module Language.Clafer.Generator.Xml where
import Language.Clafer.Common
import Language.Clafer.Front.Absclafer
import Language.Clafer.Intermediate.Intclafer
tag :: String -> String -> String
tag name exp' = concat ["<", name, ">", exp', "</", name, ">\n"]
optTag :: Maybe a -> (a -> String) -> String
optTag ele f = maybe "" f ele
tagType :: String -> String -> String -> String
tagType name typename exp' = opening ++ rest
where
opening = concat ["<", name, " xsi:type=\"cl:", typename, "\""]
rest
| null exp' = " />"
| otherwise = concat [">", exp', "</", name, ">"]
genXmlInteger :: Integer -> String
genXmlInteger n = tag "IntLiteral" $ show n
genXmlBoolean :: String -> Bool -> String
genXmlBoolean label b = tag label $ toLowerS $ show b
genXmlString :: String -> String
genXmlString str = tag "StringLiteral" str
genXmlIntPair :: (Integer, Integer) -> String
genXmlIntPair (x, y) = concat
[ genXmlInteger x
, genXmlInteger y]
genXmlModule :: IModule -> Result
genXmlModule imodule = concat
[ "<?xml version=\"1.0\"?>"
, "<Module xmlns=\"http://clafer.org/ir\""
, " xmlns:xsi=\"http://www.w3.org/2001/XMLSchema-instance\""
, " xmlns:cl=\"http://clafer.org/ir\""
, " xsi:schemaLocation=\"http://clafer.org/ir https://github.com/gsdlab/clafer/blob/master/src/ClaferIR.xsd\">"
, tag "Name" $ _mName imodule
, concatMap genXmlElement $ _mDecls imodule
, "</Module>"]
genXmlClafer :: IClafer -> Result
genXmlClafer x = case x of
IClafer pos abstract gcrd id' uid' super' crd glcard es ->
concat [ tag "Position" $ genXmlPosition pos
, genXmlAbstract abstract
, optTag gcrd genXmlGCard
, genXmlId id'
, genXmlUid uid'
, genXmlSuper super'
, optTag crd genXmlCard
, genXmlGlCard glcard
, concatMap genXmlElement es]
genXmlAbstract :: Bool -> String
genXmlAbstract isAbs = genXmlBoolean "IsAbstract" isAbs
genXmlGCard :: IGCard -> String
genXmlGCard (IGCard isKeyword' interval') = tag "GroupCard" $ concat
[ genXmlBoolean "IsKeyword" isKeyword'
, tag "Interval" $ genXmlInterval interval']
genXmlInterval :: (Integer, Integer) -> String
genXmlInterval (nMin, nMax) = concat
[ tag "Min" $ genXmlInteger nMin
, tag "Max" $ genXmlInteger nMax]
genXmlId :: String -> String
genXmlId ident' = tag "Id" ident'
genXmlUid :: String -> String
genXmlUid uid' = tag "UniqueId" uid'
genXmlSuper :: ISuper -> String
genXmlSuper x = case x of
ISuper isOverlapping' pexps -> tag "Supers" $ concat
[ genXmlBoolean "IsOverlapping" isOverlapping'
, concatMap (genXmlPExp "Super") pexps]
genXmlCard :: (Integer, Integer) -> String
genXmlCard interval' = tag "Card" $ genXmlInterval interval'
genXmlGlCard :: (Integer, Integer) -> String
genXmlGlCard interval' = tag "GlobalCard" $ genXmlInterval interval'
genXmlElement :: IElement -> String
genXmlElement x = case x of
IEClafer clafer -> tagType "Declaration" "IClafer" $ genXmlClafer clafer
IEConstraint isHard' pexp -> tagType "Declaration" "IConstraint" $ concat
[ genXmlBoolean "IsHard" isHard'
, genXmlPExp "ParentExp" pexp]
IEGoal isMaximize' pexp -> tagType "Declaration" "IGoal" $ concat
[ genXmlBoolean "IsMaximize" isMaximize'
, genXmlPExp "ParentExp" pexp]
genXmlAnyOp :: (a -> String) -> (a -> String) -> [(String, a)] -> String
genXmlAnyOp ft f xs = concatMap
(\(tname, texp) -> tagType tname (ft texp) $ f texp) xs
genXmlPExp :: String -> PExp -> String
genXmlPExp tagName (PExp iType' pid' pos' iexp) = tag tagName $ concat
[ optTag iType' genXmlIType
, tag "ParentId" pid'
, tag "Position" $ genXmlPosition pos'
, tagType "Exp" (genXmlIExpType iexp) $ genXmlIExp iexp]
genXmlPosition :: Span -> String
genXmlPosition (Span (Pos s1 s2) (Pos e1 e2)) = concat
[ tag "Start" $ genXmlIntPair (s1, s2)
, tag "End" $ genXmlIntPair (e1, e2)]
genXmlIExpType :: IExp -> String
genXmlIExpType x = case x of
IDeclPExp _ _ _ -> "IDeclarationParentExp"
IFunExp _ _ -> "IFunctionExp"
IInt _ -> "IIntExp"
IDouble _ -> "IDoubleExp"
IStr _ -> "IStringExp"
IClaferId _ _ _ -> "IClaferId"
genXmlIExp :: IExp -> String
genXmlIExp x = case x of
IDeclPExp quant' decls' pexp -> concat
[ tagType "Quantifier" (genXmlQuantType quant') ""
, concatMap genXmlDecl decls'
, genXmlPExp "BodyParentExp" pexp]
IFunExp op' exps' -> concat
[ tag "Operation" $ concatMap escape op'
, concatMap (genXmlPExp "Argument") exps']
where
escape '\"' = """
escape '\'' = "'"
escape '<' = "<"
escape '>' = ">"
escape '&' = "&"
escape y = [y]
IInt n -> genXmlInteger n
IDouble n -> tag "DoubleLiteral" $ show n
IStr str -> genXmlString str
IClaferId modName' sident' isTop' -> concat
[ tag "ModuleName" modName'
, tag "Id" sident'
, genXmlBoolean "IsTop" isTop']
genXmlDecl :: IDecl -> String
genXmlDecl (IDecl disj locids pexp) = tag "Declaration" $ concat
[ genXmlBoolean "IsDisjunct" disj
, concatMap (tag "LocalDeclaration") locids
, genXmlPExp "Body" pexp]
genXmlQuantType :: IQuant -> String
genXmlQuantType x = case x of
INo -> "INo"
ILone -> "ILone"
IOne -> "IOne"
ISome -> "ISome"
IAll -> "IAll"
genXmlITypeType :: IType -> String
genXmlITypeType x = case x of
TBoolean -> "IBoolean"
TString -> "IString"
TInteger -> "IInteger"
TReal -> "IReal"
TClafer _ -> "ISet"
genXmlIType :: IType -> String
genXmlIType x = tagType "Type" (genXmlITypeType x) ""