module Language.Clafer.Intermediate.Tracing (traceIrModule, traceAstModule, Ast(..)) where
import Data.Map (Map)
import qualified Data.Map as Map
import Language.Clafer.Front.AbsClafer
import Language.Clafer.Intermediate.Intclafer
traceIrModule :: IModule -> Map Span [Ir]
traceIrModule = foldMapIR getMap
where
insert :: Span -> Ir -> Map Span [Ir] -> Map Span [Ir]
insert k a = Map.insertWith (++) k [a]
getMap :: Ir -> Map Span [Ir]
getMap (IRPExp (p@PExp{_inPos = s})) = insert s (IRPExp p) Map.empty
getMap (IRClafer (c@IClafer{_cinPos = s})) = insert s (IRClafer c) Map.empty
getMap _ = Map.empty
traceAstModule :: Module -> Map Span [Ast]
traceAstModule x =
foldr
ins
Map.empty
(traverseModule x)
where
ins y = Map.insertWith (++) (i y) [y]
i (AstModule a) = getSpan a
i (AstDeclaration a) = getSpan a
i (AstClafer a) = getSpan a
i (AstConstraint a) = getSpan a
i (AstSoftConstraint a) = getSpan a
i (AstGoal a) = getSpan a
i (AstAbstract a) = getSpan a
i (AstElements a) = getSpan a
i (AstElement a) = getSpan a
i (AstSuper a) = getSpan a
i (AstReference a) = getSpan a
i (AstInit a) = getSpan a
i (AstInitHow a) = getSpan a
i (AstGCard a) = getSpan a
i (AstCard a) = getSpan a
i (AstNCard a) = getSpan a
i (AstExInteger a) = getSpan a
i (AstName a) = getSpan a
i (AstExp a) = getSpan a
i (AstSetExp a) = getSpan a
i (AstDecl a) = getSpan a
i (AstQuant a) = getSpan a
i (AstEnumId a) = getSpan a
i (AstModId a) = getSpan a
i (AstLocId a) = getSpan a
traverseModule :: Module -> [Ast]
traverseModule x@(Module _ d) = AstModule x : concatMap traverseDeclaration d
traverseDeclaration :: Declaration -> [Ast]
traverseDeclaration x =
AstDeclaration x :
case x of
EnumDecl _ _ e -> concatMap traverseEnumId e
ElementDecl _ e -> traverseElement e
traverseClafer :: Clafer -> [Ast]
traverseClafer x@(Clafer _ a b _ d r e f g) = AstClafer x : (traverseAbstract a ++ traverseGCard b ++ traverseSuper d ++ traverseReference r ++ traverseCard e ++ traverseInit f ++ traverseElements g)
traverseConstraint :: Constraint -> [Ast]
traverseConstraint x@(Constraint _ e) = AstConstraint x : concatMap traverseExp e
traverseSoftConstraint :: SoftConstraint -> [Ast]
traverseSoftConstraint x@(SoftConstraint _ e) = AstSoftConstraint x : concatMap traverseExp e
traverseGoal :: Goal -> [Ast]
traverseGoal x@(Goal _ e) = AstGoal x : concatMap traverseExp e
traverseAbstract :: Abstract -> [Ast]
traverseAbstract x =
AstAbstract x : []
traverseElements :: Elements -> [Ast]
traverseElements x =
AstElements x :
case x of
ElementsEmpty _ -> []
ElementsList _ e -> concatMap traverseElement e
traverseElement :: Element -> [Ast]
traverseElement x =
AstElement x :
case x of
Subclafer _ c -> traverseClafer c
ClaferUse _ n c e -> traverseName n ++ traverseCard c ++ traverseElements e
Subconstraint _ c -> traverseConstraint c
Subgoal _ g -> traverseGoal g
Subsoftconstraint _ c -> traverseSoftConstraint c
traverseSuper :: Super -> [Ast]
traverseSuper x =
AstSuper x :
case x of
SuperEmpty _ -> []
SuperSome _ se -> traverseSetExp se
traverseReference :: Reference -> [Ast]
traverseReference x =
AstReference x :
case x of
ReferenceEmpty _ -> []
ReferenceSet _ se -> traverseSetExp se
ReferenceBag _ se -> traverseSetExp se
traverseInit :: Init -> [Ast]
traverseInit x =
AstInit x :
case x of
InitEmpty _ -> []
InitSome _ ih e -> traverseInitHow ih ++ traverseExp e
traverseInitHow :: InitHow -> [Ast]
traverseInitHow x =
AstInitHow x : []
traverseGCard :: GCard -> [Ast]
traverseGCard x =
AstGCard x :
case x of
GCardEmpty _ -> []
GCardXor _ -> []
GCardOr _ -> []
GCardMux _ -> []
GCardOpt _ -> []
GCardInterval _ n -> traverseNCard n
traverseCard :: Card -> [Ast]
traverseCard x =
AstCard x :
case x of
CardEmpty _ -> []
CardLone _ -> []
CardSome _ -> []
CardAny _ -> []
CardNum _ _ -> []
CardInterval _ n -> traverseNCard n
traverseNCard :: NCard -> [Ast]
traverseNCard x@(NCard _ _ e) = AstNCard x : traverseExInteger e
traverseExInteger :: ExInteger -> [Ast]
traverseExInteger x =
AstExInteger x : []
traverseName :: Name -> [Ast]
traverseName x@(Path _ m) = AstName x : concatMap traverseModId m
traverseExp :: Exp -> [Ast]
traverseExp x =
AstExp x :
case x of
DeclAllDisj _ d e -> traverseDecl d ++ traverseExp e
DeclAll _ d e -> traverseDecl d ++ traverseExp e
DeclQuantDisj _ q d e -> traverseQuant q ++ traverseDecl d ++ traverseExp e
DeclQuant _ q d e -> traverseQuant q ++ traverseDecl d ++ traverseExp e
EGMax _ e -> traverseExp e
EGMin _ e -> traverseExp e
EIff _ e1 e2 -> traverseExp e1 ++ traverseExp e2
EImplies _ e1 e2 -> traverseExp e1 ++ traverseExp e2
EOr _ e1 e2 -> traverseExp e1 ++ traverseExp e2
EXor _ e1 e2 -> traverseExp e1 ++ traverseExp e2
EAnd _ e1 e2 -> traverseExp e1 ++ traverseExp e2
ENeg _ e -> traverseExp e
ELt _ e1 e2 -> traverseExp e1 ++ traverseExp e2
EGt _ e1 e2 -> traverseExp e1 ++ traverseExp e2
EEq _ e1 e2 -> traverseExp e1 ++ traverseExp e2
ELte _ e1 e2 -> traverseExp e1 ++ traverseExp e2
EGte _ e1 e2 -> traverseExp e1 ++ traverseExp e2
ENeq _ e1 e2 -> traverseExp e1 ++ traverseExp e2
EIn _ e1 e2 -> traverseExp e1 ++ traverseExp e2
ENin _ e1 e2 -> traverseExp e1 ++ traverseExp e2
QuantExp _ q e -> traverseQuant q ++ traverseExp e
EAdd _ e1 e2 -> traverseExp e1 ++ traverseExp e2
ESub _ e1 e2 -> traverseExp e1 ++ traverseExp e2
EMul _ e1 e2 -> traverseExp e1 ++ traverseExp e2
EDiv _ e1 e2 -> traverseExp e1 ++ traverseExp e2
ECSetExp _ e -> traverseExp e
EMinExp _ e -> traverseExp e
EImpliesElse _ e1 e2 e3 -> traverseExp e1 ++ traverseExp e2 ++ traverseExp e3
EInt _ _ -> []
EDouble _ _ -> []
EStr _ _ -> []
ESetExp _ s -> traverseSetExp s
_ -> error "Invalid argument given to function traverseExp from Tracing"
traverseSetExp :: SetExp -> [Ast]
traverseSetExp x =
AstSetExp x :
case x of
Union _ s1 s2 -> traverseSetExp s1 ++ traverseSetExp s2
UnionCom _ s1 s2 -> traverseSetExp s1 ++ traverseSetExp s2
Difference _ s1 s2 -> traverseSetExp s1 ++ traverseSetExp s2
Intersection _ s1 s2 -> traverseSetExp s1 ++ traverseSetExp s2
Domain _ s1 s2 -> traverseSetExp s1 ++ traverseSetExp s2
Range _ s1 s2 -> traverseSetExp s1 ++ traverseSetExp s2
Join _ s1 s2 -> traverseSetExp s1 ++ traverseSetExp s2
ClaferId _ n -> traverseName n
traverseDecl :: Decl -> [Ast]
traverseDecl x@(Decl _ l s) =
AstDecl x : (concatMap traverseLocId l ++ traverseSetExp s)
traverseQuant :: Quant -> [Ast]
traverseQuant x =
AstQuant x : []
traverseEnumId :: EnumId -> [Ast]
traverseEnumId _ = []
traverseModId :: ModId -> [Ast]
traverseModId _ = []
traverseLocId :: LocId -> [Ast]
traverseLocId _ = []
data Ast =
AstModule Module |
AstDeclaration Declaration |
AstClafer Clafer |
AstConstraint Constraint |
AstSoftConstraint SoftConstraint |
AstGoal Goal |
AstAbstract Abstract |
AstElements Elements |
AstElement Element |
AstSuper Super |
AstReference Reference |
AstInit Init |
AstInitHow InitHow |
AstGCard GCard |
AstCard Card |
AstNCard NCard |
AstExInteger ExInteger |
AstName Name |
AstExp Exp |
AstSetExp SetExp |
AstDecl Decl |
AstQuant Quant |
AstEnumId EnumId |
AstModId ModId |
AstLocId LocId
deriving (Eq, Show)