-unifyKinds _ _ = panic "unifyKinds: length mis-match"
-\end{code}
-
-\begin{code}
-unifyOpenTypeKind :: TcKind -> TcM ()
--- Ensures that the argument kind is of the form (Type bx)
--- for some boxity bx
-
-unifyOpenTypeKind ty@(TyVarTy tyvar)
- = getTcTyVar tyvar `thenM` \ maybe_ty ->
- case maybe_ty of
- Just ty' -> unifyOpenTypeKind ty'
- other -> unify_open_kind_help ty
-
-unifyOpenTypeKind ty
- | isTypeKind ty = returnM ()
- | otherwise = unify_open_kind_help ty
-
-unify_open_kind_help ty -- Revert to ordinary unification
- = newOpenTypeKind `thenM` \ open_kind ->
- unifyKind ty open_kind
+unifyKinds _ _ = panic "unifyKinds: length mis-match"
+
+----------------
+uKVar :: Bool -> KindVar -> TcKind -> TcM ()
+uKVar swapped kv1 k2
+ = do { mb_k1 <- readKindVar kv1
+ ; case mb_k1 of
+ Nothing -> uUnboundKVar swapped kv1 k2
+ Just k1 | swapped -> unifyKind k2 k1
+ | otherwise -> unifyKind k1 k2 }
+
+----------------
+uUnboundKVar :: Bool -> KindVar -> TcKind -> TcM ()
+uUnboundKVar swapped kv1 k2@(KindVar kv2)
+ | kv1 == kv2 = returnM ()
+ | otherwise -- Distinct kind variables
+ = do { mb_k2 <- readKindVar kv2
+ ; case mb_k2 of
+ Just k2 -> uUnboundKVar swapped kv1 k2
+ Nothing -> writeKindVar kv1 k2 }
+
+uUnboundKVar swapped kv1 non_var_k2
+ = do { k2' <- zonkTcKind non_var_k2
+ ; kindOccurCheck kv1 k2'
+ ; k2'' <- kindSimpleKind swapped k2'
+ -- KindVars must be bound only to simple kinds
+ -- Polarities: (kindSimpleKind True ?) succeeds
+ -- returning *, corresponding to unifying
+ -- expected: ?
+ -- actual: kind-ver
+ ; writeKindVar kv1 k2'' }
+
+----------------
+kindOccurCheck kv1 k2 -- k2 is zonked
+ = checkTc (not_in k2) (kindOccurCheckErr kv1 k2)
+ where
+ not_in (KindVar kv2) = kv1 /= kv2
+ not_in (FunKind a2 r2) = not_in a2 && not_in r2
+ not_in other = True
+
+kindSimpleKind :: Bool -> Kind -> TcM SimpleKind
+-- (kindSimpleKind True k) returns a simple kind sk such that sk <: k
+-- If the flag is False, it requires k <: sk
+-- E.g. kindSimpleKind False ?? = *
+-- What about (kv -> *) :=: ?? -> *
+kindSimpleKind orig_swapped orig_kind
+ = go orig_swapped orig_kind
+ where
+ go sw (FunKind k1 k2) = do { k1' <- go (not sw) k1
+ ; k2' <- go sw k2
+ ; return (FunKind k1' k2') }
+ go True OpenTypeKind = return liftedTypeKind
+ go True ArgTypeKind = return liftedTypeKind
+ go sw LiftedTypeKind = return liftedTypeKind
+ go sw k@(KindVar _) = return k -- KindVars are always simple
+ go swapped kind = failWithTc (ptext SLIT("Unexpected kind unification failure:")
+ <+> ppr orig_swapped <+> ppr orig_kind)
+ -- I think this can't actually happen
+
+-- T v = MkT v v must be a type
+-- T v w = MkT (v -> w) v must not be an umboxed tuple
+
+----------------
+kindOccurCheckErr tyvar ty
+ = hang (ptext SLIT("Occurs check: cannot construct the infinite kind:"))
+ 2 (sep [ppr tyvar, char '=', ppr ty])
+
+unifyKindMisMatch ty1 ty2
+ = zonkTcKind ty1 `thenM` \ ty1' ->
+ zonkTcKind ty2 `thenM` \ ty2' ->
+ let
+ msg = hang (ptext SLIT("Couldn't match kind"))
+ 2 (sep [quotes (ppr ty1'),
+ ptext SLIT("against"),
+ quotes (ppr ty2')])
+ in
+ failWithTc msg