{- |

Module : $Header$

Copyright : (c) Christian Maeder and Uni Bremen 2002-2003

Maintainer : maeder@tzi.de

Stability : experimental

Portability : portable

pretty printing a HasCASL environment

-}

module HasCASL.PrintLe where

import HasCASL.As

import HasCASL.AsUtils

import HasCASL.PrintAs

import HasCASL.Le

import HasCASL.Builtin

import Common.Id

import Common.Doc

import Common.DocUtils

import qualified Common.Lib.Map as Map

import qualified Common.Lib.Set as Set

import Common.Keywords

import Data.List

instance Pretty ClassInfo where

pretty (ClassInfo rk ks) = case ks of

[] -> colon <+> pretty rk

_ -> text lessS <+> printList0 ks

printGenKind :: GenKind -> Doc

printGenKind k = case k of

Loose -> empty

Free -> text freeS

Generated -> text generatedS

instance Pretty TypeDefn where

pretty td = case td of

NoTypeDefn -> empty

PreDatatype -> text "%(data type)%"

AliasTypeDefn s -> text assignS <+> printPseudoType s

DatatypeDefn dd -> text " %[" <> pretty dd <> text "]%"

printAltDefn :: Id -> [TypeArg] -> RawKind -> AltDefn -> Doc

printAltDefn dt tArgs rk (Construct mi ts p sels) = case mi of

Just i -> fcat $ [pretty i <> space, colon <> space,

pretty (createConstrType dt tArgs rk p ts)]

++ map (parens . semiDs) sels

Nothing -> text (typeS ++ sS) <+> commaDs ts

instance Pretty Selector where

pretty (Select mi t p) =

(case mi of

Just i -> pretty i <+> (case p of

Partial -> text colonQuMark

Total -> colon) <> space

Nothing -> empty) <> pretty t

instance Pretty TypeInfo where

pretty (TypeInfo _ ks sups def) =

fsep $ [colon, printList0 ks]

++ (if Set.null sups then []

else [less, printList0 $ Set.toList sups])

++ case def of

NoTypeDefn -> []

_ -> [pretty def]

instance Pretty TypeVarDefn where

pretty (TypeVarDefn v vk _ i) =

printVarKind v vk <+> text ("%(var_" ++ shows i ")%")

instance Pretty VarDefn where

pretty (VarDefn ty) =

colon <+> pretty ty

instance Pretty ConstrInfo where

pretty (ConstrInfo i t) =

pretty i <+> colon <+> pretty t

instance Pretty OpDefn where

pretty od = case od of

NoOpDefn b -> text $ "%(" ++ shows b ")%"

ConstructData i -> text $ "%(construct " ++ showId i ")%"

SelectData c i -> text ("%(select from " ++ showId i " constructed by")

$+$ printList0 c <> text ")%"

Definition b t -> fsep [pretty $ NoOpDefn b, equals, pretty t]

instance Pretty OpInfo where

pretty o = let l = opAttrs o in

fsep $ [ colon

, pretty (opType o) <> if null l then empty else comma]

++ punctuate comma (map pretty l)

++ [pretty $ opDefn o]

instance Pretty OpInfos where

pretty (OpInfos l) = vcat $ map pretty l

instance Pretty DataEntry where

pretty (DataEntry im i k args rk alts) =

printGenKind k <+> keyword typeS <+>

fsep ([fcat $ pretty i : map (parens . pretty) args

, defn, vcat $ map (printAltDefn i args rk) alts]

++ if Map.null im then []

else [text withS, text (typeS ++ sS), printMap0 im])

instance Pretty Sentence where

pretty s = case s of

Formula t -> pretty t

DatatypeSen ls -> vcat (map pretty ls)

ProgEqSen _ _ pe -> keyword programS <+> pretty pe

instance Pretty Env where

pretty (Env{classMap=cm, typeMap=tm, localTypeVars=tvs,

assumps=ops, localVars=vs,

sentences=se, envDiags=ds}) =

let oops = foldr Map.delete ops $ map fst bList

otm = Map.difference tm $ addUnit Map.empty

header s = text "%%" <+> text s

<+> text (replicate (70 - length s) '-')

in noPrint (Map.null cm) (header "Classes")

$+$ printMap0 cm

$+$ noPrint (Map.null otm) (header "Type Constructors")

$+$ printMap0 otm

$+$ noPrint (Map.null tvs) (header "Type Variables")

$+$ printMap0 tvs

$+$ noPrint (Map.null oops) (header "Assumptions")

$+$ printMap0 oops

$+$ noPrint (Map.null vs) (header "Variables")

$+$ printMap0 vs

$+$ noPrint (null se) (header "Sentences")

$+$ vcat (map pretty $ reverse se)

$+$ noPrint (null ds) (header "Diagnostics")

$+$ vcat (map pretty $ reverse ds)

printMap0 :: (Pretty a, Ord a, Pretty b) => Map.Map a b -> Doc

printMap0 = printMyMap []

printMap1 :: (Pretty a, Ord a, Pretty b) => Map.Map a b -> Doc

printMap1 = printMyMap [mapsto]

printMyMap :: (Pretty a, Ord a, Pretty b) => [Doc] -> Map.Map a b -> Doc

printMyMap d = printMap id vcat ( \ a b -> fsep $ a : d ++ [b])

instance Pretty Morphism where

pretty m =

let tm = typeIdMap m

fm = funMap m

ds = Map.foldWithKey ( \ (i, s) (j, t) l ->

(pretty i <+> colon <+> pretty s

<+> mapsto <+>

pretty j <+> colon <+> pretty t) : l)

[] fm

in (if Map.null tm then empty

else keyword (typeS ++ sS) <+> printMap0 tm)

$+$ (if Map.null fm then empty

else keyword (opS ++ sS) <+> fsep (punctuate comma ds))

$+$ colon <+> specBraces (pretty $ msource m)

$+$ mapsto

<+> specBraces (pretty $ mtarget m)

instance Pretty a => Pretty (SymbolType a) where

pretty t = case t of

OpAsItemType sc -> pretty sc

TypeAsItemType k -> pretty k

ClassAsItemType k -> pretty k

instance Pretty Symbol where

pretty s = keyword (case symType s of

OpAsItemType _ -> opS

TypeAsItemType _ -> typeS

ClassAsItemType _ -> classS) <+>

pretty (symName s) <+> colon <+>

pretty (symType s)

instance Pretty RawSymbol where

pretty rs = case rs of

AnID i -> pretty i

AKindedId k i -> printSK k <> pretty i

AQualId i t -> printSK (symbTypeToKind t) <> pretty i <+> colon

<+> pretty t

ASymbol s -> pretty s