----------------------------------------------------------------------------- -- -- Module : Language.PureScript.Parser.Types -- Copyright : (c) Phil Freeman 2013 -- License : MIT -- -- Maintainer : Phil Freeman -- Stability : experimental -- Portability : -- -- | -- Parsers for types -- ----------------------------------------------------------------------------- module Language.PureScript.Parser.Types ( parseType, parsePolyType, parseTypeAtom ) where import Language.PureScript.Types import Language.PureScript.Parser.State import Language.PureScript.Parser.Common import Control.Applicative import qualified Text.Parsec as P import qualified Text.Parsec.Expr as P import Control.Monad (when, unless) parseNumber :: P.Parsec String ParseState Type parseNumber = const tyNumber <$> reserved "Number" parseString :: P.Parsec String ParseState Type parseString = const tyString <$> reserved "String" parseBoolean :: P.Parsec String ParseState Type parseBoolean = const tyBoolean <$> reserved "Boolean" parseArray :: P.Parsec String ParseState Type parseArray = squares $ return tyArray parseArrayOf :: P.Parsec String ParseState Type parseArrayOf = squares $ TypeApp tyArray <$> parseType parseFunction :: P.Parsec String ParseState Type parseFunction = parens $ P.try (lexeme (P.string "->")) >> return tyFunction parseObject :: P.Parsec String ParseState Type parseObject = braces $ Object <$> parseRow False parseTypeVariable :: P.Parsec String ParseState Type parseTypeVariable = do ident <- identifier when (ident `elem` reservedTypeNames) $ P.unexpected $ ident return $ TypeVar ident parseTypeConstructor :: P.Parsec String ParseState Type parseTypeConstructor = TypeConstructor <$> parseQualified properName parseForAll :: P.Parsec String ParseState Type parseForAll = (mkForAll <$> (P.try (reserved "forall") *> P.many1 (indented *> identifier) <* indented <* dot) <*> parseConstrainedType) -- | -- Parse a type as it appears in e.g. a data constructor -- parseTypeAtom :: P.Parsec String ParseState Type parseTypeAtom = indented *> P.choice (map P.try [ parseNumber , parseString , parseBoolean , parseArray , parseArrayOf , parseFunction , parseObject , parseTypeVariable , parseTypeConstructor , parseForAll , parens (parseRow True) , parens parsePolyType ]) parseConstrainedType :: P.Parsec String ParseState Type parseConstrainedType = do constraints <- P.optionMaybe . P.try $ do constraints <- parens . commaSep1 $ do className <- parseQualified properName indented ty <- parseType return (className, ty) _ <- lexeme $ P.string "=>" return constraints indented ty <- parseType return $ maybe ty (flip ConstrainedType ty) constraints parseAnyType :: P.Parsec String ParseState Type parseAnyType = (P.buildExpressionParser operators $ parseTypeAtom) P. "type" where operators = [ [ P.Infix (return TypeApp) P.AssocLeft ] , [ P.Infix (P.try (lexeme (P.string "->")) >> return function) P.AssocRight ] ] -- | -- Parse a monotype -- parseType :: P.Parsec String ParseState Type parseType = do ty <- parseAnyType unless (isMonoType ty) $ P.unexpected "polymorphic type" return ty -- | -- Parse a polytype -- parsePolyType :: P.Parsec String ParseState Type parsePolyType = do ty <- parseAnyType return ty parseNameAndType :: P.Parsec String ParseState t -> P.Parsec String ParseState (String, t) parseNameAndType p = (,) <$> (indented *> identifier <* indented <* lexeme (P.string "::")) <*> p parseRowEnding :: P.Parsec String ParseState Type parseRowEnding = P.option REmpty (TypeVar <$> (lexeme (indented *> P.char '|') *> indented *> identifier)) parseRow :: Bool -> P.Parsec String ParseState Type parseRow nonEmpty = (curry rowFromList <$> (many $ parseNameAndType parsePolyType) <*> parseRowEnding) P. "row" where many = if nonEmpty then commaSep1 else commaSep