Idris2/libs/contrib/Data/String/Parser.idr

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||| A simple parser combinator library for strings. Inspired by attoparsec zepto.
module Data.String.Parser
import Control.Monad.Identity
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import Control.Monad.Trans
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import Data.Strings
%default partial
record State where
constructor S
input : String
pos : Int
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maxPos : Int
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data Result a = Fail Int String | OK a State
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public export
record ParseT (m : Type -> Type) (a : Type) where
constructor P
runParser : State -> m (Result a)
public export
Parser : Type -> Type
Parser a = ParseT Identity a
public export
implementation Monad m => Functor (ParseT m) where
map f p = P $ \state =>
do res <- p.runParser state
case res of
OK r state' => pure (OK (f r) state')
Fail i err => pure (Fail i err)
public export
Monad m => Applicative (ParseT m) where
pure x = P $ \s => pure (OK x s)
f <*> x = P $ \s => case !(x.runParser s) of
OK r s' => case !(f.runParser s') of
OK f' fs => pure (OK (f' r) fs)
Fail i err => pure (Fail i err)
Fail i err => pure (Fail i err)
public export
Monad m => Monad (ParseT m) where
m >>= k = P $ \state =>
do res <- m.runParser state
case res of
OK a state' => (k a).runParser state'
Fail i err => pure (Fail i err)
public export
Monad m => Alternative (ParseT m) where
empty = P $ \s => pure $ Fail (s.pos) "no alternative left"
a <|> b = P $ \s => case !(a.runParser s) of
OK r s' => pure $ OK r s'
Fail _ _ => b.runParser s
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public export
MonadTrans ParseT where
lift x = P $ \s => do res <-x
pure $ OK res s
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public export
parseT : Monad m => ParseT m a -> String -> m (Either String a)
parseT p str = do res <- p.runParser (S str 0 (strLength str))
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case res of
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OK r s => pure $ Right r
Fail i err => pure $ Left $ fastAppend ["Parse failed at position ", show i, ": ", err]
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public export
parse : Parser a -> String -> Either String a
parse p str = runIdentity $ parseT p str
public export
satisfy : Monad m => (Char -> Bool) -> ParseT m Char
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satisfy f = P $ \s => do if s.pos < s.maxPos
then do
let ch = strIndex s.input s.pos
if f ch
then pure $ OK ch (S s.input (s.pos + 1) s.maxPos)
else pure $ Fail (s.pos) "satisfy"
else pure $ Fail (s.pos) "satisfy"
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public export
string : Monad m => String -> ParseT m ()
string str = P $ \s => do let len = strLength str
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if s.pos+len < s.maxPos
then do let head = strSubstr s.pos len s.input
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if head == str
then pure $ OK () (S s.input (s.pos + len) s.maxPos)
else pure $ Fail (s.pos) ("string " ++ show str)
else pure $ Fail (s.pos) ("string " ++ show str)
public export
char : Monad m => Char -> ParseT m ()
char c = do _ <- satisfy (== c)
pure ()
mutual
public export
some : Monad m => ParseT m a -> ParseT m (List a)
some p = pure (!p :: !(many p))
public export
many : Monad m => ParseT m a -> ParseT m (List a)
many p = some p <|> pure []
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public export
takeWhile : Monad m => (Char -> Bool) -> ParseT m String
takeWhile f = do ls <- many (satisfy f)
pure $ pack ls