-- | -- Module : Streamly.Internal.Unicode.Array -- Copyright : (c) 2018 Composewell Technologies -- -- License : BSD-3-Clause -- Maintainer : streamly@composewell.com -- Stability : experimental -- Portability : GHC -- XXX Remove this or move this to Unicode.Utf32 making "Array Char" as a -- newtype wrapper for Utf32. Is this any better than the [Char] (String) type? -- This provides random access and the length of the string in O(1). Also, -- better append performance. -- module Streamly.Internal.Unicode.Array ( -- * Setup -- | To execute the code examples provided in this module in ghci, please -- run the following commands first. -- -- $setup -- * Streams of Strings lines , words , unlines , unwords ) where import Control.Monad.IO.Class (MonadIO) import Streamly.Data.Stream (Stream) import Streamly.Internal.Data.Array (Array) import qualified Streamly.Data.Array as A import qualified Streamly.Internal.Unicode.Stream as S import Prelude hiding (String, lines, words, unlines, unwords) -- $setup -- >>> :m -- >>> :set -XOverloadedStrings -- >>> import Prelude hiding (String, lines, words, unlines, unwords) -- >>> import qualified Streamly.Data.Stream as Stream -- >>> import qualified Streamly.Data.Fold as Fold -- >>> import qualified Streamly.Internal.Unicode.Array as Unicode -- | Break a string up into a stream of strings at newline characters. -- The resulting strings do not contain newlines. -- -- > lines = S.lines A.write -- -- >>> Stream.fold Fold.toList $ Unicode.lines $ Stream.fromList "lines\nthis\nstring\n\n\n" -- [fromList "lines",fromList "this",fromList "string",fromList "",fromList ""] -- {-# INLINE lines #-} lines :: MonadIO m => Stream m Char -> Stream m (Array Char) lines :: forall (m :: * -> *). MonadIO m => Stream m Char -> Stream m (Array Char) lines = forall (m :: * -> *) b. Monad m => Fold m Char b -> Stream m Char -> Stream m b S.lines forall (m :: * -> *) a. (MonadIO m, Unbox a) => Fold m a (Array a) A.write -- | Break a string up into a stream of strings, which were delimited -- by characters representing white space. -- -- > words = S.words A.write -- -- >>> Stream.fold Fold.toList $ Unicode.words $ Stream.fromList "A newline\nis considered white space?" -- [fromList "A",fromList "newline",fromList "is",fromList "considered",fromList "white",fromList "space?"] -- {-# INLINE words #-} words :: MonadIO m => Stream m Char -> Stream m (Array Char) words :: forall (m :: * -> *). MonadIO m => Stream m Char -> Stream m (Array Char) words = forall (m :: * -> *) b. Monad m => Fold m Char b -> Stream m Char -> Stream m b S.words forall (m :: * -> *) a. (MonadIO m, Unbox a) => Fold m a (Array a) A.write -- | Flattens the stream of @Array Char@, after appending a terminating -- newline to each string. -- -- 'unlines' is an inverse operation to 'lines'. -- -- >>> Stream.fold Fold.toList $ Unicode.unlines $ Stream.fromList ["lines", "this", "string"] -- "lines\nthis\nstring\n" -- -- > unlines = S.unlines A.read -- -- Note that, in general -- -- > unlines . lines /= id {-# INLINE unlines #-} unlines :: MonadIO m => Stream m (Array Char) -> Stream m Char unlines :: forall (m :: * -> *). MonadIO m => Stream m (Array Char) -> Stream m Char unlines = forall (m :: * -> *) a. MonadIO m => Unfold m a Char -> Stream m a -> Stream m Char S.unlines forall (m :: * -> *) a. (Monad m, Unbox a) => Unfold m (Array a) a A.reader -- | Flattens the stream of @Array Char@, after appending a separating -- space to each string. -- -- 'unwords' is an inverse operation to 'words'. -- -- >>> Stream.fold Fold.toList $ Unicode.unwords $ Stream.fromList ["unwords", "this", "string"] -- "unwords this string" -- -- > unwords = S.unwords A.read -- -- Note that, in general -- -- > unwords . words /= id {-# INLINE unwords #-} unwords :: MonadIO m => Stream m (Array Char) -> Stream m Char unwords :: forall (m :: * -> *). MonadIO m => Stream m (Array Char) -> Stream m Char unwords = forall (m :: * -> *) a. MonadIO m => Unfold m a Char -> Stream m a -> Stream m Char S.unwords forall (m :: * -> *) a. (Monad m, Unbox a) => Unfold m (Array a) a A.reader