As.hs revision b87efd3db0d2dc41615ea28669faf80fc1b48d56
{- |
Module : $Header$
Description : abstract ADL syntax
Copyright : (c) Stef Joosten, Christian Maeder DFKI GmbH 2010
License : GPLv2 or higher
Maintainer : Christian.Maeder@dfki.de
Stability : provisional
Portability : portable
-}
module Adl.As where
import Data.Char
import Common.Id
data Concept
= C Token -- ^ The name of this Concept
| Anything -- ^ Really anything as introduced by I and V
deriving (Eq, Ord, Show)
instance GetRange Concept where
getRange c = case c of
C t -> getRange t
Anything -> nullRange
rangeSpan c = case c of
C t -> rangeSpan t
Anything -> []
data Relation = Sgn
{ decnm :: Token -- ^ the name
, desrc :: Concept -- ^ the source concept
, detrg :: Concept -- ^ the target concept
} deriving (Eq, Ord, Show)
instance GetRange Relation where
getRange = getRange . decnm
rangeSpan (Sgn t c1 c2) =
joinRanges [rangeSpan t, rangeSpan c1, rangeSpan c2]
data UnOp
= K0 -- ^ Reflexive and transitive closure *
| K1 -- ^ Transitive closure +
| Cp -- ^ Complement -
| Co -- ^ Converse ~
deriving (Eq, Ord, Show)
data MulOp
= Fc -- ^ composition ;
| Fd -- ^ relative addition !
| Fi -- ^ intersection /\.
| Fu -- ^ union \/
deriving (Eq, Ord, Show)
data Expression
= Tm Relation
| MulExp MulOp [Expression]
| UnExp UnOp Expression
deriving (Eq, Ord, Show)
instance GetRange Expression where
getRange e = case e of
Tm r -> getRange r
UnExp _ f -> getRange f
MulExp _ es -> concatMapRange getRange es
rangeSpan e = case e of
Tm r -> rangeSpan r
UnExp _ f -> rangeSpan f
MulExp _ es -> joinRanges $ map rangeSpan es
data RuleType = Implication | ReverseImpl | Equivalence deriving (Eq, Ord, Show)
data Rule
= Rule Expression RuleType Expression
| Truth Expression
deriving (Eq, Ord, Show)
instance GetRange Rule where
getRange r = case r of
Rule e1 _ e2 -> concatMapRange getRange [e1, e2]
Truth e -> getRange e
rangeSpan r = case r of
Rule e1 _ e2 -> joinRanges [rangeSpan e1, rangeSpan e2]
Truth e -> rangeSpan e
data Prop
= Uni -- ^ univalent
| Inj -- ^ injective
| Sur -- ^ surjective
| Tot -- ^ total
| Sym -- ^ symmetric
| Asy -- ^ antisymmetric
| Trn -- ^ transitive
| Rfx -- ^ reflexive
| Prop -- ^ meta property
deriving (Enum, Eq, Ord, Show)
showUp :: Show a => a -> String
showUp = map toUpper . show
allProps :: [Prop]
allProps = [Uni .. Rfx]
data RangedProp = RangedProp
{ propProp :: Prop
, propRange :: Range }
deriving (Eq, Ord, Show) -- should be fine since ranges are always equal
instance GetRange RangedProp where
getRange = propRange
rangeSpan (RangedProp p r) = tokenRange (Token (show p) r)
-- | create a ranged property
rProp :: Prop -> RangedProp
rProp p = RangedProp p nullRange
data Object = Object
{ label :: Token
, expr :: Expression
, props :: [RangedProp]
, subobjs :: [Object]
} deriving Show
data KeyAtt = KeyAtt (Maybe Token) Expression deriving Show
instance GetRange KeyAtt where
getRange (KeyAtt _ e) = getRange e
rangeSpan (KeyAtt _ e) = rangeSpan e
data KeyDef = KeyDef
{ kdlbl :: Token
, kdcpt :: Concept
, kdats :: [KeyAtt]
} deriving Show
instance GetRange KeyDef where
getRange (KeyDef _ c _) = getRange c
rangeSpan (KeyDef _ c as) = joinRanges [rangeSpan c, rangeSpan as]
data RuleKind = SignalOn | Signals | Maintains deriving (Eq, Ord, Show)
showRuleKind :: RuleKind -> String
showRuleKind k = if k == SignalOn then "ON"
else showUp k
data RuleHeader = Always | RuleHeader RuleKind Token deriving Show
data Pair = Pair Token Token deriving Show
data Plugin = Service | Sqlplug | Phpplug deriving Show
data PatElem
= Pr RuleHeader Rule
| Pg Concept Concept -- specific and generic concept
| Pk KeyDef
| Pm [RangedProp] Relation Bool -- True indicates population
| Plug Plugin Object
| Population Bool Relation [Pair] -- True indicates declaration
deriving Show
data Context = Context (Maybe Token) [PatElem] deriving Show
instance GetRange Context where
getRange (Context mt _) = getRange mt