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-rw-r--r--compiler/GHC/HsToCore/Expr.hs180
-rw-r--r--compiler/GHC/HsToCore/Match/Literal.hs4
2 files changed, 95 insertions, 89 deletions
diff --git a/compiler/GHC/HsToCore/Expr.hs b/compiler/GHC/HsToCore/Expr.hs
index 8bcebb8a51..cdbf54889e 100644
--- a/compiler/GHC/HsToCore/Expr.hs
+++ b/compiler/GHC/HsToCore/Expr.hs
@@ -288,26 +288,10 @@ dsExpr (HsOverLit _ lit)
= do { warnAboutOverflowedOverLit lit
; dsOverLit lit }
-dsExpr (XExpr (ExpansionExpr (HsExpanded _ b)))
- = dsExpr b
-
-dsExpr hswrap@(XExpr (WrapExpr (HsWrap co_fn e)))
- = do { e' <- case e of
- HsVar _ (L _ var) -> return $ varToCoreExpr var
- HsConLikeOut _ (RealDataCon dc) -> return $ varToCoreExpr (dataConWrapId dc)
- XExpr (WrapExpr (HsWrap _ _)) -> pprPanic "dsExpr: HsWrap inside HsWrap" (ppr hswrap)
- HsPar _ _ -> pprPanic "dsExpr: HsPar inside HsWrap" (ppr hswrap)
- _ -> addTyCs FromSource (hsWrapDictBinders co_fn) $
- dsExpr e
- -- See Note [Detecting forced eta expansion]
- ; wrap' <- dsHsWrapper co_fn
- ; dflags <- getDynFlags
- ; let wrapped_e = wrap' e'
- wrapped_ty = exprType wrapped_e
- ; checkForcedEtaExpansion e (ppr hswrap) wrapped_ty -- See Note [Detecting forced eta expansion]
- -- Pass HsWrap, so that the user can see entire expression with -fprint-typechecker-elaboration
- ; warnAboutIdentities dflags e' wrapped_ty
- ; return wrapped_e }
+dsExpr e@(XExpr expansion)
+ = case expansion of
+ ExpansionExpr (HsExpanded _ b) -> dsExpr b
+ WrapExpr {} -> dsHsWrapped e
dsExpr (NegApp _ (L loc
(HsOverLit _ lit@(OverLit { ol_val = HsIntegral i})))
@@ -334,9 +318,7 @@ dsExpr e@(HsApp _ fun arg)
; dsWhenNoErrs (dsLExprNoLP arg)
(\arg' -> mkCoreAppDs (text "HsApp" <+> ppr e) fun' arg') }
-dsExpr (HsAppType ty e _)
- = do { e' <- dsLExpr e
- ; return (App e' (Type ty)) }
+dsExpr e@(HsAppType {}) = dsHsWrapped e
{-
Note [Desugaring vars]
@@ -1060,15 +1042,8 @@ dsDo ctx stmts
dsHsVar :: Id -> DsM CoreExpr
dsHsVar var
- | let bad_tys = badUseOfLevPolyPrimop var ty
- , not (null bad_tys)
- = do { levPolyPrimopErr (ppr var) ty bad_tys
- ; return unitExpr } -- return something eminently safe
-
- | otherwise
- = return (varToCoreExpr var) -- See Note [Desugaring vars]
- where
- ty = idType var
+ = do { checkLevPolyFunction (ppr var) var (idType var)
+ ; return (varToCoreExpr var) } -- See Note [Desugaring vars]
dsConLike :: ConLike -> DsM CoreExpr
dsConLike (RealDataCon dc) = dsHsVar (dataConWrapId dc)
@@ -1130,35 +1105,36 @@ badMonadBind rhs elt_ty
{-
************************************************************************
* *
- Forced eta expansion and levity polymorphism
+ Levity polymorphism checks
* *
************************************************************************
-Note [Detecting forced eta expansion]
-~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
+Note [Checking for levity-polymorphic functions]
+~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
We cannot have levity polymorphic function arguments. See
-Note [Levity polymorphism invariants] in GHC.Core. But we *can* have
-functions that take levity polymorphic arguments, as long as these
-functions are eta-reduced. (See #12708 for an example.)
-
-However, we absolutely cannot do this for functions that have no
-binding (i.e., say True to Id.hasNoBinding), like primops and unboxed
-tuple constructors. These get eta-expanded in CorePrep.maybeSaturate.
-
-Detecting when this is about to happen is a bit tricky, though. When
-the desugarer is looking at the Id itself (let's be concrete and
-suppose we have (#,#)), we don't know whether it will be levity
-polymorphic. So the right spot seems to be to look after the Id has
-been applied to its type arguments. To make the algorithm efficient,
-it's important to be able to spot ((#,#) @a @b @c @d) without looking
-past all the type arguments. We thus require that
- * The body of an HsWrap is not an HsWrap, nor an HsPar.
-This invariant is checked in dsExpr.
-With that representation invariant, we simply look inside every HsWrap
-to see if its body is an HsVar whose Id hasNoBinding. Then, we look
-at the wrapped type. If it has any levity polymorphic arguments, reject.
-Because we might have an HsVar without a wrapper, we check in dsHsVar
-as well. typecheck/should_fail/T17021 triggers this case.
+Note [Levity polymorphism invariants] in GHC.Core. That is
+checked by dsLExprNoLP.
+
+But what about
+ const True (unsafeCoerce# :: forall r1 r2 (a :: TYPE r1) (b :: TYPE r2). a -> b)
+
+Since `unsafeCoerce#` has no binding, it has a compulsory unfolding.
+But that compulsory unfolding is a levity-polymorphic lambda, which
+is no good. So we want to reject this. On the other hand
+ const True (unsafeCoerce# @LiftedRep @UnliftedRep)
+is absolutely fine.
+
+We have to collect all the type-instantiation and *then* check. That
+is what dsHsWrapped does. Because we might have an HsVar without a
+wrapper, we check in dsHsVar as well. typecheck/should_fail/T17021
+triggers this case.
+
+Note that if `f :: forall r (a :: Type r). blah`, then
+ const True f
+is absolutely fine. Here `f` is a function, represented by a
+pointer, and we can pass it to `const` (or anything else). (See
+#12708 for an example.) It's only the Id.hasNoBinding functions
+that are a problem.
Interestingly, this approach does not look to see whether the Id in
question will be eta expanded. The logic is this:
@@ -1171,39 +1147,53 @@ So, either way, we're good to reject.
-}
--- | Takes an expression and its instantiated type. If the expression is an
--- HsVar with a hasNoBinding primop and the type has levity-polymorphic arguments,
--- issue an error. See Note [Detecting forced eta expansion]
-checkForcedEtaExpansion :: HsExpr GhcTc -> SDoc -> Type -> DsM ()
-checkForcedEtaExpansion expr expr_doc ty
- | Just var <- case expr of
- HsVar _ (L _ var) -> Just var
- HsConLikeOut _ (RealDataCon dc) -> Just (dataConWrapId dc)
- _ -> Nothing
- , let bad_tys = badUseOfLevPolyPrimop var ty
- , not (null bad_tys)
- = levPolyPrimopErr expr_doc ty bad_tys
-checkForcedEtaExpansion _ _ _ = return ()
-
--- | Is this a hasNoBinding Id with a levity-polymorphic type?
--- Returns the arguments that are levity polymorphic if they are bad;
--- or an empty list otherwise
--- See Note [Detecting forced eta expansion]
-badUseOfLevPolyPrimop :: Id -> Type -> [Type]
-badUseOfLevPolyPrimop id ty
- | hasNoBinding id
- = filter isTypeLevPoly arg_tys
- | otherwise
- = []
+------------------------------
+dsHsWrapped :: HsExpr GhcTc -> DsM CoreExpr
+-- Looks for a function 'f' wrapped in type applications (HsAppType)
+-- or wrappers (HsWrap), and checks that any hasNoBinding function
+-- is not levity polymorphic, *after* instantiation with those wrappers
+dsHsWrapped orig_hs_expr
+ = go id orig_hs_expr
where
- (binders, _) = splitPiTys ty
- arg_tys = mapMaybe binderRelevantType_maybe binders
-
-levPolyPrimopErr :: SDoc -> Type -> [Type] -> DsM ()
-levPolyPrimopErr expr_doc ty bad_tys
+ go wrap (XExpr (WrapExpr (HsWrap co_fn hs_e)))
+ = do { wrap' <- dsHsWrapper co_fn
+ ; addTyCs FromSource (hsWrapDictBinders co_fn) $
+ go (wrap . wrap') hs_e }
+ go wrap (HsConLikeOut _ (RealDataCon dc))
+ = go_head wrap (dataConWrapId dc)
+ go wrap (HsAppType ty hs_e _) = go_l (wrap . (\e -> App e (Type ty))) hs_e
+ go wrap (HsPar _ hs_e) = go_l wrap hs_e
+ go wrap (HsVar _ (L _ var)) = go_head wrap var
+ go wrap hs_e = do { e <- dsExpr hs_e; return (wrap e) }
+
+ go_l wrap (L _ hs_e) = go wrap hs_e
+
+ go_head wrap var
+ = do { let wrapped_e = wrap (Var var)
+ wrapped_ty = exprType wrapped_e
+
+ ; checkLevPolyFunction (ppr orig_hs_expr) var wrapped_ty
+ -- See Note [Checking for levity-polymorphic functions]
+ -- Pass orig_hs_expr, so that the user can see entire
+ -- expression with -fprint-typechecker-elaboration
+
+ ; dflags <- getDynFlags
+ ; warnAboutIdentities dflags var wrapped_ty
+
+ ; return wrapped_e }
+
+
+-- | Takes a (pretty-printed) expression, a function, and its
+-- instantiated type. If the function is a hasNoBinding op, and the
+-- type has levity-polymorphic arguments, issue an error.
+-- Note [Checking for levity-polymorphic functions]
+checkLevPolyFunction :: SDoc -> Id -> Type -> DsM ()
+checkLevPolyFunction pp_hs_expr var ty
+ | let bad_tys = isBadLevPolyFunction var ty
+ , not (null bad_tys)
= errDs $ vcat
[ hang (text "Cannot use function with levity-polymorphic arguments:")
- 2 (expr_doc <+> dcolon <+> pprWithTYPE ty)
+ 2 (pp_hs_expr <+> dcolon <+> pprWithTYPE ty)
, ppUnlessOption sdocPrintTypecheckerElaboration $ vcat
[ text "(Note that levity-polymorphic primops such as 'coerce' and unboxed tuples"
, text "are eta-expanded internally because they must occur fully saturated."
@@ -1214,3 +1204,19 @@ levPolyPrimopErr expr_doc ty bad_tys
(\t -> pprWithTYPE t <+> dcolon <+> pprWithTYPE (typeKind t))
bad_tys
]
+
+checkLevPolyFunction _ _ _ = return ()
+
+-- | Is this a hasNoBinding Id with a levity-polymorphic type?
+-- Returns the arguments that are levity polymorphic if they are bad;
+-- or an empty list otherwise
+-- Note [Checking for levity-polymorphic functions]
+isBadLevPolyFunction :: Id -> Type -> [Type]
+isBadLevPolyFunction id ty
+ | hasNoBinding id
+ = filter isTypeLevPoly arg_tys
+ | otherwise
+ = []
+ where
+ (binders, _) = splitPiTys ty
+ arg_tys = mapMaybe binderRelevantType_maybe binders
diff --git a/compiler/GHC/HsToCore/Match/Literal.hs b/compiler/GHC/HsToCore/Match/Literal.hs
index 1e1744590a..fd4be02b1c 100644
--- a/compiler/GHC/HsToCore/Match/Literal.hs
+++ b/compiler/GHC/HsToCore/Match/Literal.hs
@@ -258,8 +258,8 @@ between one type and another when the to- and from- types are the
same. Then it's probably (albeit not definitely) the identity
-}
-warnAboutIdentities :: DynFlags -> CoreExpr -> Type -> DsM ()
-warnAboutIdentities dflags (Var conv_fn) type_of_conv
+warnAboutIdentities :: DynFlags -> Id -> Type -> DsM ()
+warnAboutIdentities dflags conv_fn type_of_conv
| wopt Opt_WarnIdentities dflags
, idName conv_fn `elem` conversionNames
, Just (_, arg_ty, res_ty) <- splitFunTy_maybe type_of_conv