substTyWith, substTyVar, mkTopTvSubst,
mkForAllTys, mkFunTys, mkTyConApp, mkTyVarTy, mkTyVarTys,
splitTyConApp_maybe, newTyConInstRhs,
- mkPredTys, isStrictPred, pprType, mkPredTy
+ mkPredTys, isStrictPred, pprType
)
import Coercion ( isEqPred, mkEqPred )
import TyCon ( TyCon, FieldLabel, tyConDataCons,
isProductTyCon, isTupleTyCon, isUnboxedTupleTyCon,
- isNewTyCon, isRecursiveTyCon, tyConFamInst_maybe )
+ isNewTyCon, isClosedNewTyCon, isRecursiveTyCon,
+ tyConFamInst_maybe )
import Class ( Class, classTyCon )
-import Name ( Name, NamedThing(..), nameUnique, mkSysTvName, mkSystemName )
-import Var ( TyVar, CoVar, Id, mkTyVar, tyVarKind, setVarUnique,
- mkCoVar )
+import Name ( Name, NamedThing(..), nameUnique )
+import Var ( TyVar, Id )
import BasicTypes ( Arity, StrictnessMark(..) )
import Outputable
import Unique ( Unique, Uniquable(..) )
import ListSetOps ( assoc, minusList )
import Util ( zipEqual, zipWithEqual )
-import List ( partition )
import Maybes ( expectJust )
import FastString
\end{code}
-- [This is a change (Oct05): previously, vanilla datacons guaranteed to
-- have the same type variables as their parent TyCon, but that seems ugly.]
+ -- INVARIANT: the UnivTyVars and ExTyVars all have distinct OccNames
+ -- Reason: less confusing, and easier to generate IfaceSyn
+
dcEqSpec :: [(TyVar,Type)], -- Equalities derived from the result type,
-- *as written by the programmer*
-- This field allows us to move conveniently between the two ways
eq_spec theta
orig_arg_tys tycon
stupid_theta ids
+-- Warning: mkDataCon is not a good place to check invariants.
+-- If the programmer writes the wrong result type in the decl, thus:
+-- data T a where { MkT :: S }
+-- then it's possible that the univ_tvs may hit an assertion failure
+-- if you pull on univ_tvs. This case is checked by checkValidDataCon,
+-- so the error is detected properly... it's just that asaertions here
+-- are a little dodgy.
+
= ASSERT( not (any isEqPred theta) )
-- We don't currently allow any equality predicates on
-- a data constructor (apart from the GADT ones in eq_spec)
con
where
is_vanilla = null ex_tvs && null eq_spec && null theta
- con = ASSERT( is_vanilla || not (isNewTyCon tycon) )
- -- Invariant: newtypes have a vanilla data-con
- MkData {dcName = name, dcUnique = nameUnique name,
+ con = MkData {dcName = name, dcUnique = nameUnique name,
dcVanilla = is_vanilla, dcInfix = declared_infix,
dcUnivTyVars = univ_tvs, dcExTyVars = ex_tvs,
dcEqSpec = eq_spec,
deepSplitProductType_maybe ty
= do { (res@(tycon, tycon_args, _, _)) <- splitProductType_maybe ty
; let {result
- | isNewTyCon tycon && not (isRecursiveTyCon tycon)
+ | isClosedNewTyCon tycon && not (isRecursiveTyCon tycon)
= deepSplitProductType_maybe (newTyConInstRhs tycon tycon_args)
- | isNewTyCon tycon = Nothing -- cannot unbox through recursive newtypes
+ | isNewTyCon tycon = Nothing -- cannot unbox through recursive
+ -- newtypes nor through families
| otherwise = Just res}
; result
}
unbox MarkedStrict ty = [(MarkedStrict, ty)]
unbox MarkedUnboxed ty = zipEqual "computeRep" (dataConRepStrictness arg_dc) arg_tys
where
- (tycon, tycon_args, arg_dc, arg_tys)
+ (_tycon, _tycon_args, arg_dc, arg_tys)
= deepSplitProductType "unbox_strict_arg_ty" ty
\end{code}