AsUtils.hs revision 7dec34aee2b609b9535c48d060e0f7baf3536457
{- |
Module : $Header$
Copyright : (c) Christian Maeder and Uni Bremen 2003
Licence : similar to LGPL, see HetCATS/LICENCE.txt or LIZENZ.txt
Maintainer : hets@tzi.de
Stability : experimental
Portability : portable
compute meaningful positions for various data types of the abstract syntax
-}
module HasCASL.AsUtils where
import HasCASL.As
import HasCASL.PrintAs -- to reexport instances
import Common.Id
import Common.PrettyPrint
-- | extract bindings from an analysed pattern
extractVars :: Pattern -> [VarDecl]
extractVars pat =
case pat of
QualVar vd -> getVd vd
ApplTerm p1 p2 _ ->
extractVars p1 ++ extractVars p2
TupleTerm pats _ -> concatMap extractVars pats
TypedTerm p _ _ _ -> extractVars p
AsPattern v p2 _ -> getVd v ++ extractVars p2
ResolvedMixTerm _ pats _ -> concatMap extractVars pats
_ -> []
where getVd vd@(VarDecl v _ _ _) = if showId v "" == "_" then [] else [vd]
-- | construct term from id
mkOpTerm :: Id -> TypeScheme -> Term
mkOpTerm i sc = QualOp Op (InstOpId i [] []) sc []
-- | bind a term
mkForall :: [GenVarDecl] -> Term -> Term
mkForall vl f = if null vl then f else QuantifiedTerm Universal vl f []
-- | construct application with curried arguments
mkApplTerm :: Term -> [Term] -> Term
mkApplTerm trm args = if null args then trm
else mkApplTerm (ApplTerm trm (head args) []) $ tail args
-- | get the type of a constructor with given curried argument types
getConstrType :: DataPat -> Partiality -> [Type] -> Type
getConstrType dt p ts = (case p of
Total -> id
Partial -> addPartiality ts) $
foldr ( \ c r -> FunType c FunArr r [] )
(typeIdToType dt) ts
-- | make function arrow partial after some arguments
addPartiality :: [a] -> Type -> Type
addPartiality as t = case as of
[] -> LazyType t []
_ : rs -> case t of
FunType t1 a t2 ps -> if null rs then FunType t1 PFunArr t2 ps
else FunType t1 a (addPartiality rs t2) ps
_ -> error "addPartiality"
-- | get the partiality from a constructor type
-- with a given number of curried arguments
getPartiality :: [a] -> Type -> Partiality
getPartiality as t = case t of
KindedType ty _ _ -> getPartiality as ty
FunType _ a t2 _ -> case as of
[] -> Total
[_] -> case a of
PFunArr -> Partial
PContFunArr -> Partial
_ -> Total
_:rs -> getPartiality rs t2
LazyType _ _ -> if null as then Partial else error "getPartiality"
_ -> Total
type DataPat = (Id, [TypeArg], Kind)
-- | compute the type given by the input
typeIdToType :: DataPat -> Type
typeIdToType (i, nAs, k) = let
fullKind = typeArgsListToKind nAs k
ti = TypeName i fullKind 0
mkType _ ty [] = ty
mkType n ty ((TypeArg ai ak _ _): rest) =
mkType (n-1) (TypeAppl ty (TypeName ai ak n)) rest
in mkType (-1) ti nAs
-- | extent a kind to expect further type arguments
typeArgsListToKind :: [TypeArg] -> Kind -> Kind
typeArgsListToKind tArgs k =
if null tArgs then k
else typeArgsListToKind (init tArgs)
(FunKind (( \ (TypeArg _ xk _ _) -> xk) $ last tArgs) k [])
-- | generate a comparison string
expected :: PrettyPrint a => a -> a -> String
expected a b =
"\n expected: " ++ showPretty a
"\n found: " ++ showPretty b "\n"
instance PosItem Kind where
get_pos = Just . posOfKind
posOfKind :: Kind -> Pos
posOfKind k =
case k of
MissingKind -> nullPos
ClassKind c _ -> posOfId c
Downset _ t _ ps -> firstPos [t] ps
Intersection ks ps -> firstPos ks ps
FunKind k1 _ ps -> firstPos [k1] ps
ExtKind ek _ ps -> firstPos [ek] ps
-- ---------------------------------------------------------------------
posOfVars :: Vars -> Pos
posOfVars vr =
case vr of
Var v -> posOfId v
VarTuple vs ps -> firstPos vs ps
instance PosItem Vars where
get_pos = Just . posOfVars
instance PosItem TypePattern where
get_pos = Just . posOfTypePattern
posOfTypeArg :: TypeArg -> Pos
posOfTypeArg (TypeArg t _ _ ps) = firstPos [t] ps
instance PosItem TypeArg where
get_pos = Just . posOfTypeArg
posOfTypePattern :: TypePattern -> Pos
posOfTypePattern pat =
case pat of
TypePattern t _ _ -> posOfId t
TypePatternToken t -> tokPos t
MixfixTypePattern ts -> posOf ts
BracketTypePattern _ ts ps -> firstPos ts ps
TypePatternArg (TypeArg t _ _ _) _ -> posOfId t
-- ---------------------------------------------------------------------
instance PosItem TypeScheme where
get_pos (TypeScheme tArgs _ ps) = Just $ firstPos tArgs ps
instance PosItem Type where
get_pos = Just . posOfType
posOfType :: Type -> Pos
posOfType ty =
case ty of
TypeName i _ _ -> posOfId i
TypeAppl t1 t2 -> posOf [t1, t2]
ExpandedType t1 t2 -> posOf [t1, t2]
TypeToken t -> tokPos t
BracketType _ ts ps -> firstPos ts ps
KindedType t _ ps -> firstPos [t] ps
MixfixType ts -> posOf ts
LazyType t ps -> firstPos [t] ps
ProductType ts ps -> firstPos ts ps
FunType t1 _ t2 ps -> firstPos [t1,t2] ps
-- ---------------------------------------------------------------------
instance PosItem Term where
get_pos = Just . posOfTerm
posOfTerm :: Term -> Pos
posOfTerm trm =
case trm of
QualVar v -> posOfVarDecl v
QualOp _ (InstOpId i _ ps) _ qs -> firstPos [i] (ps++qs)
ResolvedMixTerm i _ _ -> posOfId i
ApplTerm t1 t2 ps -> firstPos [t1, t2] ps
TupleTerm ts ps -> firstPos ts ps
TypedTerm t _ _ ps -> firstPos [t] ps
QuantifiedTerm _ _ t ps -> firstPos [t] ps
LambdaTerm _ _ t ps -> firstPos [t] ps
CaseTerm t _ ps -> firstPos [t] ps
LetTerm _ _ t ps -> firstPos [t] ps
TermToken t -> tokPos t
MixTypeTerm _ t ps -> firstPos [t] ps
MixfixTerm ts -> posOf ts
BracketTerm _ ts ps -> firstPos ts ps
AsPattern v _ ps -> firstPos [v] ps
-- ---------------------------------------------------------------------
posOfVarDecl :: VarDecl -> Pos
posOfVarDecl (VarDecl v _ _ ps) = firstPos [v] ps
instance PosItem VarDecl where
get_pos = Just . posOfVarDecl