{-# LANGUAGE Safe #-} -- | -- Module : Data.Text.Encoding.Base16.Lazy -- Copyright : (c) 2020 Emily Pillmore -- License : BSD-style -- -- Maintainer : Emily Pillmore -- Stability : stable -- Portability : non-portable -- -- This module contains 'Data.Text.Lazy.Text'-valued combinators for -- implementing the RFC 4648 specification of the Base16 -- encoding format. This includes lenient decoding variants, as well as -- internal and external validation for canonicity. -- module Data.Text.Lazy.Encoding.Base16 ( encodeBase16 , decodeBase16 , decodeBase16With , decodeBase16Lenient , isBase16 , isValidBase16 ) where import Data.Bifunctor (first) import Data.ByteString.Lazy (ByteString) import qualified Data.ByteString.Lazy.Base16 as B16L import qualified Data.Text as T import Data.Text.Encoding.Base16.Error (Base16Error(..)) import Data.Text.Lazy (Text) import qualified Data.Text.Lazy.Encoding as TL -- | Encode a lazy 'Text' value in Base16 with padding. -- -- See: -- -- === __Examples__: -- -- >>> encodeBase16 "Sun" -- "53756e" -- encodeBase16 :: Text -> Text encodeBase16 = B16L.encodeBase16 . TL.encodeUtf8 {-# INLINE encodeBase16 #-} -- | Decode a Base16-encoded lazy 'Text' value. -- -- See: -- -- === __Examples__: -- -- >>> decodeBase16 "53756e" -- Right "Sun" -- -- >>> decodeBase16 "6x" -- Left "invalid character at offset: 1" -- decodeBase16 :: Text -> Either T.Text Text decodeBase16 = fmap TL.decodeLatin1 . B16L.decodeBase16 . TL.encodeUtf8 {-# INLINE decodeBase16 #-} -- | Attempt to decode a lazy 'Text' value as Base16, converting from -- 'ByteString' to 'Text' according to some encoding function. In practice, -- This is something like 'decodeUtf8'', which may produce an error. -- -- See: -- -- @ -- 'decodeBase16With' 'TL.decodeUtf8'' -- :: 'ByteString' -> 'Either' ('Base16Error' 'UnicodeException') 'Text' -- @ -- -- @since 0.3.0.0 -- decodeBase16With :: (ByteString -> Either err Text) -- ^ convert a bytestring to text (e.g. 'T.decodeUtf8'') -> ByteString -- ^ Input to decode -> Either (Base16Error err) Text decodeBase16With f t = case B16L.decodeBase16 t of Left de -> Left $ DecodeError de Right a -> first ConversionError (f a) {-# INLINE decodeBase16With #-} -- | Decode a Base16-encoded lazy 'Text' value leniently, using a -- strategy that never fails. -- -- /Warning/: in the conversion to unicode text, exceptions may be thrown. -- Please use 'decodeBase16'' if you are unsure if you are working with -- base16-encoded values, or if you expect garbage. -- -- N.B.: this is not RFC 4648-compliant. It may give you garbage if you're not careful! -- -- === __Examples__: -- -- >>> decodeBase16Lenient "53756e" -- "Sun" -- -- >>> decodeBase16Lenient "6x6x" -- "f" -- decodeBase16Lenient :: Text -> Text decodeBase16Lenient = TL.decodeLatin1 . B16L.decodeBase16Lenient . TL.encodeUtf8 {-# INLINE decodeBase16Lenient #-} -- | Tell whether a lazy 'Text' value is Base16-encoded. -- -- === __Examples__: -- -- >>> isBase16 "666f6" -- False -- -- >>> isBase16 "666f" -- True -- isBase16 :: Text -> Bool isBase16 = B16L.isBase16 . TL.encodeUtf8 {-# INLINE isBase16 #-} -- | Tell whether a lazy 'Text' value is a valid Base16 format. -- -- This will not tell you whether or not this is a correct Base16 representation, -- only that it conforms to the correct shape. To check whether it is a true -- Base16 encoded 'Text' value, use 'isBase16'. -- -- === __Examples__: -- -- >>> isValidBase16 "666f+/6" -- False -- -- >>> isValidBase16 "666f6" -- True -- isValidBase16 :: Text -> Bool isValidBase16 = B16L.isValidBase16 . TL.encodeUtf8 {-# INLINE isValidBase16 #-}