{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE TypeFamilies #-}
module Waargonaut.Types.Whitespace
(
Whitespace (..)
, WS (..)
, _WhitespaceChar
, escapedWhitespaceChar
, unescapedWhitespaceChar
, oneWhitespace
, parseWhitespace
, parseSomeWhitespace
) where
import Control.Applicative (liftA2)
import Control.Lens (AsEmpty (..), Cons (..), Prism',
Rewrapped, Wrapped (..), iso,
mapped, nearly, over, prism, prism',
to, uncons, (^.), _2, _Wrapped)
import Control.Lens.Extras (is)
import Data.Vector (Vector)
import qualified Data.Vector as V
import Data.List.NonEmpty (NonEmpty ((:|)))
import Data.Foldable (asum)
import Data.Semigroup (Semigroup (..))
import Text.Parser.Char (CharParsing, char, newline, tab)
import Text.Parser.Combinators (many)
data Whitespace
= Space
| HorizontalTab
| LineFeed
| NewLine
| CarriageReturn
deriving (Eq, Ord, Show)
newtype WS = WS (Vector Whitespace)
deriving (Eq, Show)
instance Cons WS WS Whitespace Whitespace where
_Cons = prism' (\(w,ws) -> over _Wrapped (V.cons w) ws) (\(WS ws) -> over (mapped . _2) WS (uncons ws))
{-# INLINE _Cons #-}
instance AsEmpty WS where
_Empty = nearly mempty (^. _Wrapped . to (is _Empty))
{-# INLINE _Empty #-}
instance WS ~ t => Rewrapped WS t
instance Wrapped WS where
type Unwrapped WS = Vector Whitespace
_Wrapped' = iso (\(WS x) -> x) WS
{-# INLINE _Wrapped' #-}
instance Semigroup WS where
(WS a) <> (WS b) = WS (a <> b)
{-# INLINE (<>) #-}
instance Monoid WS where
mempty = WS V.empty
{-# INLINE mempty #-}
mappend = (<>)
{-# INLINE mappend #-}
_WhitespaceChar :: Prism' Char Whitespace
_WhitespaceChar = prism escapedWhitespaceChar
(\x -> case x of
' ' -> Right Space
'\t' -> Right HorizontalTab
'\f' -> Right LineFeed
'\r' -> Right CarriageReturn
'\n' -> Right NewLine
_ -> Left x
)
oneWhitespace
:: CharParsing f
=> f Whitespace
oneWhitespace = asum
[ Space <$ char ' '
, HorizontalTab <$ tab
, LineFeed <$ char '\f'
, CarriageReturn <$ char '\r'
, NewLine <$ newline
]
parseWhitespace
:: CharParsing f
=> f WS
parseWhitespace =
WS . V.fromList <$> many oneWhitespace
parseSomeWhitespace
:: CharParsing f
=> f (NonEmpty Whitespace)
parseSomeWhitespace =
liftA2 (:|) oneWhitespace (many oneWhitespace)
unescapedWhitespaceChar :: Whitespace -> Char
unescapedWhitespaceChar Space = ' '
unescapedWhitespaceChar HorizontalTab = 't'
unescapedWhitespaceChar LineFeed = 'f'
unescapedWhitespaceChar CarriageReturn = 'r'
unescapedWhitespaceChar NewLine = 'n'
{-# INLINE unescapedWhitespaceChar #-}
escapedWhitespaceChar :: Whitespace -> Char
escapedWhitespaceChar Space = ' '
escapedWhitespaceChar HorizontalTab = '\t'
escapedWhitespaceChar LineFeed = '\f'
escapedWhitespaceChar CarriageReturn = '\r'
escapedWhitespaceChar NewLine = '\n'
{-# INLINE escapedWhitespaceChar #-}