-stateAndWordPrimDataCon
- = pcDataCon stateAndWordPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndWord#")
- [alphaTyVar] [] [mkStatePrimTy alphaTy, wordPrimTy]
- stateAndWordPrimTyCon nullSpecEnv
-
-stateAndAddrPrimTyCon
- = pcDataTyCon stateAndAddrPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndAddr#")
- [alphaTyVar] [stateAndAddrPrimDataCon]
-stateAndAddrPrimDataCon
- = pcDataCon stateAndAddrPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndAddr#")
- [alphaTyVar] [] [mkStatePrimTy alphaTy, addrPrimTy]
- stateAndAddrPrimTyCon nullSpecEnv
-
-stateAndStablePtrPrimTyCon
- = pcDataTyCon stateAndStablePtrPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndStablePtr#")
- [alphaTyVar, betaTyVar] [stateAndStablePtrPrimDataCon]
-stateAndStablePtrPrimDataCon
- = pcDataCon stateAndStablePtrPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndStablePtr#")
- [alphaTyVar, betaTyVar] []
- [mkStatePrimTy alphaTy, applyTyCon stablePtrPrimTyCon [betaTy]]
- stateAndStablePtrPrimTyCon nullSpecEnv
-
-stateAndMallocPtrPrimTyCon
- = pcDataTyCon stateAndMallocPtrPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndMallocPtr#")
- [alphaTyVar] [stateAndMallocPtrPrimDataCon]
-stateAndMallocPtrPrimDataCon
- = pcDataCon stateAndMallocPtrPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndMallocPtr#")
- [alphaTyVar] []
- [mkStatePrimTy alphaTy, applyTyCon mallocPtrPrimTyCon []]
- stateAndMallocPtrPrimTyCon nullSpecEnv
-
-stateAndFloatPrimTyCon
- = pcDataTyCon stateAndFloatPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndFloat#")
- [alphaTyVar] [stateAndFloatPrimDataCon]
-stateAndFloatPrimDataCon
- = pcDataCon stateAndFloatPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndFloat#")
- [alphaTyVar] [] [mkStatePrimTy alphaTy, floatPrimTy]
- stateAndFloatPrimTyCon nullSpecEnv
-
-stateAndDoublePrimTyCon
- = pcDataTyCon stateAndDoublePrimTyConKey pRELUDE_BUILTIN SLIT("StateAndDouble#")
- [alphaTyVar] [stateAndDoublePrimDataCon]
-stateAndDoublePrimDataCon
- = pcDataCon stateAndDoublePrimDataConKey pRELUDE_BUILTIN SLIT("StateAndDouble#")
- [alphaTyVar] [] [mkStatePrimTy alphaTy, doublePrimTy]
- stateAndDoublePrimTyCon nullSpecEnv
-\end{code}
-
-\begin{code}
-stateAndArrayPrimTyCon
- = pcDataTyCon stateAndArrayPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndArray#")
- [alphaTyVar, betaTyVar] [stateAndArrayPrimDataCon]
-stateAndArrayPrimDataCon
- = pcDataCon stateAndArrayPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndArray#")
- [alphaTyVar, betaTyVar] [] [mkStatePrimTy alphaTy, mkArrayPrimTy betaTy]
- stateAndArrayPrimTyCon nullSpecEnv
-
-stateAndMutableArrayPrimTyCon
- = pcDataTyCon stateAndMutableArrayPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndMutableArray#")
- [alphaTyVar, betaTyVar] [stateAndMutableArrayPrimDataCon]
-stateAndMutableArrayPrimDataCon
- = pcDataCon stateAndMutableArrayPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndMutableArray#")
- [alphaTyVar, betaTyVar] [] [mkStatePrimTy alphaTy, mkMutableArrayPrimTy alphaTy betaTy]
- stateAndMutableArrayPrimTyCon nullSpecEnv
-
-stateAndByteArrayPrimTyCon
- = pcDataTyCon stateAndByteArrayPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndByteArray#")
- [alphaTyVar] [stateAndByteArrayPrimDataCon]
-stateAndByteArrayPrimDataCon
- = pcDataCon stateAndByteArrayPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndByteArray#")
- [alphaTyVar] [] [mkStatePrimTy alphaTy, byteArrayPrimTy]
- stateAndByteArrayPrimTyCon nullSpecEnv
-
-stateAndMutableByteArrayPrimTyCon
- = pcDataTyCon stateAndMutableByteArrayPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndMutableByteArray#")
- [alphaTyVar] [stateAndMutableByteArrayPrimDataCon]
-stateAndMutableByteArrayPrimDataCon
- = pcDataCon stateAndMutableByteArrayPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndMutableByteArray#")
- [alphaTyVar] [] [mkStatePrimTy alphaTy, applyTyCon mutableByteArrayPrimTyCon [alphaTy]]
- stateAndMutableByteArrayPrimTyCon nullSpecEnv
-
-stateAndSynchVarPrimTyCon
- = pcDataTyCon stateAndSynchVarPrimTyConKey pRELUDE_BUILTIN SLIT("StateAndSynchVar#")
- [alphaTyVar, betaTyVar] [stateAndSynchVarPrimDataCon]
-stateAndSynchVarPrimDataCon
- = pcDataCon stateAndSynchVarPrimDataConKey pRELUDE_BUILTIN SLIT("StateAndSynchVar#")
- [alphaTyVar, betaTyVar] [] [mkStatePrimTy alphaTy, mkSynchVarPrimTy alphaTy betaTy]
- stateAndSynchVarPrimTyCon nullSpecEnv
-\end{code}
-
-The ccall-desugaring mechanism uses this function to figure out how to
-rebox the result. It's really a HACK, especially the part about
-how many types to drop from \tr{tys_applied}.
-
-\begin{code}
-getStatePairingConInfo
- :: Type -- primitive type
- -> (Id, -- state pair constructor for prim type
- Type) -- type of state pair
-
-getStatePairingConInfo prim_ty
- = case (maybeAppDataTyConExpandingDicts prim_ty) of
- Nothing -> panic "getStatePairingConInfo:1"
- Just (prim_tycon, tys_applied, _) ->
- let
- (pair_con, pair_tycon, num_tys) = assoc "getStatePairingConInfo" tbl prim_tycon
- pair_ty = applyTyCon pair_tycon (realWorldTy : drop num_tys tys_applied)
- in
- (pair_con, pair_ty)
- where
- tbl = [
- (charPrimTyCon, (stateAndCharPrimDataCon, stateAndCharPrimTyCon, 0)),
- (intPrimTyCon, (stateAndIntPrimDataCon, stateAndIntPrimTyCon, 0)),
- (wordPrimTyCon, (stateAndWordPrimDataCon, stateAndWordPrimTyCon, 0)),
- (addrPrimTyCon, (stateAndAddrPrimDataCon, stateAndAddrPrimTyCon, 0)),
- (stablePtrPrimTyCon, (stateAndStablePtrPrimDataCon, stateAndStablePtrPrimTyCon, 0)),
- (mallocPtrPrimTyCon, (stateAndMallocPtrPrimDataCon, stateAndMallocPtrPrimTyCon, 0)),
- (floatPrimTyCon, (stateAndFloatPrimDataCon, stateAndFloatPrimTyCon, 0)),
- (doublePrimTyCon, (stateAndDoublePrimDataCon, stateAndDoublePrimTyCon, 0)),
- (arrayPrimTyCon, (stateAndArrayPrimDataCon, stateAndArrayPrimTyCon, 0)),
- (mutableArrayPrimTyCon, (stateAndMutableArrayPrimDataCon, stateAndMutableArrayPrimTyCon, 1)),
- (byteArrayPrimTyCon, (stateAndByteArrayPrimDataCon, stateAndByteArrayPrimTyCon, 0)),
- (mutableByteArrayPrimTyCon, (stateAndMutableByteArrayPrimDataCon, stateAndMutableByteArrayPrimTyCon, 1)),
- (synchVarPrimTyCon, (stateAndSynchVarPrimDataCon, stateAndSynchVarPrimTyCon, 1))
- -- (PtrPrimTyCon, (stateAndPtrPrimDataCon, stateAndPtrPrimTyCon, 0)),
- ]
-\end{code}
%************************************************************************
%* *
-\subsection[TysWiredIn-ST]{The basic @_ST@ state-transformer type}
+\subsection[TysWiredIn-ext-type]{External types}
%* *
%************************************************************************
-This is really just an ordinary synonym, except it is ABSTRACT.
+The compiler's foreign function interface supports the passing of a
+restricted set of types as arguments and results (the restricting factor
+being the )
\begin{code}
-mkStateTransformerTy s a = mkSynTy stTyCon [s, a]
-
-stTyCon
- = let
- ty = mkFunTys [mkStateTy alphaTy] (mkTupleTy 2 [betaTy, mkStateTy alphaTy])
- in
- mkSynTyCon
- (mkBuiltinName stTyConKey gLASGOW_ST SLIT("_ST"))
- (mkBoxedTypeKind `mkArrowKind` (mkBoxedTypeKind `mkArrowKind` mkBoxedTypeKind))
- 2 [alphaTyVar, betaTyVar]
- ty
+isFFIArgumentTy :: Bool -> Type -> Bool
+-- Checks for valid argument type for a 'foreign import'
+isFFIArgumentTy is_safe ty = checkRepTyCon (legalOutgoingTyCon is_safe) ty
+
+isFFIExternalTy :: Type -> Bool
+-- Types that are allowed as arguments of a 'foreign export'
+isFFIExternalTy ty = checkRepTyCon legalIncomingTyCon ty
+
+isFFIResultTy :: Type -> Bool
+-- Types that are allowed as a result of a 'foreign import' or of a 'foreign export'
+-- Maybe we should distinguish between import and export, but
+-- here we just choose the more restrictive 'incoming' predicate
+-- But we allow () as well
+isFFIResultTy ty = checkRepTyCon (\tc -> tc == unitTyCon || legalIncomingTyCon tc) ty
+
+checkRepTyCon :: (TyCon -> Bool) -> Type -> Bool
+ -- look through newtypes
+checkRepTyCon check_tc ty = checkTyCon check_tc (repType ty)
+
+checkTyCon :: (TyCon -> Bool) -> Type -> Bool
+checkTyCon check_tc ty = case splitTyConApp_maybe ty of
+ Just (tycon, _) -> check_tc tycon
+ Nothing -> False
+
+isTyCon :: Unique -> Type -> Bool
+isTyCon uniq ty = checkTyCon (\tc -> uniq == getUnique tc) ty
\end{code}
-%************************************************************************
-%* *
-\subsection[TysWiredIn-IO]{The @PrimIO@ and @IO@ monadic-I/O types}
-%* *
-%************************************************************************
-
-@PrimIO@ and @IO@ really are just plain synonyms.
+----------------------------------------------
+These chaps do the work; they are not exported
+----------------------------------------------
\begin{code}
-mkPrimIoTy a = mkSynTy primIoTyCon [a]
-
-primIoTyCon
- = let
- ty = mkStateTransformerTy realWorldTy alphaTy
- in
--- pprTrace "primIOTyCon:" (ppCat [pprType PprDebug ty, ppr PprDebug (typeKind ty)]) $
- mkSynTyCon
- (mkBuiltinName primIoTyConKey pRELUDE_PRIMIO SLIT("PrimIO"))
- (mkBoxedTypeKind `mkArrowKind` mkBoxedTypeKind)
- 1 [alphaTyVar] ty
+legalIncomingTyCon :: TyCon -> Bool
+-- It's illegal to return foreign objects and (mutable)
+-- bytearrays from a _ccall_ / foreign declaration
+-- (or be passed them as arguments in foreign exported functions).
+legalIncomingTyCon tc
+ | getUnique tc `elem` [ foreignObjTyConKey, byteArrayTyConKey, mutableByteArrayTyConKey ]
+ = False
+ | otherwise
+ = marshalableTyCon tc
+
+legalOutgoingTyCon :: Bool -> TyCon -> Bool
+-- Checks validity of types going from Haskell -> external world
+-- The boolean is true for a 'safe' call (when we don't want to
+-- pass Haskell pointers to the world)
+legalOutgoingTyCon be_safe tc
+ | be_safe && getUnique tc `elem` [byteArrayTyConKey, mutableByteArrayTyConKey]
+ = False
+ | otherwise
+ = marshalableTyCon tc
+
+marshalableTyCon tc
+ = (opt_GlasgowExts && isUnLiftedTyCon tc)
+ || getUnique tc `elem` [ intTyConKey, int8TyConKey, int16TyConKey, int32TyConKey, int64TyConKey
+ , wordTyConKey, word8TyConKey, word16TyConKey, word32TyConKey, word64TyConKey
+ , floatTyConKey, doubleTyConKey
+ , addrTyConKey, charTyConKey, foreignObjTyConKey
+ , stablePtrTyConKey
+ , byteArrayTyConKey, mutableByteArrayTyConKey
+ , boolTyConKey
+ ]
\end{code}
+
%************************************************************************
%* *
\subsection[TysWiredIn-Bool]{The @Bool@ type}
\begin{code}
boolTy = mkTyConTy boolTyCon
-boolTyCon = pcDataTyCon boolTyConKey pRELUDE_CORE SLIT("Bool") [] [falseDataCon, trueDataCon]
-
-falseDataCon = pcDataCon falseDataConKey pRELUDE_CORE SLIT("False") [] [] [] boolTyCon nullSpecEnv
-trueDataCon = pcDataCon trueDataConKey pRELUDE_CORE SLIT("True") [] [] [] boolTyCon nullSpecEnv
-\end{code}
+boolTyCon = pcTyCon EnumTyCon NonRecursive boolTyConKey
+ pREL_BASE SLIT("Bool") [] [] [falseDataCon, trueDataCon]
-%************************************************************************
-%* *
-\subsection[TysWiredIn-Ordering]{The @Ordering@ type}
-%* *
-%************************************************************************
+falseDataCon = pcDataCon falseDataConKey pREL_BASE SLIT("False") [] [] [] boolTyCon
+trueDataCon = pcDataCon trueDataConKey pREL_BASE SLIT("True") [] [] [] boolTyCon
-\begin{code}
----------------------------------------------
--- data Ordering = LT | EQ | GT deriving ()
----------------------------------------------
-
-orderingTy = mkTyConTy orderingTyCon
-
-orderingTyCon = pcDataTyCon orderingTyConKey pRELUDE_BUILTIN SLIT("Ordering") []
- [ltDataCon, eqDataCon, gtDataCon]
-
-ltDataCon = pcDataCon ltDataConKey pRELUDE_BUILTIN SLIT("LT") [] [] [] orderingTyCon nullSpecEnv
-eqDataCon = pcDataCon eqDataConKey pRELUDE_BUILTIN SLIT("EQ") [] [] [] orderingTyCon nullSpecEnv
-gtDataCon = pcDataCon gtDataConKey pRELUDE_BUILTIN SLIT("GT") [] [] [] orderingTyCon nullSpecEnv
+falseDataConId = dataConId falseDataCon
+trueDataConId = dataConId trueDataCon
\end{code}
%************************************************************************
%************************************************************************
Special syntax, deeply wired in, but otherwise an ordinary algebraic
-data type:
+data types:
\begin{verbatim}
-data List a = Nil | a : (List a)
-ToDo: data [] a = [] | a : (List a)
-ToDo: data () = ()
- data (,,) a b c = (,,) a b c
+data [] a = [] | a : (List a)
+data () = ()
+data (,) a b = (,,) a b
+...
\end{verbatim}
\begin{code}
-mkListTy :: GenType t u -> GenType t u
-mkListTy ty = applyTyCon listTyCon [ty]
+mkListTy :: Type -> Type
+mkListTy ty = mkTyConApp listTyCon [ty]
-alphaListTy = mkSigmaTy [alphaTyVar] [] (applyTyCon listTyCon [alphaTy])
+alphaListTy = mkSigmaTy alpha_tyvar [] (mkTyConApp listTyCon alpha_ty)
-listTyCon = pcDataTyCon listTyConKey pRELUDE_BUILTIN SLIT("[]")
- [alphaTyVar] [nilDataCon, consDataCon]
+listTyCon = pcRecDataTyCon listTyConKey pREL_BASE SLIT("[]")
+ alpha_tyvar [(True,False)] [nilDataCon, consDataCon]
-nilDataCon = pcDataCon nilDataConKey pRELUDE_BUILTIN SLIT("[]") [alphaTyVar] [] [] listTyCon
- (pcGenerateDataSpecs alphaListTy)
-consDataCon = pcDataCon consDataConKey pRELUDE_BUILTIN SLIT(":")
- [alphaTyVar] [] [alphaTy, applyTyCon listTyCon [alphaTy]] listTyCon
- (pcGenerateDataSpecs alphaListTy)
+nilDataCon = pcDataCon nilDataConKey pREL_BASE SLIT("[]") alpha_tyvar [] [] listTyCon
+consDataCon = pcDataCon consDataConKey pREL_BASE SLIT(":")
+ alpha_tyvar [] [alphaTy, mkTyConApp listTyCon alpha_ty] listTyCon
-- Interesting: polymorphic recursion would help here.
-- We can't use (mkListTy alphaTy) in the defn of consDataCon, else mkListTy
-- gets the over-specific type (Type -> Type)
\end{itemize}
\begin{code}
-mkTupleTy :: Int -> [GenType t u] -> GenType t u
-
-mkTupleTy arity tys = applyTyCon (mkTupleTyCon arity) tys
-
-unitTy = mkTupleTy 0 []
-\end{code}
-
-%************************************************************************
-%* *
-\subsection[TysWiredIn-Ratios]{@Ratio@ and @Rational@}
-%* *
-%************************************************************************
-
-ToDo: make this (mostly) go away.
-
-\begin{code}
-rationalTy :: GenType t u
-
-mkRatioTy ty = applyTyCon ratioTyCon [ty]
-rationalTy = mkRatioTy integerTy
-
-ratioTyCon = pcDataTyCon ratioTyConKey pRELUDE_RATIO SLIT("Ratio") [alphaTyVar] [ratioDataCon]
-
-ratioDataCon = pcDataCon ratioDataConKey pRELUDE_RATIO SLIT(":%")
- [alphaTyVar] [{-(integralClass,alphaTy)-}] [alphaTy, alphaTy] ratioTyCon nullSpecEnv
- -- context omitted to match lib/prelude/ defn of "data Ratio ..."
-
-rationalTyCon
- = mkSynTyCon
- (mkBuiltinName rationalTyConKey pRELUDE_RATIO SLIT("Rational"))
- mkBoxedTypeKind
- 0 [] rationalTy -- == mkRatioTy integerTy
-\end{code}
-
-%************************************************************************
-%* *
-\subsection[TysWiredIn-_Lift]{@_Lift@ type: to support array indexing}
-%* *
-%************************************************************************
-
-Again, deeply turgid: \tr{data _Lift a = _Lift a}.
-
-\begin{code}
-mkLiftTy ty = applyTyCon liftTyCon [ty]
-
-{-
-mkLiftTy ty
- = mkSigmaTy tvs theta (applyTyCon liftTyCon [tau])
- where
- (tvs, theta, tau) = splitSigmaTy ty
-
-isLiftTy ty
- = case (maybeAppDataTyConExpandingDicts tau) of
- Just (tycon, tys, _) -> tycon == liftTyCon
- Nothing -> False
- where
- (tvs, theta, tau) = splitSigmaTy ty
--}
-
-
-alphaLiftTy = mkSigmaTy [alphaTyVar] [] (applyTyCon liftTyCon [alphaTy])
-
-liftTyCon
- = pcDataTyCon liftTyConKey pRELUDE_BUILTIN SLIT("_Lift") [alphaTyVar] [liftDataCon]
-
-liftDataCon
- = pcDataCon liftDataConKey pRELUDE_BUILTIN SLIT("_Lift")
- [alphaTyVar] [] [alphaTy] liftTyCon
- ((pcGenerateDataSpecs alphaLiftTy) `addOneToSpecEnv`
- (mkSpecInfo [Just realWorldStatePrimTy] 0 bottom))
- where
- bottom = panic "liftDataCon:State# _RealWorld"
-\end{code}
-
-
-%************************************************************************
-%* *
-\subsection[TysWiredIn-for-convenience]{Types wired in for convenience (e.g., @String@)}
-%* *
-%************************************************************************
-
-\begin{code}
-stringTy = mkListTy charTy
+mkTupleTy :: Boxity -> Int -> [Type] -> Type
+mkTupleTy boxity arity tys = mkTyConApp (tupleTyCon boxity arity) tys
-stringTyCon
- = mkSynTyCon
- (mkBuiltinName stringTyConKey pRELUDE_CORE SLIT("String"))
- mkBoxedTypeKind
- 0 [] stringTy
+unitTy = mkTupleTy Boxed 0 []
\end{code}