AsToLe.hs revision 7c554e9d4a39b8eb3b0881f20807c95dd8e793ae
{- HetCATS/HasCASL/AsToLe.hs
$Id$
Authors: Christian Maeder
Year: 2002
conversion of As.hs to Le.hs
-}
module HasCASL.AsToLe where
import Common.AS_Annotation
import HasCASL.As
import HasCASL.ClassAna
import HasCASL.ClassDecl
import Common.Id
import qualified Common.Lib.Set as Set
import HasCASL.Le
import Data.Maybe
import Common.Lib.State
import Common.Named
import Common.Result
import Common.PrettyPrint
import HasCASL.OpDecl
import HasCASL.TypeDecl
import HasCASL.MixAna
import HasCASL.Reader
----------------------------------------------------------------------------
-- analysis
-----------------------------------------------------------------------------
missingAna :: PrettyPrint a => a -> [Pos] -> State Env ()
missingAna t ps = appendDiags [Diag FatalError
("no analysis yet for: " ++ showPretty t "")
$ if null ps then nullPos else head ps]
anaBasicSpec :: BasicSpec -> State Env ()
anaBasicSpec (BasicSpec l) = mapM_ anaBasicItem $ map item l
anaBasicItem :: BasicItem -> State Env ()
anaBasicItem (SigItems i) = anaSigItems Loose i
anaBasicItem (ClassItems inst l _) = mapM_ (anaAnnotedClassItem inst) l
anaBasicItem (GenVarItems l _) = mapM_ anaGenVarDecl l
anaBasicItem t@(ProgItems _ p) = missingAna t p
anaBasicItem (FreeDatatype l _) = mapM_ (anaDatatype Free Plain) $ map item l
anaBasicItem (GenItems l _) = mapM_ (anaSigItems Generated) $ map item l
anaBasicItem (AxiomItems decls fs _) =
do tm <- gets typeMap -- save type map
as <- gets assumps -- save vars
mapM_ anaGenVarDecl decls
ds <- mapM (( \ (TermFormula t) ->
resolveTerm logicalType t ) . item) fs
putTypeMap tm -- restore
putAssumps as -- restore
appendDiags $ concatMap diags ds
let sens = concat $ zipWith ( \ r f ->
case maybeResult r of
Just t -> [NamedSen (getRLabel f) $ TermFormula t]
Nothing -> [] ) ds fs
appendSentences sens
appendSentences :: [Named Formula] -> State Env ()
appendSentences fs =
if null fs then return () else
do e <- get
put $ e {sentences = sentences e ++ fs}
anaSigItems :: GenKind -> SigItems -> State Env ()
anaSigItems gk (TypeItems inst l _) = mapM_ (anaTypeItem gk inst) $ map item l
anaSigItems _ (OpItems l _) = mapM_ anaOpItem $ map item l
----------------------------------------------------------------------------
-- GenVarDecl
-----------------------------------------------------------------------------
anaGenVarDecl :: GenVarDecl -> State Env ()
anaGenVarDecl(GenVarDecl v) = optAnaVarDecl v
anaGenVarDecl(GenTypeVarDecl t) = anaTypeVarDecl t
convertTypeToClass :: Type -> ReadR ClassMap Class
convertTypeToClass (TypeToken t) =
if tokStr t == "Type" then return universe else do
let ci = simpleIdToId t
mapReadR ( \ (Result _ m) ->
case m of
Just _ -> Result [] (Just $ Intersection
(Set.single ci) [])
Nothing -> Result
[mkDiag Hint "not a class" ci] Nothing )
$ anaClassId ci
convertTypeToClass (BracketType Parens ts ps) =
do cs <- mapM convertTypeToClass ts
return $ Intersection (Set.unions $ map iclass cs) ps
convertTypeToClass t = lift $ Result [mkDiag Hint "not a class" t] Nothing
convertTypeToKind :: Type -> ReadR ClassMap Kind
convertTypeToKind (FunType t1 FunArr t2 ps) =
do k1 <- convertTypeToKind t1
k2 <- convertTypeToKind t2
return $ KindAppl k1 k2 ps
convertTypeToKind (BracketType Parens [t] _) =
do k <- convertTypeToKind t
return $ k
convertTypeToKind (MixfixType [t1, TypeToken t]) =
let s = tokStr t
v = case s of
"+" -> CoVar
"-" -> ContraVar
_ -> InVar
in case v of
InVar -> lift $ Result [] Nothing
_ -> do k1 <- convertTypeToClass t1
return $ ExtClass k1 v [tokPos t]
convertTypeToKind t =
do c <- convertTypeToClass t
return $ ExtClass c InVar []
optAnaVarDecl, anaVarDecl :: VarDecl -> State Env ()
optAnaVarDecl vd@(VarDecl v t s q) =
if isSimpleId v then
do mc <- toMaybeState classMap $ convertTypeToKind t
case mc of
Just c -> anaTypeVarDecl(TypeArg v c s q)
Nothing -> anaVarDecl vd
else anaVarDecl vd
anaVarDecl(VarDecl v oldT _ _) =
do (k, t) <- anaTypeS (star, oldT)
checkKindsS v star k
addOpId v (simpleTypeScheme t) [] VarDefn
-- ----------------------------------------------------------------------------
-- ClassItem
-- ----------------------------------------------------------------------------
anaAnnotedClassItem :: Instance -> Annoted ClassItem -> State Env ()
anaAnnotedClassItem _ aci =
let ClassItem d l _ = item aci in
do anaClassDecls d
mapM_ anaBasicItem $ map item l