ClassAna.hs revision eee1316a9384b10682c998bd4b62b4a5ca2ce820
$Id$
Authors: Christian Maeder
Year: 2003
analyse given classes
-}
module HasCASL.ClassAna where
import HasCASL.As
import HasCASL.AsUtils()
import Common.Id
import HasCASL.Le
import Data.List
import Data.Maybe
import HasCASL.PrintAs()
import Common.PrettyPrint
import qualified Common.Lib.Map as Map
import qualified Common.Lib.Set as Set
import Common.Result
import HasCASL.Reader
-- ---------------------------------------------------------------------------
-- analyse class
-- ---------------------------------------------------------------------------
-- transitiv super classes
-- PRE: all superclasses and defns must be defined in ClassEnv
-- and there must be no cycle!
allSuperClasses :: ClassMap -> ClassId -> Set.Set ClassId
allSuperClasses ce ci =
let recurse = Set.unions . map (allSuperClasses ce) in
case Map.lookup ci ce of
Just info -> (case classDefn info of
Just (Intersection cis _) -> recurse $ Set.toList cis
_ -> Set.single ci)
`Set.union` recurse (Set.toList $ superClasses info)
Nothing -> error "allSuperClasses"
anaClassId :: ClassId -> ReadR ClassMap Kind
anaClassId ci =
do cMap <- ask
case Map.lookup ci cMap of
Nothing -> lift $ Result [mkDiag Error "undeclared class" ci]
Nothing
Just i -> return $ classKind i
expandKind :: Kind -> ReadR ClassMap Kind
expandKind (ExtClass c _ _) =
case c of
Intersection s _ ->
if Set.isEmpty s then return star else
anaClassId $ Set.findMin s
_ -> return star
expandKind (KindAppl k1 k2 ps) =
do k3 <- expandKind k1
k4 <- expandKind k2
return $ KindAppl k3 k4 ps
anaClass :: Class -> ReadR ClassMap (Kind, Class)
anaClass (Intersection s ps) =
do l <- foldReadR ( \ ci -> fmap ( \ ki -> (ki, ci) )
$ anaClassId ci) $ Set.toList s
let (ks, restCs) = unzip l
k = if null ks then star else head ks
foldReadR ( \ (ki, ci) ->
checkKinds (posOfId ci) k ki) l
return (k, Intersection (Set.fromList restCs) ps)
anaClass (Downset t) =
lift $ Result [downsetWarning t] $ Just (star, Downset t)
downsetWarning :: Type -> Diagnosis
downsetWarning t = mkDiag Warning "unchecked type" t
-- ----------------------------------------------------------------------------
-- analyse kind
-- ----------------------------------------------------------------------------
anaKind :: Kind -> ReadR ClassMap Kind
anaKind (KindAppl k1 k2 p) =
do k1e <- anaKind k1
k2e <- anaKind k2
return $ KindAppl k1e k2e p
anaKind (ExtClass k v p) =
do (_, c) <- anaClass k
return $ ExtClass c v p
-- ---------------------------------------------------------------------
-- comparing kinds
-- ---------------------------------------------------------------------
checkKinds :: Pos -> Kind -> Kind -> ReadR ClassMap ()
checkKinds p k1 k2 =
do k3 <- expandKind k1
k4 <- expandKind k2
lift $ Result (eqKindDiag p k3 k4) $ Just ()
eqKindDiag :: Pos -> Kind -> Kind -> [Diagnosis]
eqKindDiag p k1 k2 =
if eqKind k1 k2 then []
else [ Diag Error
("incompatible kinds\n" ++
indent 2 (showPretty k1 .
showChar '\n' .
showPretty k2) "")
$ p ]
eqKind :: Kind -> Kind -> Bool
eqKind (KindAppl p1 c1 _) (KindAppl p2 c2 _) =
eqKind p1 p2 && eqKind c1 c2
eqKind (ExtClass _ _ _) (ExtClass _ _ _) = True
eqKind _ _ = False
-- ---------------------------------------------------------------------