{- Convert abstract syntax tree (or parts of it) into a structured document for pretty printing. -} module PrettySyntax ( PPInfo(..) -- , prettyPrintSimple , prettyPrintTokenId, prettyPrintId, simplePrintId , ppModule, ppTopDecls, ppClassCodes , ppType, ppContexts, ppSimple, ppDecl , ppExp ) where import Util.Extra(noPos) import PrettyLib import Syntax hiding (noDecls,TokenId) import TokenId(TokenId(..),extractV,t_Arrow,t_List) import Id(Id) import IntState(IntState,strIS,lookupIS) import Nice(niceInt,niceNT,mkAL) import Info(Info(InfoData),tidI) import NT(NewType(NewType)) import SysDeps (unpackPS) import Maybe(isJust,fromJust) import Flags(Flags,sShowWidth,sShowQualified,sShowIndent) import Char {- prettyPrintSimple :: Int -> (PPInfo TokenId -> a -> Doc) -> a -> String prettyPrintSimple width pp = pretty width . pp PPInfo{withPositions = False ,indent = 4 ,id2str = show ,tyVar2str = show ,intState = error "prettyPrintTokenId: no intState" ,isFunctionArrow = (== t_Arrow) ,isList = (== t_List) ,maybeTuple = maybeTupleTokenId} where maybeTupleTokenId t = case t of TupleId n -> Just n _ -> Nothing -} prettyPrintTokenId :: Flags -> (PPInfo TokenId -> a -> Doc) -> a -> String prettyPrintTokenId flags pp = pretty (sShowWidth flags) . pp PPInfo{withPositions = False ,indent = sShowIndent flags ,id2str = id2strTokenId ,tyVar2str = show ,intState = error "prettyPrintTokenId: no intState" ,isFunctionArrow = (== t_Arrow) ,isList = (== t_List) ,maybeTuple = maybeTupleTokenId} where id2strTokenId t = if sShowQualified flags && not (t==t_List) then show t else reverse . unpackPS . extractV $ t maybeTupleTokenId t = case t of TupleId n -> Just n _ -> Nothing prettyPrintId :: Flags -> IntState -> (PPInfo Id -> a -> Doc) -> a -> String prettyPrintId flags state pp = pretty (sShowWidth flags) . pp PPInfo{withPositions = False ,indent = sShowIndent flags ,id2str = if sShowQualified flags then strIS state else strISunqualified state ,tyVar2str = ('t' :) . show ,intState = state ,isFunctionArrow = isFunctionArrowId state ,isList = isListId state ,maybeTuple = maybeTupleId state} simplePrintId :: IntState -> (PPInfo Id -> a -> Doc) -> a -> String simplePrintId state pp = simple . pp PPInfo{withPositions = False ,indent = 2 ,id2str = strISunqualified state ,tyVar2str = ('t' :) . show ,intState = state ,isFunctionArrow = isFunctionArrowId state ,isList = isListId state ,maybeTuple = maybeTupleId state} -- the following little functions should probably be defined in some other -- modules: strISunqualified :: IntState -> Id -> String strISunqualified state id = case lookupIS state id of Just info -> reverse . unpackPS . extractV . tidI $ info Nothing -> 'v' : show id isFunctionArrowId :: IntState -> Id -> Bool isFunctionArrowId state id = case lookupIS state id of Just info -> tidI info == t_Arrow Nothing -> False isListId :: IntState -> Id -> Bool isListId state id = case lookupIS state id of Just info -> tidI info == t_List Nothing -> False maybeTupleId :: IntState -> Id -> Maybe Int maybeTupleId state id = case lookupIS state id of Just info -> case tidI info of TupleId n -> Just n _ -> Nothing Nothing -> Nothing {- Information that is passed recursively unchanged to all pretty printing functions. If boolean argument true, then positions are inserted as comments for most language constructs. The function converts an identifier into a String. -} data PPInfo a = PPInfo {withPositions :: Bool ,indent :: Int -- indentation for nesting ,id2str :: a -> String ,tyVar2str :: a -> String ,intState :: IntState -- still needed for niceNT ,isFunctionArrow :: a -> Bool -- -> ,isList :: a -> Bool -- [] ,maybeTuple :: a -> Maybe Int} {- standard number of characters of indentation for every nesting -} nestS :: PPInfo a -> Doc -> Doc nestS = nest . indent groupNestS :: PPInfo a -> Doc -> Doc groupNestS = groupNest . indent {- general formatting functions ------------------------------------------ -} space :: Doc space = text " " dSpace :: Doc dSpace = delimiter " " fSpace :: Doc fSpace = fdelimiter " " fComma :: Doc fComma = fdelimiter "" <> text "," dSemiSpace :: Doc dSemiSpace = delimiter "; " sep :: Doc -> [Doc] -> Doc sep delimiter [] = nil sep delimiter docs = foldr1 (\l r -> l <> delimiter <> r) docs term :: Doc -> [Doc] -> Doc term delimiter = foldr (\l r -> l <> delimiter <> r) nil encase :: Doc -> [Doc] -> Doc encase delimiter docs = delimiter <> term delimiter docs {- surround by paranthesis and separate by fComma, but not for 0 element -} parensFComma1 :: PPInfo a -> [Doc] -> Doc parensFComma1 info [] = nil parensFComma1 info docs = fSpace <> (groupNestS info $ parens $ sep fComma docs) {- surround by paranthesis and separate by fComma, but not for 0 or 1 element -} parensFComma2 :: PPInfo a -> [Doc] -> Doc parensFComma2 info [] = nil parensFComma2 info [doc] = doc parensFComma2 info docs = groupNestS info $ parens $ sep fComma docs groupParens :: PPInfo a -> Doc -> Doc groupParens info = groupNestS info . parens {- the conversion functions for every abstract syntax construct ---------- -} ppModule :: PPInfo a -> Module a -> Doc ppModule info (Module pos id exports impdecls fixdecls topdecls) = groupNestS info (text "module " <> ppId info id <> ppExports info exports <> text " where") <> line <> ppImpDecls info impdecls <> ppFixDecls info fixdecls <> ppTopDecls info topdecls ppExports :: PPInfo a -> Maybe [Export a] -> Doc ppExports info Nothing = parens nil ppExports info (Just []) = nil ppExports info (Just exps) = parensFComma1 info (map (ppExport info) exps) ppExport :: PPInfo a -> Export a -> Doc ppExport info (ExportEntity pos entity) = ppEntity info entity ppExport info (ExportModid pos id) = text "module " <> ppId info id ppEntity :: PPInfo a -> Entity a -> Doc ppEntity info (EntityVar pos id) = ppIdAsVar info id ppEntity info (EntityConClsAll pos id) = ppId info id <> text "(..)" ppEntity info (EntityConClsSome pos id ids) = nestS info $ ppId info id <> (parens . sep fComma . map (ppIdAsVar info . snd) $ ids) ppImpDecls :: PPInfo a -> [ImpDecl a] -> Doc ppImpDecls info [] = nil ppImpDecls info decls = line <> (sep line . map (ppImpDecl info) $ decls) <> line ppFixDecls :: PPInfo a -> [FixDecl a] -> Doc ppFixDecls info [] = nil ppFixDecls info decls = line <> (sep line . map (ppFixDecl info) $ decls) <> line ppInfixClass :: PPInfo a -> InfixClass a -> Doc ppInfixClass info InfixDef = text "infixl{-def-} " ppInfixClass info InfixL = text "infixl " ppInfixClass info InfixR = text "infixr " ppInfixClass info Infix = text "infix " ppInfixClass info (InfixPre id) = text "prefix " <> ppIdAsOperator info id <> space ppFixDecl :: PPInfo a -> FixDecl a -> Doc ppFixDecl info (infixclass, precedenceLevel, fixIds) = groupNestS info $ ppInfixClass info infixclass <> text (show precedenceLevel) <> fSpace <> sep fComma (map (ppIdAsOperator info . stripFixId) fixIds) ppImpSpec :: PPInfo a -> ImpSpec a -> Doc ppImpSpec info (NoHiding entities) = fSpace <> (parens . sep fComma . map (ppEntity info) $ entities) ppImpSpec info (Hiding []) = nil ppImpSpec info (Hiding entities) = fSpace <> text "hiding " <> (parens . sep fComma . map (ppEntity info) $ entities) ppImpDecl :: PPInfo a -> ImpDecl a -> Doc ppImpDecl info (Import (pos,id) impspec) = groupNestS info $ text "import " <> ppId info id <> fSpace <> ppImpSpec info impspec ppImpDecl info (ImportQ (pos1,id1) impspec) = groupNestS info $ text "import qualified " <> ppId info id1 <> fSpace <> ppImpSpec info impspec ppImpDecl info (ImportQas (pos1,id1) (pos2,id2) impspec) = groupNestS info $ text "import qualified " <> ppId info id1 <> fSpace <> text "as" <> fSpace <> ppId info id2 <> fSpace <> ppImpSpec info impspec ppImpDecl info (Importas (pos1,id1) (pos2,id2) impspec) = groupNestS info $ text "import " <> ppId info id1 <> fSpace <> text "as" <> fSpace <> ppId info id2 <> fSpace <> ppImpSpec info impspec ppTopDecls :: PPInfo a -> Decls a -> Doc ppTopDecls info (DeclsParse decls) = line <> sep (line <> line) (map (ppDecl info) decls) <> line ppTopDecls info (DeclsScc decls) = line <> sep (line <> line) (map (ppDeclsDepend info) decls) <> line ppDecls :: PPInfo a -> Decls a -> Doc ppDecls info (DeclsParse decls) = group $ sep dSemiSpace (map (ppDecl info) decls) ppDecls info (DeclsScc decls) = group $ sep dSemiSpace (map (ppDeclsDepend info) decls) ppDeclsDepend :: PPInfo a -> DeclsDepend a -> Doc ppDeclsDepend info (DeclsNoRec decl) = text "-- not recursive" <> line <> ppDecl info decl ppDeclsDepend info (DeclsRec decls) = text "-- recursive" <> line <> sep line (map (ppDecl info) decls) ppType :: PPInfo a -> Type a -> Doc ppType info = ppTypePrec info False ppTypePrec :: PPInfo a -> Bool {- with parens? -} -> Type a -> Doc ppTypePrec info withPar (TypeCons pos t []) = ppId info t ppTypePrec info withPar (TypeCons pos t ts) = if isFunctionArrow info t then case ts of [] -> text "(->)" [t1] -> parenExp info pos withPar $ text "(->)" <> ppTypePrec info True t1 [t1,t2] -> parenExp info pos withPar $ ppTypePrec info True t1 <> fSpace <> text "->" <> fSpace <> ppTypePrec info False t2 else if isList info t then case ts of [] -> text "([])" [t] -> group $ brackets $ ppTypePrec info False t else case maybeTuple info t of Just n -> if n == length ts then groupParens info . sep fComma . map (ppTypePrec info False) $ ts else parenExp info pos withPar $ (groupParens info . sep fComma . replicate n $ nil) <> fSpace <> (sep fSpace . map (ppTypePrec info True) $ ts) Nothing -> parenExp info pos withPar $ sep fSpace (ppId info t : map (ppTypePrec info True) ts) ppTypePrec info withPar (TypeApp t1 t2) = parenExp info noPos withPar $ (ppTypePrec info False t1 <> fSpace <> ppTypePrec info True t2) ppTypePrec info withPar (TypeVar pos id) = ppTyVar info id ppTypePrec info withPar (TypeStrict pos typ) = text "!" <> ppTypePrec info True typ ppTypeWithContext :: PPInfo a -> [Context a] -> Type a -> Doc ppTypeWithContext info ctxs ty = group (ppContexts info ctxs <> ppType info ty) ppSimple :: PPInfo a -> Simple a -> Doc ppSimple info (Simple pos id ids) = sep fSpace (ppId info id : map (ppId info . snd) ids) ppTypeSimple :: PPInfo a -> Simple a -> Doc ppTypeSimple info (Simple pos id ids) = sep fSpace (ppId info id : map (ppTyVar info . snd) ids) ppContexts :: PPInfo a -> [Context a] -> Doc ppContexts info [] = nil ppContexts info cxs = parensFComma2 info (map (ppContext info) cxs) <> text " =>" <> fSpace ppContext :: PPInfo a -> Context a -> Doc ppContext info (Context pos c vars) = ppId info c <> space <> sep fSpace (map (\(_,v)-> ppTyVar info v) vars) ppDerivings :: PPInfo a -> [(Pos, a)] -> Doc ppDerivings info [] = nil ppDerivings info ds = groupNestS info $ fSpace <> text "deriving" <> fSpace <> parensFComma2 info (map (ppId info . snd) ds) ppConstr :: PPInfo a -> Constr a -> Doc ppConstr info (Constr pos c cs) = groupNestS info $ ppIdAsVar info c <> fSpace <> ppFieldsType info cs ppConstr info (ConstrCtx forAll ctxs pos c cs) = groupNestS info $ ppForall <> ppContexts info ctxs <> ppIdAsVar info c <> fSpace <> ppFieldsType info cs where ppForall | null forAll = nil | otherwise = groupNestS info (text "forall" <> fSpace <> sep fSpace (map (ppTyVar info . snd) forAll) <> text ".") <> fSpace ppFieldsType :: PPInfo a -> [(Maybe [(Pos,a)],Type a)] -> Doc ppFieldsType info args@((Just _,_):_) = groupNestS info (braces . sep fComma . map (ppFieldType info) $ args) ppFieldsType info args = group (sep fSpace . map (ppFieldType info) $ args) ppFieldType :: PPInfo a -> (Maybe [(Pos, a)], Type a) -> Doc ppFieldType info (Nothing,typ) = ppTypePrec info True typ ppFieldType info (Just posidents,typ) = group $ (sep fComma . map (ppIdAsVar info . snd) $ posidents) <> dSpace <> text ":: " <> ppType info typ ppDecl :: PPInfo a -> Decl a -> Doc ppDecl info (DeclType s t) = groupNestS info $ text "type " <> ppTypeSimple info s <> text " =" <> dSpace <> ppType info t ppDecl info (DeclTypeRenamed pos tyconid) = groupNestS info $ text "type" <> fSpace <> (group . sep fSpace . map text $ (niceInt Nothing state tyconid "" : map snd al)) <> text " =" <> dSpace <> text (niceNT Nothing state al nt) where Just (InfoData _ _ _ newType _) = lookupIS state tyconid NewType univQuantTyVars _ _ [nt] = newType al = mkAL univQuantTyVars state = intState info ppDecl info (DeclDataPrim pos conid size) = groupNestS info $ text "data primitive" <> fSpace <> ppPos info pos <> fSpace <> ppId info conid <> text " =" <> dSpace <> text (show size) ppDecl info (DeclData dk ctxs s cs ds) = groupNestS info $ text sort <> fSpace <> groupNestS info (ppContexts info ctxs <> ppTypeSimple info s) <> ppConstrs info cs <> ppDerivings info ds where sort = case dk of Nothing -> "newtype" Just False -> "data" Just True -> "data unboxed" ppDecl info (DeclConstrs pos did cs) = groupNestS info $ text "-- data/dataprim [(field,selector)] =" <> dSpace <> (groupNestS info $ ppIdAsVar info did <> (brackets . sep fComma $ map (\(ps,field,sel) -> parens (ppIdAsVar info field <> space <> ppIdAsVar info sel)) cs)) ppDecl info (DeclClass pos ctxs cls args fundeps decls) = nestS info $ text "class" <> fSpace <> groupNestS info (ppContexts info ctxs <> ppId info cls <> space <> sep fSpace (map (ppTyVar info) args) <> ppFunDeps info fundeps) <> ppWhere info decls ppDecl info (DeclInstance pos ctxs tycls insts valdefs) = nestS info $ text "instance" <> fSpace <> groupNestS info (ppContexts info ctxs <> ppId info tycls <> space <> sep fSpace (map (parens . ppTypePrec info True) insts)) <> ppWhere info valdefs ppDecl info (DeclDefault ts) = groupNestS info $ text "default" <> dSpace <> (parens . sep fComma . map (ppType info) $ ts) ppDecl info (DeclPrimitive pos ident arity t) = groupNestS info $ ppIdAsVar info ident <> fSpace <> text "primitive" <> fSpace <> text (show arity) <> text " ::" <> fSpace <> ppType info t ppDecl info (DeclForeignImp pos callConv str ident arity cast t _) = groupNestS info $ text "foreign import" <> fSpace <> text (show callConv) <> fSpace <> string str <> fSpace <> text (show cast) <> fSpace <> ppIdAsVar info ident <> text " ::" <> dSpace <> ppType info t ppDecl info (DeclForeignExp pos callConv str ident t) = groupNestS info $ text "foreign export" <> fSpace <> text (show callConv) <> fSpace <> ppIdAsVar info ident <> text " ::" <> dSpace <> ppType info t ppDecl info (DeclVarsType ids ctxs t) = groupNestS info $ group (sep fComma (map (ppIdAsVar info . snd) ids)) <> text " ::" <> dSpace <> ppTypeWithContext info ctxs t ppDecl info (DeclPat alt) = group $ ppAlt info "=" alt ppDecl info (DeclFun pos fun funs) = group $ ppPos info pos <> (sep line . map (ppFun info fun) $ funs) ppDecl info (DeclIgnore s) = text ("{- Ignoring " ++ s ++ " -}") ppDecl info (DeclError s) = text ("ERROR: " ++ s) ppDecl info (DeclAnnot decl annots) = groupNestS info $ ppDecl info decl <> line <> ppAnnots info annots ppDecl info (DeclFixity f) = ppFixDecl info f ppAnnots :: PPInfo a -> [Annot a] -> Doc ppAnnots info = sep line . map (ppAnnot info) ppAnnot :: PPInfo a -> Annot a -> Doc ppAnnot info (AnnotArity (pos,ident) int) = text "{-# ARITY " <> ppIdAsVar info ident <> text " = " <> text (show int) <> text "#-}" ppAnnot info (AnnotPrimitive (pos,ident) prim) = text "{-# PRIMITIVE " <> ppIdAsVar info ident <> text " = " <> text (unpackPS prim) <> text "#-}" ppAnnot info (AnnotNeed posidents) = text "{-# NEED " <> sep fSpace (map ppNeed posidents) <> text "#-}" where ppNeed [x] = ppIdAsVar info x ppNeed xs = group $ text "{" <> sep fSpace (map (ppIdAsVar info) xs) <> text "}" ppAnnot info (AnnotUnknown) = text "{-# ??? #-}" ppFunDeps :: PPInfo a -> [FunDep a] -> Doc ppFunDeps info [] = text "" ppFunDeps info xs = text " | " <> sep (text ", ") (map (ppFunDep info) xs) ppFunDep :: PPInfo a -> FunDep a -> Doc ppFunDep info (as :->: bs) = ppTyVars as <> text "->" <> ppTyVars bs where --ppTyVars = parensFComma2 info . map (ppId info) ppTyVars = sep fSpace . map (ppId info) ppWhere :: PPInfo a -> Decls a -> Doc ppWhere info decls | noDecls decls = nil | otherwise = line <> text "where" <> line <> ppTopDecls info decls ppClassCodes :: PPInfo a -> [ClassCode b a] -> Doc ppClassCodes info decls = sep line (map (ppClassCode info) decls) ppClassCode :: PPInfo a -> ClassCode b a -> Doc ppClassCode info (CodeClass pos cls) = groupNestS info $ text "code class" <> dSpace <> ppId info cls ppClassCode info (CodeInstance pos cls typ arg ecs methods) = groupNestS info $ text "code instance" <> fSpace <> ppId info cls <> fSpace <> ppId info typ <> text " ? = ?" <> line <> sep dSemiSpace (map (ppIdAsVar info) methods) ppConstrs :: PPInfo a -> [Constr a] -> Doc ppConstrs info [] = dSpace <> text "{- no constructors -}" ppConstrs info cs = text " =" <> fSpace <> group (sep (fSpace <> text "| ") (map (ppConstr info) cs)) ppFun :: PPInfo a -> a -> Fun a -> Doc ppFun info id (Fun pats rhs w) = groupNestS info $ (group (group $ sep fSpace $ ppIdAsVar info id : map (ppExpPrec info True) pats) <> ppRhs info "=" rhs) <> ppWhere info w ppStmts :: PPInfo a -> [Stmt a] -> Doc ppStmts info stmts = sep line (map (ppStmt info) stmts) ppStmt :: PPInfo a -> Stmt a -> Doc ppStmt info (StmtExp exp) = ppExp info exp ppStmt info (StmtBind pat exp) = groupNestS info $ ppPat info pat <> dSpace <> text "<- " <> ppExp info exp ppStmt info (StmtLet ds) = groupNestS info $ text "let" <> dSpace <> ppDecls info ds ppPat :: PPInfo a -> Exp a -> Doc ppPat = ppExp ppPos :: PPInfo a -> Pos -> Doc ppPos info pos = if withPositions info then (braces . text . show $ pos) <> space else nil parenExp :: PPInfo a -> Pos -> Bool -> Doc -> Doc parenExp info pos withPar doc = groupNestS info $ ppPos info pos <> if withPar then parens doc else doc ppExp :: PPInfo a -> Exp a -> Doc ppExp info = ppExpPrec info False ppExpPrec :: PPInfo a -> Bool -> Exp a -> Doc ppExpPrec info withPar (ExpLambda pos pats e) = parenExp info pos withPar $ text "\\ " <> sep fSpace (map (ppLambdaPat info) pats) <> text " ->" <> dSpace <> ppExpPrec info False e ppExpPrec info withPar (ExpDo pos stmts) = parenExp info pos withPar $ text "do" <> dSpace <> ppStmts info stmts ppExpPrec info withPar (ExpLet pos ds e) = parenExp info pos withPar $ text "let" <> dSpace <> ppDecls info ds <> fSpace <> text "in" <> fSpace <> parens (ppExpPrec info False e) ppExpPrec info withPar (ExpCase pos e alts) = parenExp info pos withPar $ group (text "case" <> dSpace <> ppExpPrec info False e <> text " of") <> dSpace <> sep dSemiSpace (map (ppAlt info "->") alts) ppExpPrec info _ (ExpFail) = text "fail" ppExpPrec info withPar (ExpFatbar e1 e2) = parenExp info noPos withPar $ text "fatbar" <> dSpace <> ppExpPrec info False e1 <> dSpace <> text "-- " <> ppExpPrec info False e2 ppExpPrec info withPar (ExpIf pos c e1 e2) = parenExp info pos withPar $ text "if " <> ppExpPrec info False c <> dSpace <> text "then " <> ppExpPrec info False e1 <> dSpace <> text "else " <> ppExpPrec info False e2 ppExpPrec info withPar (ExpType pos e cxs t) = parenExp info pos withPar $ ppExpPrec info False e <> dSpace <> text ":: " <> ppTypeWithContext info cxs t ppExpPrec info withPar (ExpRecord exp fields) = parenExp info noPos withPar $ ppExpPrec info True exp <> dSpace <> (braces . sep fComma . map (ppField info) $ fields) ppExpPrec info withPar (ExpApplication pos (ExpCon _ id : args)) | isJust tuple && n == length args = ppPos info pos <> (groupParens info . sep fComma . map (ppExpPrec info False) $ args) where tuple = maybeTuple info id Just n = tuple ppExpPrec info withPar (ExpApplication pos (op : args)) | isJust maybeConOrVarId && idIsOperator info id = case args of -- assume application consists of at least two expressions [arg1] -> groupParens info $ ppExpPrec info True arg1 <> dSpace <> ppIdAsOperator info id [arg1,arg2] -> groupParens info $ ppExpPrec info True arg1 <> dSpace <> ppIdAsOperator info id <> dSpace <> ppExpPrec info True arg2 (arg1:arg2:args) -> ppExpPrec info withPar (ExpApplication pos ((ExpApplication noPos [op,arg1,arg2]) : args)) where maybeConOrVarId = case op of ExpCon _ id -> Just id ExpVar _ id -> Just id _ -> Nothing id = fromJust maybeConOrVarId ppExpPrec info withPar (ExpApplication pos exps) = parenExp info pos withPar $ sep fSpace $ map (ppExpPrec info True) exps ppExpPrec info withPar (ExpInfixList pos exps) = parenExp info pos withPar $ sep fSpace $ map (ppExpPrec info True) exps ppExpPrec info _ (ExpConOp pos id) = ppPos info pos <> ppIdAsOperator info id ppExpPrec info _ (ExpVarOp pos id) = ppPos info pos <> ppIdAsOperator info id ppExpPrec info _ (ExpCon pos id) = ppPos info pos <> case maybeTuple info id of Just n -> groupParens info . sep fComma . replicate n $ nil Nothing -> ppIdAsVar info id ppExpPrec info _ (ExpVar pos id) = ppPos info pos <> ppIdAsVar info id ppExpPrec info withPar (ExpDict exp) = parenExp info noPos withPar $ text "{d} " <> ppExpPrec info False exp ppExpPrec info _ (ExpLit pos lit) = ppPos info pos <> text (show lit) ppExpPrec info _ (ExpList pos es) = groupNestS info $ ppPos info pos <> (brackets $ sep fComma $ map (ppExpPrec info False) es) ppExpPrec info _ (ExpListComp pos e qs) = groupNestS info $ ppPos info pos <> (brackets $ ppExpPrec info False e <> dSpace <> text "| " <> ppQuals info qs) ppExpPrec info _ (ExpListEnum pos ef meth meto) = groupNestS info $ ppPos info pos <> (brackets $ ppExpPrec info False ef <> ppmeth <> dSpace <> text ".." <> ppmeto) where ppmeth = case meth of Nothing -> nil Just e -> fComma <> ppExpPrec info False e ppmeto = case meto of Nothing -> nil Just e -> fSpace <> ppExpPrec info False e ppExpPrec info withPar (ExpBrack _pos e) = ppExpPrec info withPar e ppExpPrec info _ (Exp2 pos id1 id2) = ppPos info pos <> ppId info id1 <> text "." <> ppIdAsVar info id2 ppExpPrec info withPar (PatAs pos id pat) = parenExp info pos withPar $ ppIdAsVar info id <> text "@" <> ppExpPrec info True pat ppExpPrec info _ (PatWildcard pos) = ppPos info pos <> text "_" ppExpPrec info _ (PatIrrefutable pos pat) = groupNestS info $ ppPos info pos <> text "~" <> ppExpPrec info True pat ppExpPrec info withPar (PatNplusK pos n n' k _ _) = parenExp info pos withPar $ ppIdAsVar info n <> fSpace <> text "+" <> fSpace <> ppExpPrec info True k ppExpPrec info withPar (ExpTypeRep pos nt) = parenExp info pos withPar $ text "typeRep :: " <> text (niceNT Nothing state al nt) where al = mkAL [] state = intState info ppLambdaPat :: PPInfo a -> Exp a -> Doc ppLambdaPat info pat@(ExpApplication _ _) = ppExpPrec info True pat ppLambdaPat info pat = ppExpPrec info False pat ppField :: PPInfo a -> Field a -> Doc ppField info (FieldExp pos var exp) = groupNestS info $ ppPos info pos <> ppIdAsVar info var <> dSpace <> text "= " <> ppExp info exp ppField info (FieldPun pos var) = ppPos info pos <> ppIdAsVar info var ppAlt :: PPInfo a -> String -> Alt a -> Doc ppAlt info delimiter (Alt pat rhs w) = groupNestS info $ group (ppPat info pat <> ppRhs info delimiter rhs) <> ppWhere info w ppRhs :: PPInfo a -> String -> Rhs a -> Doc ppRhs info delimiter (Unguarded exp) = space <> text delimiter <> dSpace <> ppExp info exp ppRhs info delimiter (PatGuard [gd]) = dSpace <> ppPatGdPat info delimiter gd ppRhs info delimiter (PatGuard gds) = encase line (map (ppPatGdPat info delimiter) gds) ppPatGdPat :: PPInfo a -> String -> ([Qual a], Exp a) -> Doc ppPatGdPat info deli (qs,e2) = groupNestS info $ text "| " <> ppQuals info qs <> space <> text deli <> dSpace <> ppExp info e2 ppQuals :: PPInfo a -> [Qual a] -> Doc ppQuals info quals = sep fComma (map (ppQual info) quals) ppQual :: PPInfo a -> Qual a -> Doc ppQual info (QualPatExp pat exp) = groupNestS info $ ppPat info pat <> dSpace <> text "<- " <> ppExp info exp ppQual info (QualExp exp) = ppExp info exp ppQual info (QualLet ds) = groupNestS info $ text "let" <> dSpace <> ppDecls info ds {- various formatting functions for identifiers ---------------------------- -} ppId :: PPInfo a -> a -> Doc ppId info id = text (id2str info id) {- If the identifier is an operator, then surround it by paranthesis. -} ppIdAsVar :: PPInfo a -> a -> Doc ppIdAsVar info id | isOperator name = text ('(' : name ++ ")") | otherwise = text name where name = id2str info id {- if the identifier is a variable or constructor, then surround it by backquotes. -} ppIdAsOperator :: PPInfo a -> a -> Doc ppIdAsOperator info id | isOperator name = text name | otherwise = text ('`' : name ++ "`") where name = id2str info id {- Not nice: the unique of a type variable does not refer to a symbol table entry. So it has to be handled specially. -} ppTyVar :: PPInfo a -> a -> Doc ppTyVar info = text . tyVar2str info {- little helper functions ------------------------------------------------- -} {- Test if declaration list empty -} noDecls :: Decls id -> Bool noDecls (DeclsParse decls) = null decls noDecls (DeclsScc decls) = null decls {- Test if id is an operator -} idIsOperator :: PPInfo a -> a -> Bool idIsOperator info id = isOperator (id2str info id) {- Test if name is an operator -} isOperator :: String -> Bool isOperator = not . isVarChar . last where isVarChar c = isAlphaNum c || c == '_' || c == '\'' || c == ']' -- empty list [] || c == '}' -- traceId {- End PrettySyntax -------------------------------------------------------- -}