{-# LANGUAGE CPP #-} {-# LANGUAGE ConstraintKinds #-} {-# LANGUAGE DeriveDataTypeable #-} {-# LANGUAGE DeriveFoldable #-} {-# LANGUAGE DeriveFunctor #-} {-# LANGUAGE DeriveTraversable #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE GeneralizedNewtypeDeriving #-} {-# LANGUAGE MultiParamTypeClasses #-} {-# LANGUAGE OverloadedStrings #-} {-# LANGUAGE RankNTypes #-} {-# LANGUAGE ScopedTypeVariables #-} -- | A parser for C99 declarations. Currently, the parser has the following limitations: -- -- * Array sizes can only be @*@, @n@ (where n is a positive integer), @x@ -- (where @x@ is a C identifier). In C99 they can be arbitrary expressions. See -- the @'ArrayType'@ data type. -- -- * @_Bool@, @_Complex@, and @_Imaginary@ are not present. -- -- * Untyped parameter lists (pre-K&R C) are not allowed. -- -- The parser is incremental and generic (see 'CParser'). 'PP.Pretty' -- and 'QC.Arbitrary' instances are provided for all the data types. -- -- The entry point if you want to parse C declarations is -- @'parameter_declaration'@. module Language.C.Types.Parse ( -- * Parser configuration TypeNames , CParserContext(..) -- ** Default configuration , CIdentifier , unCIdentifier , cIdentifierFromString , cCParserContext -- * Parser type , CParser , runCParser , quickCParser , quickCParser_ -- * Types and parsing -- , identifier , identifier_no_lex , DeclarationSpecifier(..) , declaration_specifiers , StorageClassSpecifier(..) , storage_class_specifier , TypeSpecifier(..) , type_specifier , TypeQualifier(..) , type_qualifier , FunctionSpecifier(..) , function_specifier , Declarator(..) , declarator , DirectDeclarator(..) , direct_declarator , ArrayOrProto(..) , array_or_proto , ArrayType(..) , array_type , Pointer(..) , pointer , ParameterDeclaration(..) , DeclaratorOrAbstractDeclarator(..) , parameter_declaration , parameter_list , AbstractDeclarator(..) , abstract_declarator , DirectAbstractDeclarator(..) , direct_abstract_declarator -- * YACC grammar -- $yacc -- * Testing utilities , cIdentStart , cIdentLetter , cReservedWords , isTypeName ) where import Control.Applicative import Control.Monad (msum, void, MonadPlus, unless, when) import Control.Monad.Reader (MonadReader, runReaderT, ReaderT, asks, ask) import Data.List (intersperse) import Data.Functor.Identity (Identity) import qualified Data.HashSet as HashSet import Data.Hashable (Hashable) import Data.Monoid ((<>)) import Data.String (IsString(..)) import Data.Typeable (Typeable) import qualified Text.Parsec as Parsec import Text.Parser.Char import Text.Parser.Combinators import Text.Parser.LookAhead import Text.Parser.Token import qualified Text.Parser.Token.Highlight as Highlight import Text.PrettyPrint.ANSI.Leijen (Pretty(..), (<+>), Doc, hsep) import qualified Text.PrettyPrint.ANSI.Leijen as PP #if __GLASGOW_HASKELL__ < 710 import Data.Foldable (Foldable) import Data.Traversable (Traversable) #endif ------------------------------------------------------------------------ -- Config -- | A collection of named types (typedefs) type TypeNames = HashSet.HashSet CIdentifier data CParserContext i = CParserContext { cpcIdentName :: String , cpcTypeNames :: TypeNames -- ^ Function used to determine whether an identifier is a type name. , cpcParseIdent :: forall m. CParser i m => m i -- ^ Parses an identifier, *without consuming whitespace afterwards*. , cpcIdentToString :: i -> String , cpcEnableCpp :: Bool } -- | A type for C identifiers. newtype CIdentifier = CIdentifier {unCIdentifier :: String} deriving (Typeable, Eq, Ord, Show, Hashable) cIdentifierFromString :: Bool -> String -> Either String CIdentifier cIdentifierFromString useCpp s = -- Note: it's important not to use 'cidentifier_raw' here, otherwise -- we go in a loop: -- -- @ -- cIdentifierFromString => fromString => cIdentifierFromString => ... -- @ case Parsec.parse (identNoLex useCpp cIdentStyle <* eof) "cIdentifierFromString" s of Left err -> Left $ show err Right x -> Right $ CIdentifier x instance IsString CIdentifier where fromString s = case cIdentifierFromString True s of Left err -> error $ "CIdentifier fromString: invalid string " ++ show s ++ "\n" ++ err Right x -> x cCParserContext :: Bool -> TypeNames -> CParserContext CIdentifier cCParserContext useCpp typeNames = CParserContext { cpcTypeNames = typeNames , cpcParseIdent = cidentifier_no_lex , cpcIdentToString = unCIdentifier , cpcIdentName = "C identifier" , cpcEnableCpp = useCpp } ------------------------------------------------------------------------ -- Parser -- | All the parsing is done using the type classes provided by the -- @parsers@ package. You can use the parsing routines with any of the parsers -- that implement the classes, such as @parsec@ or @trifecta@. -- -- We parametrize the parsing by the type of the variable identifiers, -- @i@. We do so because we use this parser to implement anti-quoters -- referring to Haskell variables, and thus we need to parse Haskell -- identifiers in certain positions. type CParser i m = ( Monad m , Functor m , Applicative m , MonadPlus m , Parsing m , CharParsing m , TokenParsing m , LookAheadParsing m , MonadReader (CParserContext i) m #if (MIN_VERSION_base(4,13,0)) , MonadFail m #endif , Hashable i ) -- | Runs a @'CParser'@ using @parsec@. runCParser :: Parsec.Stream s Identity Char => CParserContext i -> String -- ^ Source name. -> s -- ^ String to parse. -> (ReaderT (CParserContext i) (Parsec.Parsec s ()) a) -- ^ Parser. Anything with type @forall m. CParser i m => m a@ is a -- valid argument. -> Either Parsec.ParseError a runCParser typeNames fn s p = Parsec.parse (runReaderT p typeNames) fn s -- | Useful for quick testing. Uses @\"quickCParser\"@ as source name, and throws -- an 'error' if parsing fails. quickCParser :: CParserContext i -> String -- ^ String to parse. -> (ReaderT (CParserContext i) (Parsec.Parsec String ()) a) -- ^ Parser. Anything with type @forall m. CParser i m => m a@ is a -- valid argument. -> a quickCParser typeNames s p = case runCParser typeNames "quickCParser" s p of Left err -> error $ "quickCParser: " ++ show err Right x -> x -- | Like 'quickCParser', but uses @'cCParserContext' ('const' 'False')@ as -- 'CParserContext'. quickCParser_ :: Bool -> String -- ^ String to parse. -> (ReaderT (CParserContext CIdentifier) (Parsec.Parsec String ()) a) -- ^ Parser. Anything with type @forall m. CParser i m => m a@ is a -- valid argument. -> a quickCParser_ useCpp = quickCParser (cCParserContext useCpp HashSet.empty) cReservedWords :: HashSet.HashSet String cReservedWords = HashSet.fromList [ "auto", "else", "long", "switch" , "break", "enum", "register", "typedef" , "case", "extern", "return", "union" , "char", "float", "short", "unsigned" , "const", "for", "signed", "void" , "continue", "goto", "sizeof", "volatile" , "default", "if", "static", "while" , "do", "int", "struct", "double" ] cIdentStart :: [Char] cIdentStart = ['a'..'z'] ++ ['A'..'Z'] ++ ['_'] cIdentLetter :: [Char] cIdentLetter = ['a'..'z'] ++ ['A'..'Z'] ++ ['_'] ++ ['0'..'9'] cIdentStyle :: (TokenParsing m, Monad m) => IdentifierStyle m cIdentStyle = IdentifierStyle { _styleName = "C identifier" , _styleStart = oneOf cIdentStart , _styleLetter = oneOf cIdentLetter , _styleReserved = cReservedWords , _styleHighlight = Highlight.Identifier , _styleReservedHighlight = Highlight.ReservedIdentifier } data DeclarationSpecifier = StorageClassSpecifier StorageClassSpecifier | TypeSpecifier TypeSpecifier | TypeQualifier TypeQualifier | FunctionSpecifier FunctionSpecifier deriving (Typeable, Eq, Show) declaration_specifiers :: CParser i m => m [DeclarationSpecifier] declaration_specifiers = many1 $ msum [ StorageClassSpecifier <$> storage_class_specifier , TypeSpecifier <$> type_specifier , TypeQualifier <$> type_qualifier , FunctionSpecifier <$> function_specifier ] data StorageClassSpecifier = TYPEDEF | EXTERN | STATIC | AUTO | REGISTER deriving (Typeable, Eq, Show) storage_class_specifier :: CParser i m => m StorageClassSpecifier storage_class_specifier = msum [ TYPEDEF <$ reserve cIdentStyle "typedef" , EXTERN <$ reserve cIdentStyle "extern" , STATIC <$ reserve cIdentStyle "static" , AUTO <$ reserve cIdentStyle "auto" , REGISTER <$ reserve cIdentStyle "register" ] data TypeSpecifier = VOID | BOOL | CHAR | SHORT | INT | LONG | FLOAT | DOUBLE | SIGNED | UNSIGNED | Struct CIdentifier | Enum CIdentifier | TypeName CIdentifier | Template CIdentifier [TypeSpecifier] | TemplateConst String | TemplatePointer TypeSpecifier deriving (Typeable, Eq, Show) type_specifier :: CParser i m => m TypeSpecifier type_specifier = msum [ VOID <$ reserve cIdentStyle "void" , BOOL <$ reserve cIdentStyle "bool" , CHAR <$ reserve cIdentStyle "char" , SHORT <$ reserve cIdentStyle "short" , INT <$ reserve cIdentStyle "int" , LONG <$ reserve cIdentStyle "long" , FLOAT <$ reserve cIdentStyle "float" , DOUBLE <$ reserve cIdentStyle "double" , SIGNED <$ reserve cIdentStyle "signed" , UNSIGNED <$ reserve cIdentStyle "unsigned" , Struct <$> (reserve cIdentStyle "struct" >> cidentifier) , Enum <$> (reserve cIdentStyle "enum" >> cidentifier) , template_parser , TypeName <$> type_name ] identifier :: CParser i m => m i identifier = token identifier_no_lex isTypeName :: Bool -> TypeNames -> String -> Bool isTypeName useCpp typeNames id_ = case cIdentifierFromString useCpp id_ of -- If it's not a valid C identifier, then it's definitely not a C type name. Left _err -> False Right s -> HashSet.member s typeNames identifier_no_lex :: CParser i m => m i identifier_no_lex = try $ do ctx <- ask id_ <- cpcParseIdent ctx cpcIdentName ctx when (isTypeName (cpcEnableCpp ctx) (cpcTypeNames ctx) (cpcIdentToString ctx id_)) $ unexpected $ "type name " ++ cpcIdentToString ctx id_ return id_ -- | Same as 'cidentifier_no_lex', but does not check that the -- identifier is not a type name. cidentifier_raw :: (TokenParsing m, Monad m) => Bool -> m CIdentifier cidentifier_raw useCpp = identNoLex useCpp cIdentStyle -- | This parser parses a 'CIdentifier' and nothing else -- it does not consume -- trailing spaces and the like. cidentifier_no_lex :: CParser i m => m CIdentifier cidentifier_no_lex = try $ do ctx <- ask s <- cidentifier_raw (cpcEnableCpp ctx) typeNames <- asks cpcTypeNames when (HashSet.member s typeNames) $ unexpected $ "type name " ++ unCIdentifier s return s cidentifier :: CParser i m => m CIdentifier cidentifier = token cidentifier_no_lex type_name :: CParser i m => m CIdentifier type_name = try $ do ctx <- ask s <- ident' (cpcEnableCpp ctx) cIdentStyle "type name" typeNames <- asks cpcTypeNames unless (HashSet.member s typeNames) $ unexpected $ "identifier " ++ unCIdentifier s return s templateParser :: (Monad m, CharParsing m, CParser i m) => IdentifierStyle m -> m TypeSpecifier templateParser s = parse' where parse' = do id' <- cidentParserWithNamespace _ <- string "<" args <- templateArgParser _ <- string ">" return $ Template (CIdentifier id') args cidentParser = ((:) <$> _styleStart s <*> many (_styleLetter s) _styleName s) cidentParserWithNamespace = try (concat <$> sequence [cidentParser, (string "::"), cidentParserWithNamespace]) <|> cidentParser templateArgType = try ((TemplatePointer <$> (type_specifier)) <* (string "*")) <|> try type_specifier <|> (TemplateConst <$> (many $ oneOf ['0'..'9'])) templateArgParser' = do t <- templateArgType _ <- string "," tt <- templateArgParser return $ t:tt templateArgParser = try (templateArgParser') <|> ((:) <$> templateArgType <*> return []) template_parser :: CParser i m => m TypeSpecifier template_parser = try $ templateParser cIdentStyle "template name" data TypeQualifier = CONST | RESTRICT | VOLATILE deriving (Typeable, Eq, Show) type_qualifier :: CParser i m => m TypeQualifier type_qualifier = msum [ CONST <$ reserve cIdentStyle "const" , RESTRICT <$ reserve cIdentStyle "restrict" , VOLATILE <$ reserve cIdentStyle "volatile" ] data FunctionSpecifier = INLINE deriving (Typeable, Eq, Show) function_specifier :: CParser i m => m FunctionSpecifier function_specifier = msum [ INLINE <$ reserve cIdentStyle "inline" ] data Declarator i = Declarator { declaratorPointers :: [Pointer] , declaratorDirect :: (DirectDeclarator i) } deriving (Typeable, Eq, Show, Functor, Foldable, Traversable) declarator :: CParser i m => m (Declarator i) declarator = (Declarator <$> many pointer <*> direct_declarator) "declarator" data DirectDeclarator i = DeclaratorRoot i | ArrayOrProto (DirectDeclarator i) (ArrayOrProto i) | DeclaratorParens (Declarator i) deriving (Typeable, Eq, Show, Functor, Foldable, Traversable) data ArrayOrProto i = Array (ArrayType i) | Proto [ParameterDeclaration i] -- We don't include old prototypes. deriving (Eq, Show, Typeable, Functor, Foldable, Traversable) array_or_proto :: CParser i m => m (ArrayOrProto i) array_or_proto = msum [ Array <$> brackets array_type , Proto <$> parens parameter_list ] -- TODO handle more stuff in array brackets data ArrayType i = VariablySized | Unsized | SizedByInteger Integer | SizedByIdentifier i deriving (Typeable, Eq, Show, Functor, Foldable, Traversable) array_type :: CParser i m => m (ArrayType i) array_type = msum [ VariablySized <$ symbolic '*' , SizedByInteger <$> natural , SizedByIdentifier <$> identifier , return Unsized ] direct_declarator :: CParser i m => m (DirectDeclarator i) direct_declarator = do ddecltor <- msum [ DeclaratorRoot <$> identifier , DeclaratorParens <$> parens declarator ] aops <- many array_or_proto return $ foldl ArrayOrProto ddecltor aops data Pointer = Pointer [TypeQualifier] deriving (Typeable, Eq, Show) pointer :: CParser i m => m Pointer pointer = do void $ symbolic '*' Pointer <$> many type_qualifier parameter_list :: CParser i m => m [ParameterDeclaration i] parameter_list = sepBy parameter_declaration $ symbolic ',' data ParameterDeclaration i = ParameterDeclaration { parameterDeclarationSpecifiers :: [DeclarationSpecifier] , parameterDeclarationDeclarator :: DeclaratorOrAbstractDeclarator i } deriving (Eq, Show, Typeable, Functor, Foldable, Traversable) data DeclaratorOrAbstractDeclarator i = IsDeclarator (Declarator i) | IsAbstractDeclarator (AbstractDeclarator i) deriving (Eq, Show, Typeable, Functor, Foldable, Traversable) parameter_declaration :: CParser i m => m (ParameterDeclaration i) parameter_declaration = ParameterDeclaration <$> declaration_specifiers <*> mbabstract where mbabstract = IsDeclarator <$> try declarator <|> IsAbstractDeclarator <$> try abstract_declarator <|> return (IsAbstractDeclarator (AbstractDeclarator [] Nothing)) data AbstractDeclarator i = AbstractDeclarator { abstractDeclaratorPointers :: [Pointer] , abstractDeclaratorDirect :: Maybe (DirectAbstractDeclarator i) } deriving (Typeable, Eq, Show, Functor, Foldable, Traversable) abstract_declarator :: CParser i m => m (AbstractDeclarator i) abstract_declarator = do ptrs <- many pointer -- If there are no pointers, there must be an abstract declarator. let p = if null ptrs then Just <$> direct_abstract_declarator else (Just <$> try direct_abstract_declarator) <|> return Nothing AbstractDeclarator ptrs <$> p data DirectAbstractDeclarator i = ArrayOrProtoHere (ArrayOrProto i) | ArrayOrProtoThere (DirectAbstractDeclarator i) (ArrayOrProto i) | AbstractDeclaratorParens (AbstractDeclarator i) deriving (Typeable, Eq, Show, Functor, Foldable, Traversable) direct_abstract_declarator :: CParser i m => m (DirectAbstractDeclarator i) direct_abstract_declarator = do ddecltor <- msum [ try (ArrayOrProtoHere <$> array_or_proto) , AbstractDeclaratorParens <$> parens abstract_declarator ] "array, prototype, or parenthesised abstract declarator" aops <- many array_or_proto return $ foldl ArrayOrProtoThere ddecltor aops ------------------------------------------------------------------------ -- Pretty printing instance Pretty CIdentifier where pretty = PP.text . unCIdentifier instance Pretty DeclarationSpecifier where pretty dspec = case dspec of StorageClassSpecifier x -> pretty x TypeSpecifier x -> pretty x TypeQualifier x -> pretty x FunctionSpecifier x -> pretty x instance Pretty StorageClassSpecifier where pretty storage = case storage of TYPEDEF -> "typedef" EXTERN -> "extern" STATIC -> "static" AUTO -> "auto" REGISTER -> "register" instance Pretty TypeSpecifier where pretty tySpec = case tySpec of VOID -> "void" BOOL -> "bool" CHAR -> "char" SHORT -> "short" INT -> "int" LONG -> "long" FLOAT -> "float" DOUBLE -> "double" SIGNED -> "signed" UNSIGNED -> "unsigned" Struct x -> "struct" <+> pretty x Enum x -> "enum" <+> pretty x TypeName x -> pretty x Template x args -> pretty x <+> "<" <+> mconcat (intersperse "," (map pretty args)) <+> ">" TemplateConst x -> pretty x TemplatePointer x -> pretty x <+> "*" instance Pretty TypeQualifier where pretty tyQual = case tyQual of CONST -> "const" RESTRICT -> "restrict" VOLATILE -> "volatile" instance Pretty FunctionSpecifier where pretty funSpec = case funSpec of INLINE -> "inline" instance Pretty i => Pretty (Declarator i) where pretty (Declarator ptrs ddecltor) = case ptrs of [] -> pretty ddecltor _:_ -> prettyPointers ptrs <+> pretty ddecltor prettyPointers :: [Pointer] -> Doc prettyPointers [] = "" prettyPointers (x : xs) = pretty x <> prettyPointers xs instance Pretty Pointer where pretty (Pointer tyQual) = "*" <> hsep (map pretty tyQual) instance Pretty i => Pretty (DirectDeclarator i) where pretty decltor = case decltor of DeclaratorRoot x -> pretty x DeclaratorParens x -> "(" <> pretty x <> ")" ArrayOrProto ddecltor aorp -> pretty ddecltor <> pretty aorp instance Pretty i => Pretty (ArrayOrProto i) where pretty aorp = case aorp of Array x -> "[" <> pretty x <> "]" Proto x -> "(" <> prettyParams x <> ")" prettyParams :: (Pretty a) => [a] -> Doc prettyParams xs = case xs of [] -> "" [x] -> pretty x x : xs'@(_:_) -> pretty x <> "," <+> prettyParams xs' instance Pretty i => Pretty (ArrayType i) where pretty at = case at of VariablySized -> "*" SizedByInteger n -> pretty n SizedByIdentifier s -> pretty s Unsized -> "" instance Pretty i => Pretty (ParameterDeclaration i) where pretty (ParameterDeclaration declSpecs decltor) = case declSpecs of [] -> decltorDoc _:_ -> hsep (map pretty declSpecs) <+> decltorDoc where decltorDoc = case decltor of IsDeclarator x -> pretty x IsAbstractDeclarator x -> pretty x instance Pretty i => Pretty (AbstractDeclarator i) where pretty (AbstractDeclarator ptrs mbDecltor) = case (ptrs, mbDecltor) of (_, Nothing) -> prettyPointers ptrs ([], Just x) -> pretty x (_:_, Just x) -> prettyPointers ptrs <+> pretty x instance Pretty i => Pretty (DirectAbstractDeclarator i) where pretty ddecltor = case ddecltor of AbstractDeclaratorParens x -> "(" <> pretty x <> ")" ArrayOrProtoHere aop -> pretty aop ArrayOrProtoThere ddecltor' aop -> pretty ddecltor' <> pretty aop ------------------------------------------------------------------------ -- Utils many1 :: CParser i m => m a -> m [a] many1 p = (:) <$> p <*> many p ------------------------------------------------------------------------ -- YACC grammar -- $yacc -- -- The parser above is derived from a modification of the YACC grammar -- for C99 found at , -- reproduced below. -- -- @ -- %token IDENTIFIER TYPE_NAME INTEGER -- -- %token TYPEDEF EXTERN STATIC AUTO REGISTER INLINE RESTRICT -- %token CHAR SHORT INT LONG SIGNED UNSIGNED FLOAT DOUBLE CONST VOLATILE VOID -- %token BOOL COMPLEX IMAGINARY -- %token STRUCT UNION ENUM -- -- %start parameter_list -- %% -- -- declaration_specifiers -- : storage_class_specifier -- | storage_class_specifier declaration_specifiers -- | type_specifier -- | type_specifier declaration_specifiers -- | type_qualifier -- | type_qualifier declaration_specifiers -- | function_specifier -- | function_specifier declaration_specifiers -- ; -- -- storage_class_specifier -- : TYPEDEF -- | EXTERN -- | STATIC -- | AUTO -- | REGISTER -- ; -- -- type_specifier -- : VOID -- | CHAR -- | SHORT -- | INT -- | LONG -- | FLOAT -- | DOUBLE -- | SIGNED -- | UNSIGNED -- | BOOL -- | COMPLEX -- | IMAGINARY -- | STRUCT IDENTIFIER -- | UNION IDENTIFIER -- | ENUM IDENTIFIER -- | TYPE_NAME -- ; -- -- type_qualifier -- : CONST -- | RESTRICT -- | VOLATILE -- ; -- -- function_specifier -- : INLINE -- ; -- -- declarator -- : pointer direct_declarator -- | direct_declarator -- ; -- -- direct_declarator -- : IDENTIFIER -- | '(' declarator ')' -- | direct_declarator '[' type_qualifier_list ']' -- | direct_declarator '[' type_qualifier_list '*' ']' -- | direct_declarator '[' '*' ']' -- | direct_declarator '[' IDENTIFIER ']' -- | direct_declarator '[' INTEGER ']' -- | direct_declarator '[' ']' -- | direct_declarator '(' parameter_list ')' -- | direct_declarator '(' ')' -- ; -- -- pointer -- : '*' -- | '*' type_qualifier_list -- | '*' pointer -- | '*' type_qualifier_list pointer -- ; -- -- type_qualifier_list -- : type_qualifier -- | type_qualifier_list type_qualifier -- ; -- -- parameter_list -- : parameter_declaration -- | parameter_list ',' parameter_declaration -- ; -- -- parameter_declaration -- : declaration_specifiers declarator -- | declaration_specifiers abstract_declarator -- | declaration_specifiers -- ; -- -- abstract_declarator -- : pointer -- | direct_abstract_declarator -- | pointer direct_abstract_declarator -- ; -- -- direct_abstract_declarator -- : '(' abstract_declarator ')' -- | '[' ']' -- | direct_abstract_declarator '[' ']' -- | '[' '*' ']' -- | direct_abstract_declarator '[' '*' ']' -- | '[' IDENTIFIER ']' -- | direct_abstract_declarator '[' IDENTIFIER ']' -- | '[' INTEGER ']' -- | direct_abstract_declarator '[' INTEGER ']' -- | '(' ')' -- | '(' parameter_list ')' -- | direct_abstract_declarator '(' ')' -- | direct_abstract_declarator '(' parameter_list ')' -- ; -- -- %% -- #include \ -- -- extern char yytext[]; -- extern int column; -- -- void yyerror(char const *s) -- { -- fflush(stdout); -- printf("\n%*s\n%*s\n", column, "^", column, s); -- } -- @ -- Utils ------------------------------------------------------------------------ cppIdentParser :: (Monad m, CharParsing m) => Bool -> IdentifierStyle m -> m [Char] cppIdentParser useCpp s = cidentParserWithNamespace where cidentParser = ((:) <$> _styleStart s <*> many (_styleLetter s) _styleName s) cidentParserWithNamespace = if useCpp then try (concat <$> sequence [cidentParser, (string "::"), cidentParserWithNamespace]) <|> cidentParser else cidentParser identNoLex :: (TokenParsing m, Monad m, IsString s) => Bool -> IdentifierStyle m -> m s identNoLex useCpp s = fmap fromString $ try $ do name <- highlight (_styleHighlight s) (cppIdentParser useCpp s) when (HashSet.member name (_styleReserved s)) $ unexpected $ "reserved " ++ _styleName s ++ " " ++ show name return name ident' :: (TokenParsing m, Monad m, IsString s) => Bool -> IdentifierStyle m -> m s ident' useCpp s = fmap fromString $ token $ try $ do name <- highlight (_styleHighlight s) (cppIdentParser useCpp s) when (HashSet.member name (_styleReserved s)) $ unexpected $ "reserved " ++ _styleName s ++ " " ++ show name return name