-- | This is a fast non-pretty-printer for turning the internal representation -- of generic structured XML documents into Lazy ByteStrings. -- Like in Text.Xml.HaXml.Pretty, there is one pp function for each type in -- Text.Xml.HaXml.Types, so you can pretty-print as much or as little -- of the document as you wish. module Text.XML.HaXml.ByteStringPP ( -- * Pretty-print a whole document document -- ** Just one content , content -- ** Just one tagged element , element -- * Pretty-print just a DTD , doctypedecl -- ** The prolog , prolog -- ** A content particle description , cp ) where import Prelude hiding (maybe,either,elem) import Maybe hiding (maybe) import Data.List (intersperse) import Data.ByteString.Lazy hiding (pack,map,head,any,singleton) import Data.ByteString.Lazy.Char8 (pack, singleton, join) import Text.XML.HaXml.Types either f g (Left x) = f x either f g (Right x) = g x maybe f Nothing = empty maybe f (Just x) = f x -- A simple implementation of the pretty-printing combinator interface, -- but for plain ByteStrings: infixl 6 <> infixl 6 <+> infixl 5 $$, $+$ (<>) :: ByteString -> ByteString -> ByteString -- Beside hcat :: [ByteString] -> ByteString -- List version of <> (<+>) :: ByteString -> ByteString -> ByteString -- Beside, separated by space hsep :: [ByteString] -> ByteString -- List version of <+> ($$) :: ByteString -> ByteString -> ByteString -- Above; if there is no -- overlap, it "dovetails" vcat :: [ByteString] -> ByteString -- List version of $$ cat :: [ByteString] -> ByteString -- Either hcat or vcat sep :: [ByteString] -> ByteString -- Either hsep or vcat fcat :: [ByteString] -> ByteString -- ``Paragraph fill'' version of cat fsep :: [ByteString] -> ByteString -- ``Paragraph fill'' version of sep nest :: Int -> ByteString -> ByteString -- Nested (<>) b1 b2 = b1 `append` b2 (<+>) b1 b2 = b1 <> pack " " <> b2 ($$) b1 b2 = b1 <> pack "\n" <> b2 ($+$) = ($$) hcat = Data.ByteString.Lazy.concat hsep = Data.ByteString.Lazy.Char8.join (singleton ' ') vcat = Data.ByteString.Lazy.Char8.join (singleton '\n') cat = hcat sep = hsep text = pack fcat = cat fsep = sep nest _ b = pack " " <> b parens p = pack "(" <> p <> pack ")" ---- -- Now for the XML pretty-printing interface. -- (Basically copied direct from Text.XML.HaXml.Pretty). document :: Document i -> ByteString prolog :: Prolog -> ByteString xmldecl :: XMLDecl -> ByteString misc :: Misc -> ByteString sddecl :: Bool -> ByteString doctypedecl :: DocTypeDecl -> ByteString markupdecl :: MarkupDecl -> ByteString extsubset :: ExtSubset -> ByteString extsubsetdecl :: ExtSubsetDecl -> ByteString cp :: CP -> ByteString element :: Element i -> ByteString attribute :: Attribute -> ByteString content :: Content i -> ByteString ---- document (Document p _ e m)= prolog p $$ element e $$ vcat (Prelude.map misc m) prolog (Prolog x m1 dtd m2)= maybe xmldecl x $$ vcat (Prelude.map misc m1) $$ maybe doctypedecl dtd $$ vcat (Prelude.map misc m2) xmldecl (XMLDecl v e sd) = text " text v <> text "'" <+> maybe encodingdecl e <+> maybe sddecl sd <+> text "?>" misc (Comment s) = text "" misc (PI (n,s)) = text " text n <+> text s <+> text "?>" sddecl sd | sd = text "standalone='yes'" | otherwise = text "standalone='no'" doctypedecl (DTD n eid ds) = if Prelude.null ds then hd <> text ">" else hd <+> text " [" $$ vcat (Prelude.map markupdecl ds) $$ text "]>" where hd = text " text n <+> maybe externalid eid markupdecl (Element e) = elementdecl e markupdecl (AttList a) = attlistdecl a markupdecl (Entity e) = entitydecl e markupdecl (Notation n) = notationdecl n markupdecl (MarkupMisc m) = misc m --markupdecl (MarkupPE p m) = peref p extsubset (ExtSubset t ds) = maybe textdecl t $$ vcat (Prelude.map extsubsetdecl ds) extsubsetdecl (ExtMarkupDecl m) = markupdecl m extsubsetdecl (ExtConditionalSect c) = conditionalsect c --extsubsetdecl (ExtPEReference p e) = peref p element (Elem n as []) = text "<" <> text n <+> fsep (Prelude.map attribute as) <> text "/>" element e@(Elem n as cs) -- | any isText cs = text "<" <> text n <+> fsep (map attribute as) <> -- text ">" <> hcat (map content cs) <> -- text " text n <> text ">" | isText (head cs) = text "<" <> text n <+> fsep (Prelude.map attribute as) <> text ">" <> hcat (Prelude.map content cs) <> text " text n <> text ">" | otherwise = let (d,c) = carryelem e empty in d <> c isText (CString _ _ _) = True isText (CRef _ _) = True isText _ = False carryelem (Elem n as []) c = ( c <> text "<" <> text n <+> fsep (Prelude.map attribute as) , text "/>") carryelem e@(Elem n as cs) c -- | any isText cs = ( c <> element e, empty) | otherwise = let (cs0,d0) = carryscan carrycontent cs (text ">") in ( c <> text "<" <> text n <+> fsep (Prelude.map attribute as) $$ nest 2 (vcat cs0) <> --- $$ d0 <> text " text n , text ">") carrycontent (CElem e _) c = carryelem e c carrycontent (CString False s _) c = (c <> chardata s, empty) carrycontent (CString True s _) c = (c <> cdsect s, empty) carrycontent (CRef r _) c = (c <> reference r, empty) carrycontent (CMisc m _) c = (c <> misc m, empty) carryscan :: (a->c->(b,c)) -> [a] -> c -> ([b],c) carryscan f [] c = ([],c) carryscan f (a:as) c = let (b, c0) = f a c (bs,c1) = carryscan f as c0 in (b:bs, c1) --carryelem e@(Elem n as cs) c -- | isText (head cs) = -- ( start <> -- text ">" <> hcat (map content cs) <> text " text n -- , text ">") -- | otherwise = -- let (d,c0) = foldl carrycontent (start, text ">") cs in -- ( d <> c0 <> text " text n -- , text ">") -- where start = c <> text "<" <> text n <+> fsep (map attribute as) -- --carrycontent (d,c) (CElem e) = let (d',c') = carryelem e c in -- (d $$ nest 2 d', c') --carrycontent (d,c) (CString _ s) = (d <> c <> chardata s, empty) --carrycontent (d,c) (CRef r) = (d <> c <> reference r,empty) --carrycontent (d,c) (CMisc m) = (d $$ c <> misc m, empty) attribute (n,v) = text n <> text "=" <> attvalue v content (CElem e _) = element e content (CString False s _) = chardata s content (CString True s _) = cdsect s content (CRef r _) = reference r content (CMisc m _) = misc m elementdecl (ElementDecl n cs) = text " text n <+> contentspec cs <> text ">" contentspec EMPTY = text "EMPTY" contentspec ANY = text "ANY" contentspec (Mixed m) = mixed m contentspec (ContentSpec c) = cp c --contentspec (ContentPE p cs) = peref p cp (TagName n m) = text n <> modifier m cp (Choice cs m) = parens (hcat (intersperse (text "|") (Prelude.map cp cs))) <> modifier m cp (Seq cs m) = parens (hcat (intersperse (text ",") (Prelude.map cp cs))) <> modifier m --cp (CPPE p c) = peref p modifier None = empty modifier Query = text "?" modifier Star = text "*" modifier Plus = text "+" mixed PCDATA = text "(#PCDATA)" mixed (PCDATAplus ns) = text "(#PCDATA |" <+> hcat (intersperse (text "|") (Prelude.map text ns)) <> text ")*" attlistdecl (AttListDecl n ds) = text " text n <+> fsep (Prelude.map attdef ds) <> text ">" attdef (AttDef n t d) = text n <+> atttype t <+> defaultdecl d atttype StringType = text "CDATA" atttype (TokenizedType t) = tokenizedtype t atttype (EnumeratedType t) = enumeratedtype t tokenizedtype ID = text "ID" tokenizedtype IDREF = text "IDREF" tokenizedtype IDREFS = text "IDREFS" tokenizedtype ENTITY = text "ENTITY" tokenizedtype ENTITIES = text "ENTITIES" tokenizedtype NMTOKEN = text "NMTOKEN" tokenizedtype NMTOKENS = text "NMTOKENS" enumeratedtype (NotationType n)= notationtype n enumeratedtype (Enumeration e) = enumeration e notationtype ns = text "NOTATION" <+> parens (hcat (intersperse (text "|") (Prelude.map text ns))) enumeration ns = parens (hcat (intersperse (text "|") (Prelude.map nmtoken ns))) defaultdecl REQUIRED = text "#REQUIRED" defaultdecl IMPLIED = text "#IMPLIED" defaultdecl (DefaultTo a f) = maybe (const (text "#FIXED")) f <+> attvalue a conditionalsect (IncludeSect i)= text " vcat (Prelude.map extsubsetdecl i) <+> text "]]>" conditionalsect (IgnoreSect i) = text " fsep (Prelude.map ignoresectcontents i) <+> text "]]>" ignore (Ignore) = empty ignoresectcontents (IgnoreSectContents i is) = ignore i <+> vcat (Prelude.map internal is) where internal (ics,i) = text " ignoresectcontents ics <+> text "]]>" <+> ignore i reference (RefEntity er) = entityref er reference (RefChar cr) = charref cr entityref n = text "&" <> text n <> text ";" charref c = text "&#" <> text (show c) <> text ";" entitydecl (EntityGEDecl d) = gedecl d entitydecl (EntityPEDecl d) = pedecl d gedecl (GEDecl n ed) = text " text n <+> entitydef ed <> text ">" pedecl (PEDecl n pd) = text " text n <+> pedef pd <> text ">" entitydef (DefEntityValue ev) = entityvalue ev entitydef (DefExternalID i nd) = externalid i <+> maybe ndatadecl nd pedef (PEDefEntityValue ev) = entityvalue ev pedef (PEDefExternalID eid) = externalid eid externalid (SYSTEM sl) = text "SYSTEM" <+> systemliteral sl externalid (PUBLIC i sl) = text "PUBLIC" <+> pubidliteral i <+> systemliteral sl ndatadecl (NDATA n) = text "NDATA" <+> text n textdecl (TextDecl vi ed) = text " maybe text vi <+> encodingdecl ed <> text "?>" extparsedent (ExtParsedEnt t c)= maybe textdecl t <+> content c extpe (ExtPE t esd) = maybe textdecl t <+> vcat (Prelude.map extsubsetdecl esd) notationdecl (NOTATION n e) = text " text n <+> either externalid publicid e <> text ">" publicid (PUBLICID p) = text "PUBLICID" <+> pubidliteral p encodingdecl (EncodingDecl s) = text "encoding='" <> text s <> text "'" nmtoken s = text s attvalue (AttValue esr) = text "\"" <> hcat (Prelude.map (either text reference) esr) <> text "\"" entityvalue (EntityValue evs) | containsDoubleQuote evs = text "'" <> hcat (Prelude.map ev evs) <> text "'" | otherwise = text "\"" <> hcat (Prelude.map ev evs) <> text "\"" ev (EVString s) = text s --ev (EVPERef p e) = peref p ev (EVRef r) = reference r pubidliteral (PubidLiteral s) | toWord8 '"' `elem` (pack s) = text "'" <> text s <> text "'" | otherwise = text "\"" <> text s <> text "\"" systemliteral (SystemLiteral s) | toWord8 '"' `elem` (pack s) = text "'" <> text s <> text "'" | otherwise = text "\"" <> text s <> text "\"" chardata s = {-if all isSpace s then empty else-} text s cdsect c = text " chardata c <> text "]]>" --toWord8 :: Char -> Word8 toWord8 = toEnum . fromEnum ---- containsDoubleQuote evs = any csq evs where csq (EVString s) = toWord8 '"' `elem` (pack s) csq _ = False