{-# LANGUAGE CPP #-} {-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} #if __GLASGOW_HASKELL__ >= 710 {-# LANGUAGE PatternSynonyms #-} {-# LANGUAGE ViewPatterns #-} #endif ----------------------------------------------------------------------------- -- | -- Module : Data.Text.Lazy.Lens -- Copyright : (C) 2012-2016 Edward Kmett -- License : BSD-style (see the file LICENSE) -- Maintainer : Edward Kmett -- Stability : experimental -- Portability : non-portable -- ---------------------------------------------------------------------------- module Data.Text.Lazy.Lens ( packed, unpacked , _Text , text , builder , utf8 #if __GLASGOW_HASKELL__ >= 710 , pattern Text #endif ) where import Control.Lens.Type import Control.Lens.Getter import Control.Lens.Fold import Control.Lens.Iso import Control.Lens.Prism #if __GLASGOW_HASKELL__ >= 710 import Control.Lens.Review #endif import Control.Lens.Setter import Control.Lens.Traversal import Data.ByteString.Lazy as ByteString import Data.Monoid import Data.Text.Lazy as Text import Data.Text.Lazy.Builder import Data.Text.Lazy.Encoding -- $setup -- >>> :set -XOverloadedStrings -- >>> import Control.Lens -- | This isomorphism can be used to 'pack' (or 'unpack') lazy 'Text'. -- -- >>> "hello"^.packed -- :: Text -- "hello" -- -- @ -- 'pack' x ≡ x '^.' 'packed' -- 'unpack' x ≡ x '^.' 'from' 'packed' -- 'packed' ≡ 'from' 'unpacked' -- @ packed :: Iso' String Text packed = iso Text.pack Text.unpack {-# INLINE packed #-} -- | This isomorphism can be used to 'unpack' (or 'pack') lazy 'Text'. -- -- >>> "hello"^.unpacked -- :: String -- "hello" -- -- @ -- 'pack' x ≡ x '^.' 'from' 'unpacked' -- 'unpack' x ≡ x '^.' 'packed' -- @ -- -- This 'Iso' is provided for notational convenience rather than out of great need, since -- -- @ -- 'unpacked' ≡ 'from' 'packed' -- @ unpacked :: Iso' Text String unpacked = iso Text.unpack Text.pack {-# INLINE unpacked #-} -- | This is an alias for 'unpacked' that makes it clearer how to use it with @('#')@. -- -- @ -- '_Text' = 'from' 'packed' -- @ -- -- >>> _Text # "hello" -- :: Text -- "hello" _Text :: Iso' Text String _Text = from packed {-# INLINE _Text #-} -- | Convert between lazy 'Text' and 'Builder' . -- -- @ -- 'fromLazyText' x ≡ x '^.' 'builder' -- 'toLazyText' x ≡ x '^.' 'from' 'builder' -- @ builder :: Iso' Text Builder builder = iso fromLazyText toLazyText {-# INLINE builder #-} -- | Traverse the individual characters in a 'Text'. -- -- >>> anyOf text (=='c') "chello" -- True -- -- @ -- 'text' = 'unpacked' . 'traversed' -- @ -- -- When the type is unambiguous, you can also use the more general 'each'. -- -- @ -- 'text' ≡ 'each' -- @ -- -- Note that when just using this as a 'Setter', @'setting' 'Data.Text.Lazy.map'@ -- can be more efficient. text :: IndexedTraversal' Int Text Char text = unpacked . traversed {-# INLINE [0] text #-} {-# RULES "lazy text -> map" text = sets Text.map :: ASetter' Text Char; "lazy text -> imap" text = isets imapLazy :: AnIndexedSetter' Int Text Char; "lazy text -> foldr" text = foldring Text.foldr :: Getting (Endo r) Text Char; "lazy text -> ifoldr" text = ifoldring ifoldrLazy :: IndexedGetting Int (Endo r) Text Char; #-} imapLazy :: (Int -> Char -> Char) -> Text -> Text imapLazy f = snd . Text.mapAccumL (\i a -> i `seq` (i + 1, f i a)) 0 {-# INLINE imapLazy #-} ifoldrLazy :: (Int -> Char -> a -> a) -> a -> Text -> a ifoldrLazy f z xs = Text.foldr (\ x g i -> i `seq` f i x (g (i+1))) (const z) xs 0 {-# INLINE ifoldrLazy #-} -- | Encode/Decode a lazy 'Text' to/from lazy 'ByteString', via UTF-8. -- -- Note: This function does not decode lazily, as it must consume the entire -- input before deciding whether or not it fails. -- -- >>> ByteString.unpack (utf8 # "☃") -- [226,152,131] utf8 :: Prism' ByteString Text utf8 = prism' encodeUtf8 (preview _Right . decodeUtf8') {-# INLINE utf8 #-} #if __GLASGOW_HASKELL__ >= 710 pattern Text a <- (view _Text -> a) where Text a = review _Text a #endif