PrintAs.hs revision d17834302eaa101395b4b806cd73670fd864445f
{- |
Module : $Header$
Copyright : (c) Christian Maeder and Uni Bremen 2003
Licence : similar to LGPL, see HetCATS/LICENCE.txt or LIZENZ.txt
Maintainer : hets@tzi.de
Stability : experimental
Portability : portable
printing data types of the abstract syntax
-}
module HasCASL.PrintAs where
import HasCASL.As
import Common.Keywords
import HasCASL.HToken
import Common.Lib.Pretty
import Common.Id
import Common.PPUtils
import Common.PrettyPrint
import Common.GlobalAnnotations(GlobalAnnos)
import Common.AS_Annotation(mapAnM)
-- | short cut for: if b then empty else d
noPrint :: Bool -> Doc -> Doc
noPrint b d = if b then empty else d
instance PrettyPrint Variance where
printText0 _ v = text $ show v
instance PrettyPrint Kind where
printText0 ga knd = case knd of
Intersection [] _ -> text "Type"
MissingKind -> space
ClassKind ci _ -> printText0 ga ci
Downset mt t _ _ ->
let tok = case mt of
Nothing -> text "_"
Just x -> text (tokStr x) <+> text dotS <+> text (tokStr x)
in braces (tok <+>
text lessS <+> printText0 ga t)
Intersection ks _ -> printList0 ga ks
FunKind k1 k2 _ ->
(case k1 of
FunKind _ _ _ -> parens
_ -> id) (printText0 ga k1)
<+> text funS
<+> printText0 ga k2
ExtKind k v _ -> (case k of
FunKind _ _ _ -> parens
_ -> id) (printText0 ga k) <> printText0 ga v
instance PrettyPrint TypePattern where
printText0 ga tp = case tp of
TypePattern name args _ -> printText0 ga name
<> fcat (map (parens . printText0 ga) args)
TypePatternToken t -> printText0 ga t
MixfixTypePattern ts -> fsep (map (printText0 ga) ts)
BracketTypePattern k l _ -> bracket k $ commaT_text ga l
TypePatternArg t _ -> parens $ printText0 ga t
-- | put proper brackets around a document
bracket :: BracketKind -> Doc -> Doc
bracket b t = let (o,c) = getBrackets b in ptext o <> t <> ptext c
-- | print a 'Kind' plus a preceding colon (or nothing for 'star')
printKind :: GlobalAnnos -> Kind -> Doc
printKind ga kind = case kind of
Intersection [] _ -> empty
Downset Nothing t _ _ ->
space <> text lessS <+> printText0 ga t
_ -> space <> colon <+> printText0 ga kind
instance PrettyPrint Type where
printText0 ga ty = case ty of
TypeName name _k i -> printText0 ga name <>
if i == 0 then empty else text ("_v"++ show i)
TypeAppl t1 t2 -> case t1 of
TypeName (Id [a, Token "__" _, b] [] []) _ _ ->
printText0 ga a <> printText0 ga t2 <> printText0 ga b
TypeAppl (TypeName (Id [Token "__" _, inTok, Token "__" _]
[] []) _ _) t0 -> printText0 ga t0
<+> printText0 ga inTok <+> printText0 ga t2
_ -> (case t1 of
TypeName _ _ _ -> id
TypeToken _ -> id
BracketType _ _ _ -> id
TypeAppl _ _ -> id
_ -> parens) (printText0 ga t1) <+>
(case t2 of
TypeName _ _ _ -> id
TypeToken _ -> id
BracketType _ _ _ -> id
_ -> parens) (printText0 ga t2)
ExpandedType t1 _ -> printText0 ga t1
TypeToken t -> printText0 ga t
BracketType k l _ -> bracket k $ commaT_text ga l
KindedType t kind _ -> (case t of
FunType _ _ _ _ -> parens
ProductType [] _ -> id
ProductType _ _ -> parens
LazyType _ _ -> parens
TypeAppl _ _ -> parens
_ -> id) (printText0 ga t)
<+> colon <+> printText0 ga kind
MixfixType ts -> fsep (map (printText0 ga) ts)
LazyType t _ -> text quMark <+> (case t of
FunType _ _ _ _ -> parens
ProductType [] _ -> id
ProductType _ _ -> parens
KindedType _ _ _ -> parens
_ -> id) (printText0 ga t)
ProductType ts _ -> if null ts then ptext "Unit"
-- parens empty
else fsep (punctuate (space <> char '*')
(map ( \ t ->
(case t of
FunType _ _ _ _ -> parens
ProductType [] _ -> id
ProductType _ _ -> parens
_ -> id) $ printText0 ga t) ts))
FunType t1 arr t2 _ -> (case t1 of
FunType _ _ _ _ -> parens
_ -> id) (printText0 ga t1)
<+> printText0 ga arr
<+> printText0 ga t2
-- no curried notation for bound variables
instance PrettyPrint TypeScheme where
printText0 ga (TypeScheme vs t _) = let tdoc = printText0 ga t in
if null vs then tdoc else
hang (text forallS <+> semiT_text ga vs <+> text dotS) 2 tdoc
instance PrettyPrint Instance where
printText0 _ i = case i of
Instance -> space <> text instanceS
Plain -> empty
instance PrettyPrint Partiality where
printText0 _ p = case p of
Partial -> text quMark
Total -> empty
instance PrettyPrint Arrow where
printText0 _ a = text $ show a
instance PrettyPrint Quantifier where
printText0 _ q = text $ show q
instance PrettyPrint TypeQual where
printText0 _ q = text $ show q
instance PrettyPrint Term where
printText0 ga t = printTerm ga
(case t of
QualVar _ -> True
QualOp _ _ _ _ -> True
_ -> False) t
unPredType :: Type -> Type
unPredType t = case t of
FunType ty PFunArr (ProductType [] _) _ -> ty
_ -> t
unPredTypeScheme :: TypeScheme -> TypeScheme
unPredTypeScheme = mapTypeOfScheme unPredType
printTerm :: GlobalAnnos -> Bool -> Term -> Doc
printTerm ga b trm =
let ppParen = if b then parens else id
commaT = fsep . punctuate comma . map (printTerm ga False)
in
(case trm of
TupleTerm _ _ -> id
BracketTerm _ _ _ -> id
TermToken _ -> id
MixTypeTerm _ _ _ -> id
_ -> ppParen)
$ case trm of
QualVar vd -> text varS <+> printText0 ga vd
QualOp br n t _ -> sep [printText0 ga br <+> printText0 ga n,
colon <+> printText0 ga
(if isPred br then unPredTypeScheme t else t)]
ResolvedMixTerm n ts _ ->
case ts of
[] -> printText0 ga n
[t] -> printText0 ga n <> printTerm ga True t
_ -> printText0 ga n <>
parens (commaT ts)
ApplTerm t1 t2 _ -> cat [printText0 ga t1, nest 2
$ printTerm ga True t2]
TupleTerm ts _ -> parens (commaT ts)
TypedTerm term q typ _ -> hang (printText0 ga term
<+> printText0 ga q)
4 $ printText0 ga typ
QuantifiedTerm q vs t _ -> hang (printText0 ga q
<+> semiT_text ga vs)
2 (text dotS
<+> printText0 ga t)
LambdaTerm ps q t _ -> hang (text lamS
<+> (case ps of
[p] -> printText0 ga p
_ -> fcat $ map
(parens . printTerm ga False) ps))
2 ((case q of
Partial -> text dotS
Total -> text $ dotS ++ exMark)
<+> printText0 ga t)
CaseTerm t es _ -> hang (text caseS
<+> printText0 ga t
<+> text ofS)
4 $ vcat (punctuate (text " | ")
(map (printEq0 ga funS) es))
LetTerm br es t _ ->
let dt = printText0 ga t
des = vcat $ punctuate semi $
map (printEq0 ga equalS) es
in case br of
Let -> sep [text letS <+> des, text inS <+> dt]
Where -> hang (sep [dt, text whereS]) 6 des
TermToken t -> printText0 ga t
MixTypeTerm q t _ -> printText0 ga q <+> printText0 ga t
MixfixTerm ts -> fsep $ map (printText0 ga) ts
BracketTerm k l _ -> bracket k $ commaT l
AsPattern v p _ -> printText0 ga v
<+> text asP
<+> printText0 ga p
-- | print an equation with different symbols between 'Pattern' and 'Term'
printEq0 :: GlobalAnnos -> String -> ProgEq -> Doc
printEq0 ga s (ProgEq p t _) = hang (hang (printText0 ga p) 2 $ text s)
4 $ printText0 ga t
instance PrettyPrint VarDecl where
printText0 ga (VarDecl v t _ _) = printText0 ga v <>
case t of
MixfixType [] -> empty
_ -> space <> colon <+> printText0 ga t
instance PrettyPrint GenVarDecl where
printText0 ga gvd = case gvd of
GenVarDecl v -> printText0 ga v
GenTypeVarDecl tv -> printText0 ga tv
instance PrettyPrint TypeArg where
printText0 ga (TypeArg v c _ _) = printText0 ga v <+> colon
<+> printText0 ga c
-- | don't print an empty list and put parens around longer lists
printList0 :: (PrettyPrint a) => GlobalAnnos -> [a] -> Doc
printList0 ga l = case l of
[] -> empty
[x] -> printText0 ga x
_ -> parens $ commaT_text ga l
instance PrettyPrint InstOpId where
printText0 ga (InstOpId n l _) = printText0 ga n
<> noPrint (null l)
(brackets $ semiT_text ga l)
------------------------------------------------------------------------
-- item stuff
------------------------------------------------------------------------
-- | print a 'TypeScheme' as a pseudo type
printPseudoType :: GlobalAnnos -> TypeScheme -> Doc
printPseudoType ga (TypeScheme l t _) = noPrint (null l) (text lamS
<+> (if null $ tail l then
printText0 ga $ head l
else fcat(map (parens . printText0 ga) l))
<+> text dotS <> space) <> printText0 ga t
instance PrettyPrint BasicSpec where
printText0 ga (BasicSpec l) = vcat (map (printText0 ga) l)
instance PrettyPrint ProgEq where
printText0 ga = printEq0 ga equalS
instance PrettyPrint BasicItem where
printText0 ga bi = case bi of
SigItems s -> printText0 ga s
ProgItems l _ -> text programS <+> semiT_text ga l
ClassItems i l _ -> text classS <> printText0 ga i <+> semiT_text ga l
GenVarItems l _ -> text varS <+> semiT_text ga l
FreeDatatype l _ -> text freeS <+> text typeS
<+> semiT_text ga l
GenItems l _ -> text generatedS <+> braces (semiT_text ga l)
AxiomItems vs fs _ -> (if null vs then empty
else text forallS <+> semiT_text ga vs)
$$ vcat (map
(\x -> text dotS <+> printText0 ga x)
fs)
Internal l _ -> text internalS <+> braces (semiT_text ga l)
instance PrettyPrint OpBrand where
printText0 _ b = text $ show b
instance PrettyPrint SigItems where
printText0 ga si = case si of
TypeItems i l _ -> text typeS <> printText0 ga i <+> semiT_text ga l
OpItems b l _ -> printText0 ga b <+> semiT_text ga
(if isPred b then concat $
mapAnM ((:[]) . mapOpItem) l else l)
instance PrettyPrint ClassItem where
printText0 ga (ClassItem d l _) = printText0 ga d $$
if null l then empty
else braces (semiT_text ga l)
instance PrettyPrint ClassDecl where
printText0 ga (ClassDecl l k _) = commaT_text ga l
<+> text lessS <+> printText0 ga k
instance PrettyPrint Vars where
printText0 ga vd = case vd of
Var v -> printText0 ga v
VarTuple vs _ -> parens $ commaT_text ga vs
instance PrettyPrint TypeItem where
printText0 ga ti = case ti of
TypeDecl l k _ -> commaT_text ga l <>
printKind ga k
SubtypeDecl l t _ -> commaT_text ga l <+> text lessS
<+> printText0 ga t
IsoDecl l _ -> cat(punctuate (text " = ")
(map (printText0 ga) l))
SubtypeDefn p v t f _ -> printText0 ga p
<+> text equalS
<+> braces (printText0 ga v
<+> colon
<+> printText0 ga t
<+> text dotS
<+> printText0 ga f)
AliasType p k t _ -> (printText0 ga p <>
case k of
Nothing -> empty
Just j -> space <> colon <+>
printText0 ga j)
<+> text assignS
<+> printPseudoType ga t
Datatype t -> printText0 ga t
mapOpItem :: OpItem -> OpItem
mapOpItem oi = case oi of
OpDecl l t as ps -> OpDecl l (unPredTypeScheme t) as ps
OpDefn n ps s p t qs -> OpDefn n ps (unPredTypeScheme s) p t qs
instance PrettyPrint OpItem where
printText0 ga oi = case oi of
OpDecl l t as _ -> commaT_text ga l <+> colon
<+> (printText0 ga t
<> (if null as then empty
else comma <> space)
<> commaT_text ga as)
OpDefn n ps s p t _ -> hang
(hang (printText0 ga n <> fcat (map (parens . semiT_text ga) ps))
2 (colon <> printText0 ga p
<+> printText0 ga s))
2 (text equalS
<+> printText0 ga t)
instance PrettyPrint BinOpAttr where
printText0 _ a = text $ case a of
Assoc -> assocS
Comm -> commS
Idem -> idemS
instance PrettyPrint OpAttr where
printText0 ga oa = case oa of
BinOpAttr a _ -> printText0 ga a
UnitOpAttr t _ -> text unitS <+> printText0 ga t
instance PrettyPrint DatatypeDecl where
printText0 ga (DatatypeDecl p k as d _) = (printText0 ga p <>
printKind ga k)
<+> text defnS
<+> vcat(punctuate (text " | ")
(map (printText0 ga) as))
<+> case d of [] -> empty
_ -> text derivingS
<+> commaT_text ga d
instance PrettyPrint Alternative where
printText0 ga alt = case alt of
Constructor n cs p _ ->
printText0 ga n <+> fsep (map (parens . semiT_text ga) cs)
<> printText0 ga p
Subtype l _ -> text typeS <+> commaT_text ga l
instance PrettyPrint Component where
printText0 ga sel = case sel of
Selector n p t _ _ -> printText0 ga n
<+> colon <> printText0 ga p
<+> printText0 ga t
NoSelector t -> printText0 ga t
instance PrettyPrint OpId where
printText0 ga (OpId n ts _) = printText0 ga n
<+> noPrint (null ts)
(brackets $ commaT_text ga ts)
instance PrettyPrint Symb where
printText0 ga (Symb i mt _) =
printText0 ga i <> (case mt of Nothing -> empty
Just (SymbType t) ->
empty <+> colon <+>
printText0 ga t)
instance PrettyPrint SymbItems where
printText0 ga (SymbItems k syms _ _) =
printSK k <> commaT_text ga syms
instance PrettyPrint SymbOrMap where
printText0 ga (SymbOrMap s mt _) =
printText0 ga s <> (case mt of Nothing -> empty
Just t ->
empty <+> ptext mapsTo <+>
printText0 ga t)
instance PrettyPrint SymbMapItems where
printText0 ga (SymbMapItems k syms _ _) =
printSK k <> commaT_text ga syms
-- | print symbol kind
printSK :: SymbKind -> Doc
printSK k =
case k of Implicit -> empty
_ -> ptext (drop 3 $ show k) <> space