Print_AS.hs revision e9458b1a7a19a63aa4c179f9ab20f4d50681c168
{- |
Module : ./ExtModal/Print_AS.hs
Copyright : DFKI GmbH 2009
License : GPLv2 or higher, see LICENSE.txt
Maintainer : Christian.Maeder@dfki.de
Stability : experimental
Portability : portable
printing AS_ExtModal ExtModalSign data types
-}
module ExtModal.Print_AS where
import Common.Keywords
import Common.Doc
import Common.DocUtils
import Common.Id
import qualified Common.Lib.MapSet as MapSet
import qualified Data.Set as Set
import ExtModal.AS_ExtModal
import ExtModal.ExtModalSign
import ExtModal.Keywords
import CASL.AS_Basic_CASL (FORMULA (..))
import CASL.ToDoc
instance Pretty ModDefn where
pretty (ModDefn time term id_list ax_list _) = fsep
[(if time then keyword timeS else empty)
<+> (if term then keyword termS else empty)
<+> keyword modalityS
, semiAnnos pretty id_list
, if null ax_list then empty else
specBraces (vcat $ map pretty ax_list)]
instance Pretty FrameForm where
pretty (FrameForm l f _) = case f of
[] -> topSigKey (varS ++ pluralS l) <+> printVarDecls l
[s] | null l -> pretty s
_ | null l -> printAnnotedBulletFormulas f
_ -> fsep [fsep $ forallDoc : printVarDeclL l
, printAnnotedBulletFormulas f]
instance Pretty EM_BASIC_ITEM where
pretty itm = case itm of
ModItem md -> pretty md
Nominal_decl id_list _ -> sep [keyword nominalS, semiAnnos pretty id_list]
modPrec :: MODALITY -> Int
modPrec m = case m of
SimpleMod _ -> 0 -- strongest
TermMod _ -> 0 -- strongest
Guard _ -> 1
TransClos _ -> 2
ModOp Composition _ _ -> 3
ModOp Intersection _ _ -> 4
ModOp Union _ _ -> 5
ModOp OrElse _ _ -> 6 -- weakest
printMPrec :: Bool -> MODALITY -> MODALITY -> Doc
printMPrec b oP cP =
(if (if b then (>) else (>=)) (modPrec oP) $ modPrec cP then id else parens)
$ pretty cP
instance Pretty MODALITY where
pretty mdl = case mdl of
SimpleMod idt ->
if tokStr idt == emptyS then empty else pretty idt
TermMod t -> pretty t
Guard sen -> prJunct sen <> keyword quMark
TransClos md -> printMPrec False mdl md
<> keyword tmTransClosS
ModOp o md1 md2 -> fsep [printMPrec True mdl md1
, keyword (show o) <+> printMPrec False mdl md2]
prettyRigor :: Bool -> Doc
prettyRigor b = keyword $ if b then rigidS else flexibleS
instance Pretty EM_SIG_ITEM where
pretty (Rigid_op_items rig op_list _) =
fsep [prettyRigor rig <+> keyword (opS ++ pluralS op_list),
semiAnnos pretty op_list]
pretty (Rigid_pred_items rig pred_list _) =
fsep [prettyRigor rig <+> keyword (predS ++ pluralS pred_list),
semiAnnos pretty pred_list]
instance FormExtension EM_FORMULA where
isQuantifierLike ef = case ef of
UntilSince {} -> False
PrefixForm _ f _ -> isQuant f
_ -> True
prefixExt ef = case ef of
ModForm _ -> id
_ -> (bullet <+>)
isEMJunct :: FORMULA EM_FORMULA -> Bool
isEMJunct f = case f of
ExtFORMULA (UntilSince {}) -> True
_ -> isJunct f
prJunct :: FORMULA EM_FORMULA -> Doc
prJunct f = (if isEMJunct f then parens else id) $ pretty f
instance Pretty FormPrefix where
pretty fp = case fp of
BoxOrDiamond choice modality gEq number ->
let sp = case modality of
SimpleMod _ -> (<>)
_ -> (<+>)
mdl = pretty modality
in (case choice of
Box -> brackets mdl
Diamond -> less `sp` mdl `sp` greater
EBox -> text oB <> mdl <> text cB)
<+> if gEq && number == 1 then empty else
(if gEq then empty else keyword lessEq)
<> text (show number)
Hybrid choice nom ->
keyword (if choice then atS else hereS) <+> pretty nom
PathQuantification choice ->
keyword (if choice then allPathsS else somePathsS)
NextY choice ->
keyword (if choice then nextS else yesterdayS)
StateQuantification dir_choice choice ->
keyword (if dir_choice then if choice then generallyS else eventuallyS
else if choice then hithertoS else previouslyS)
FixedPoint choice p_var ->
keyword (if choice then muS else nuS) <+> pretty p_var <+> bullet
instance Pretty EM_FORMULA where
pretty ef = case ef of
PrefixForm p s _ -> (case p of
BoxOrDiamond _ m _ _ -> case m of
SimpleMod _ -> hsep
_ -> sep
_ -> hsep) [pretty p, prJunct s]
UntilSince choice s1 s2 _ -> printInfix True sep (prJunct s1)
(keyword $ if choice then untilS else sinceS)
$ prJunct s2
ModForm md -> pretty md
instance Pretty EModalSign where
pretty sign =
let mds = modalities sign
tims = timeMods sign
terms = termMods sign
nms = nominals sign in
printSetMap (keyword flexibleS <+> keyword opS) empty
(MapSet.toMap $ flexOps sign)
$+$
printSetMap (keyword flexibleS <+> keyword predS) space
(MapSet.toMap $ flexPreds sign)
$+$
vcat (map (\ i -> fsep
$ [keyword timeS | Set.member i tims]
++ [keyword termS | Set.member i terms]
++ [keyword modalityS, idDoc i])
$ Set.toList mds)
$+$
(if Set.null nms then empty else
keyword nominalS <+> sepBySemis (map idDoc (Set.toList nms)))