import Control.Monad
import Control.Applicative
from Data.Func import $
+import Data.Void
instance toString Error where
- toString ParseError = "General parse error"
- toString (LexError e) = "Lexer error: " +++ e
- toString (Expected ts pos) = "Expected " +++ (concat $ intersperse ", " ts)
- +++ " at position " +++ (toString pos)
-
-instance + Error where
- (+) (Expected as _) (Expected bs p) = Expected (as++bs) p
- (+) _ r = r
+ toString (PositionalError l c e) =
+ concat [toString l,":",toString c,": ",e, "\n"]
+ toString (Error e) = concat ["-:-: ", e, "\n"]
runParser :: (Parser a b) [a] -> (Either Error b, [a])
runParser (Parser f) i = f i
+instance + Error where
+ (+) r1 r2 = r2 //TODO
+
instance Functor (Parser a) where
fmap f m = liftM f m
instance Monad (Parser a) where
bind p f = Parser \i -> case runParser p i of
(Right r, rest) = runParser (f r) rest
- (Left e, rest) = (Left e, rest)
+ (Left e, _) = (Left e, i)
instance Alternative (Parser a) where
- empty = Parser \i -> (Left ParseError, i)
+ empty = Parser \i -> (Left $ Error "" , i)
(<|>) p1 p2 = Parser \i -> case runParser p1 i of
(Right r, rest) = (Right r, rest)
(Left e1, rest) = case runParser p2 i of
- (Right r, rest) = (Right r, rest)
- (Left e2, rest) = (Left (e1+e2), rest)
+ (Left e2, rest) = (Left $ e1+e2, i)
+ (Right r, rest) = (Right r, rest)
//Try the parser, if it fails decorate the error with Expected of the given String and position
-(<?>) :: (Parser a b) (String, Int) -> Parser a b
-(<?>) p (e,pos) = Parser \i -> case runParser p i of
- (Left e1, rest) = let error = (e1+(Expected [e] pos)) in (Left error, rest)
+(<?>) :: (Parser a b) Error -> Parser a b
+(<?>) p e = Parser \i -> case runParser p i of
+ (Left e1, rest) = (Left $ e1 + e, rest)
(Right r, rest) = (Right r, rest)
fail :: Parser a b
top :: Parser a a
top = Parser \i -> case i of
- [] = (Left ParseError, [])
+ [] = (Left $ Error "", [])
[x:xs] = (Right x, xs)
+peek :: Parser a a
+peek = Parser \i -> case i of
+ [] = (Left $ Error "", [])
+ [x:xs] = (Right x, [x:xs])
+
+//runs the left parser until the right parser succeeds. Returns the result of the left parser
+//Note: if the right parser consumes input then this input is lost!
+//If the left parser fails before the right parser succeeds the whole parser fails
+(until) infix 2 :: (Parser a b) (Parser a c) -> Parser a [b]
+(until) p guard = try $ until` p guard []
+ where
+ until` :: (Parser a b) (Parser a c) [b] -> Parser a [b]
+ until` p guard acc = Parser \i -> case runParser guard i of
+ (Right _, rest) = (Right acc, rest)
+ (Left _, _) = case runParser p i of
+ (Right r, rest) = runParser (until` p guard [r:acc]) rest
+ (Left e, _) = (Left e, i)
+ try :: (Parser a b) -> Parser a b
+ try p = Parser \i -> case runParser p i of
+ (Left e, _) = (Left e, i)
+ (Right r, rest) = (Right r, rest)
+
+
+eof :: Parser a Void
+eof = Parser \i -> case i of
+ [] = (Right Void, [])
+ _ = (Left $ Error "", i)
+
satisfy :: (a -> Bool) -> Parser a a
satisfy f = top >>= \r -> if (f r) (return r) fail
+check :: (a -> Bool) -> Parser a a
+check f = peek >>= \r -> if (f r) (return r) fail
+
item :: a -> Parser a a | Eq a
item a = satisfy ((==)a)