2 % (c) The AQUA Project, Glasgow University, 1994-1998
4 \section[TysPrim]{Wired-in knowledge about primitive types}
8 alphaTyVars, betaTyVars, alphaTyVar, betaTyVar, gammaTyVar, deltaTyVar,
9 alphaTy, betaTy, gammaTy, deltaTy,
10 openAlphaTy, openBetaTy, openAlphaTyVar, openBetaTyVar, openAlphaTyVars,
14 charPrimTyCon, charPrimTy,
15 intPrimTyCon, intPrimTy,
16 wordPrimTyCon, wordPrimTy,
17 addrPrimTyCon, addrPrimTy,
18 floatPrimTyCon, floatPrimTy,
19 doublePrimTyCon, doublePrimTy,
21 statePrimTyCon, mkStatePrimTy,
22 realWorldTyCon, realWorldTy, realWorldStatePrimTy,
24 arrayPrimTyCon, mkArrayPrimTy,
25 byteArrayPrimTyCon, byteArrayPrimTy,
26 mutableArrayPrimTyCon, mkMutableArrayPrimTy,
27 mutableByteArrayPrimTyCon, mkMutableByteArrayPrimTy,
28 mutVarPrimTyCon, mkMutVarPrimTy,
30 mVarPrimTyCon, mkMVarPrimTy,
31 tVarPrimTyCon, mkTVarPrimTy,
32 stablePtrPrimTyCon, mkStablePtrPrimTy,
33 stableNamePrimTyCon, mkStableNamePrimTy,
34 bcoPrimTyCon, bcoPrimTy,
35 weakPrimTyCon, mkWeakPrimTy,
36 threadIdPrimTyCon, threadIdPrimTy,
38 int32PrimTyCon, int32PrimTy,
39 word32PrimTyCon, word32PrimTy,
41 int64PrimTyCon, int64PrimTy,
42 word64PrimTyCon, word64PrimTy
45 #include "HsVersions.h"
47 import Var ( TyVar, mkTyVar )
48 import Name ( Name, BuiltInSyntax(..), mkInternalName, mkWiredInName )
49 import OccName ( mkOccNameFS, tcName, mkTyVarOcc )
50 import TyCon ( TyCon, mkPrimTyCon, mkLiftedPrimTyCon,
52 import Type ( mkTyConApp, mkTyConTy, mkTyVarTys, mkTyVarTy,
54 liftedTypeKind, openTypeKind,
58 import SrcLoc ( noSrcLoc )
59 import Unique ( mkAlphaTyVarUnique )
61 import FastString ( FastString, mkFastString )
64 import Char ( ord, chr )
67 %************************************************************************
69 \subsection{Primitive type constructors}
71 %************************************************************************
87 , mutableArrayPrimTyCon
88 , mutableByteArrayPrimTyCon
102 mkPrimTc :: FastString -> Unique -> TyCon -> Name
103 mkPrimTc fs uniq tycon
104 = mkWiredInName gHC_PRIM (mkOccNameFS tcName fs)
106 (ATyCon tycon) -- Relevant TyCon
107 UserSyntax -- None are built-in syntax
109 charPrimTyConName = mkPrimTc FSLIT("Char#") charPrimTyConKey charPrimTyCon
110 intPrimTyConName = mkPrimTc FSLIT("Int#") intPrimTyConKey intPrimTyCon
111 int32PrimTyConName = mkPrimTc FSLIT("Int32#") int32PrimTyConKey int32PrimTyCon
112 int64PrimTyConName = mkPrimTc FSLIT("Int64#") int64PrimTyConKey int64PrimTyCon
113 wordPrimTyConName = mkPrimTc FSLIT("Word#") wordPrimTyConKey wordPrimTyCon
114 word32PrimTyConName = mkPrimTc FSLIT("Word32#") word32PrimTyConKey word32PrimTyCon
115 word64PrimTyConName = mkPrimTc FSLIT("Word64#") word64PrimTyConKey word64PrimTyCon
116 addrPrimTyConName = mkPrimTc FSLIT("Addr#") addrPrimTyConKey addrPrimTyCon
117 floatPrimTyConName = mkPrimTc FSLIT("Float#") floatPrimTyConKey floatPrimTyCon
118 doublePrimTyConName = mkPrimTc FSLIT("Double#") doublePrimTyConKey doublePrimTyCon
119 statePrimTyConName = mkPrimTc FSLIT("State#") statePrimTyConKey statePrimTyCon
120 realWorldTyConName = mkPrimTc FSLIT("RealWorld") realWorldTyConKey realWorldTyCon
121 arrayPrimTyConName = mkPrimTc FSLIT("Array#") arrayPrimTyConKey arrayPrimTyCon
122 byteArrayPrimTyConName = mkPrimTc FSLIT("ByteArray#") byteArrayPrimTyConKey byteArrayPrimTyCon
123 mutableArrayPrimTyConName = mkPrimTc FSLIT("MutableArray#") mutableArrayPrimTyConKey mutableArrayPrimTyCon
124 mutableByteArrayPrimTyConName = mkPrimTc FSLIT("MutableByteArray#") mutableByteArrayPrimTyConKey mutableByteArrayPrimTyCon
125 mutVarPrimTyConName = mkPrimTc FSLIT("MutVar#") mutVarPrimTyConKey mutVarPrimTyCon
126 mVarPrimTyConName = mkPrimTc FSLIT("MVar#") mVarPrimTyConKey mVarPrimTyCon
127 tVarPrimTyConName = mkPrimTc FSLIT("TVar#") tVarPrimTyConKey tVarPrimTyCon
128 stablePtrPrimTyConName = mkPrimTc FSLIT("StablePtr#") stablePtrPrimTyConKey stablePtrPrimTyCon
129 stableNamePrimTyConName = mkPrimTc FSLIT("StableName#") stableNamePrimTyConKey stableNamePrimTyCon
130 bcoPrimTyConName = mkPrimTc FSLIT("BCO#") bcoPrimTyConKey bcoPrimTyCon
131 weakPrimTyConName = mkPrimTc FSLIT("Weak#") weakPrimTyConKey weakPrimTyCon
132 threadIdPrimTyConName = mkPrimTc FSLIT("ThreadId#") threadIdPrimTyConKey threadIdPrimTyCon
135 %************************************************************************
137 \subsection{Support code}
139 %************************************************************************
141 alphaTyVars is a list of type variables for use in templates:
142 ["a", "b", ..., "z", "t1", "t2", ... ]
145 tyVarList :: Kind -> [TyVar]
146 tyVarList kind = [ mkTyVar (mkInternalName (mkAlphaTyVarUnique u)
147 (mkTyVarOcc (mkFastString name))
150 let name | c <= 'z' = [c]
151 | otherwise = 't':show u
152 where c = chr (u-2 + ord 'a')
155 alphaTyVars :: [TyVar]
156 alphaTyVars = tyVarList liftedTypeKind
158 betaTyVars = tail alphaTyVars
160 alphaTyVar, betaTyVar, gammaTyVar :: TyVar
161 (alphaTyVar:betaTyVar:gammaTyVar:deltaTyVar:_) = alphaTyVars
163 alphaTys = mkTyVarTys alphaTyVars
164 (alphaTy:betaTy:gammaTy:deltaTy:_) = alphaTys
166 -- openAlphaTyVar is prepared to be instantiated
167 -- to a lifted or unlifted type variable. It's used for the
168 -- result type for "error", so that we can have (error Int# "Help")
169 openAlphaTyVars :: [TyVar]
170 openAlphaTyVars@(openAlphaTyVar:openBetaTyVar:_) = tyVarList openTypeKind
172 openAlphaTy = mkTyVarTy openAlphaTyVar
173 openBetaTy = mkTyVarTy openBetaTyVar
177 %************************************************************************
179 \subsection[TysPrim-basic]{Basic primitive types (@Char#@, @Int#@, etc.)}
181 %************************************************************************
185 pcPrimTyCon :: Name -> Int -> PrimRep -> TyCon
186 pcPrimTyCon name arity rep
187 = mkPrimTyCon name kind arity rep
189 kind = mkArrowKinds (replicate arity liftedTypeKind) result_kind
190 result_kind = unliftedTypeKind
192 pcPrimTyCon0 :: Name -> PrimRep -> TyCon
193 pcPrimTyCon0 name rep
194 = mkPrimTyCon name result_kind 0 rep
196 result_kind = unliftedTypeKind
198 charPrimTy = mkTyConTy charPrimTyCon
199 charPrimTyCon = pcPrimTyCon0 charPrimTyConName WordRep
201 intPrimTy = mkTyConTy intPrimTyCon
202 intPrimTyCon = pcPrimTyCon0 intPrimTyConName IntRep
204 int32PrimTy = mkTyConTy int32PrimTyCon
205 int32PrimTyCon = pcPrimTyCon0 int32PrimTyConName IntRep
207 int64PrimTy = mkTyConTy int64PrimTyCon
208 int64PrimTyCon = pcPrimTyCon0 int64PrimTyConName Int64Rep
210 wordPrimTy = mkTyConTy wordPrimTyCon
211 wordPrimTyCon = pcPrimTyCon0 wordPrimTyConName WordRep
213 word32PrimTy = mkTyConTy word32PrimTyCon
214 word32PrimTyCon = pcPrimTyCon0 word32PrimTyConName WordRep
216 word64PrimTy = mkTyConTy word64PrimTyCon
217 word64PrimTyCon = pcPrimTyCon0 word64PrimTyConName Word64Rep
219 addrPrimTy = mkTyConTy addrPrimTyCon
220 addrPrimTyCon = pcPrimTyCon0 addrPrimTyConName AddrRep
222 floatPrimTy = mkTyConTy floatPrimTyCon
223 floatPrimTyCon = pcPrimTyCon0 floatPrimTyConName FloatRep
225 doublePrimTy = mkTyConTy doublePrimTyCon
226 doublePrimTyCon = pcPrimTyCon0 doublePrimTyConName DoubleRep
230 %************************************************************************
232 \subsection[TysPrim-state]{The @State#@ type (and @_RealWorld@ types)}
234 %************************************************************************
236 State# is the primitive, unlifted type of states. It has one type parameter,
242 where s is a type variable. The only purpose of the type parameter is to
243 keep different state threads separate. It is represented by nothing at all.
246 mkStatePrimTy ty = mkTyConApp statePrimTyCon [ty]
247 statePrimTyCon = pcPrimTyCon statePrimTyConName 1 VoidRep
250 RealWorld is deeply magical. It is *primitive*, but it is not
251 *unlifted* (hence ptrArg). We never manipulate values of type
252 RealWorld; it's only used in the type system, to parameterise State#.
255 realWorldTyCon = mkLiftedPrimTyCon realWorldTyConName liftedTypeKind 0 PtrRep
256 realWorldTy = mkTyConTy realWorldTyCon
257 realWorldStatePrimTy = mkStatePrimTy realWorldTy -- State# RealWorld
260 Note: the ``state-pairing'' types are not truly primitive, so they are
261 defined in \tr{TysWiredIn.lhs}, not here.
264 %************************************************************************
266 \subsection[TysPrim-arrays]{The primitive array types}
268 %************************************************************************
271 arrayPrimTyCon = pcPrimTyCon arrayPrimTyConName 1 PtrRep
272 mutableArrayPrimTyCon = pcPrimTyCon mutableArrayPrimTyConName 2 PtrRep
273 mutableByteArrayPrimTyCon = pcPrimTyCon mutableByteArrayPrimTyConName 1 PtrRep
274 byteArrayPrimTyCon = pcPrimTyCon0 byteArrayPrimTyConName PtrRep
276 mkArrayPrimTy elt = mkTyConApp arrayPrimTyCon [elt]
277 byteArrayPrimTy = mkTyConTy byteArrayPrimTyCon
278 mkMutableArrayPrimTy s elt = mkTyConApp mutableArrayPrimTyCon [s, elt]
279 mkMutableByteArrayPrimTy s = mkTyConApp mutableByteArrayPrimTyCon [s]
282 %************************************************************************
284 \subsection[TysPrim-mut-var]{The mutable variable type}
286 %************************************************************************
289 mutVarPrimTyCon = pcPrimTyCon mutVarPrimTyConName 2 PtrRep
291 mkMutVarPrimTy s elt = mkTyConApp mutVarPrimTyCon [s, elt]
294 %************************************************************************
296 \subsection[TysPrim-synch-var]{The synchronizing variable type}
298 %************************************************************************
301 mVarPrimTyCon = pcPrimTyCon mVarPrimTyConName 2 PtrRep
303 mkMVarPrimTy s elt = mkTyConApp mVarPrimTyCon [s, elt]
306 %************************************************************************
308 \subsection[TysPrim-stm-var]{The transactional variable type}
310 %************************************************************************
313 tVarPrimTyCon = pcPrimTyCon tVarPrimTyConName 2 PtrRep
315 mkTVarPrimTy s elt = mkTyConApp tVarPrimTyCon [s, elt]
318 %************************************************************************
320 \subsection[TysPrim-stable-ptrs]{The stable-pointer type}
322 %************************************************************************
325 stablePtrPrimTyCon = pcPrimTyCon stablePtrPrimTyConName 1 AddrRep
327 mkStablePtrPrimTy ty = mkTyConApp stablePtrPrimTyCon [ty]
330 %************************************************************************
332 \subsection[TysPrim-stable-names]{The stable-name type}
334 %************************************************************************
337 stableNamePrimTyCon = pcPrimTyCon stableNamePrimTyConName 1 PtrRep
339 mkStableNamePrimTy ty = mkTyConApp stableNamePrimTyCon [ty]
342 %************************************************************************
344 \subsection[TysPrim-BCOs]{The ``bytecode object'' type}
346 %************************************************************************
349 bcoPrimTy = mkTyConTy bcoPrimTyCon
350 bcoPrimTyCon = pcPrimTyCon0 bcoPrimTyConName PtrRep
353 %************************************************************************
355 \subsection[TysPrim-Weak]{The ``weak pointer'' type}
357 %************************************************************************
360 weakPrimTyCon = pcPrimTyCon weakPrimTyConName 1 PtrRep
362 mkWeakPrimTy v = mkTyConApp weakPrimTyCon [v]
365 %************************************************************************
367 \subsection[TysPrim-thread-ids]{The ``thread id'' type}
369 %************************************************************************
371 A thread id is represented by a pointer to the TSO itself, to ensure
372 that they are always unique and we can always find the TSO for a given
373 thread id. However, this has the unfortunate consequence that a
374 ThreadId# for a given thread is treated as a root by the garbage
375 collector and can keep TSOs around for too long.
377 Hence the programmer API for thread manipulation uses a weak pointer
378 to the thread id internally.
381 threadIdPrimTy = mkTyConTy threadIdPrimTyCon
382 threadIdPrimTyCon = pcPrimTyCon0 threadIdPrimTyConName PtrRep