streamly-0.8.3: Dataflow programming and declarative concurrency
Copyright(c) 2018 Composewell Technologies
LicenseBSD-3-Clause
Maintainerstreamly@composewell.com
Stabilityexperimental
PortabilityGHC
Safe HaskellSafe-Inferred
LanguageHaskell2010

Streamly.Internal.Unicode.Array.Char

Description

 
Synopsis

Streams of Strings

lines :: (MonadIO m, IsStream t) => t m Char -> t m (Array Char) Source #

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.toList $ Unicode.lines $ Stream.fromList "lines\nthis\nstring\n\n\n"
["lines","this","string","",""]

words :: (MonadIO m, IsStream t) => t m Char -> t m (Array Char) Source #

Break a string up into a stream of strings, which were delimited by characters representing white space.

words = S.words A.write
>>> Stream.toList $ Unicode.words $ Stream.fromList "A  newline\nis considered white space?"
["A","newline","is","considered","white","space?"]

unlines :: (MonadIO m, IsStream t) => t m (Array Char) -> t m Char Source #

Flattens the stream of Array Char, after appending a terminating newline to each string.

unlines is an inverse operation to lines.

>>> Stream.toList $ Unicode.unlines $ Stream.fromList ["lines", "this", "string"]
"lines\nthis\nstring\n"
unlines = S.unlines A.read

Note that, in general

unlines . lines /= id

unwords :: (MonadAsync m, IsStream t) => t m (Array Char) -> t m Char Source #

Flattens the stream of Array Char, after appending a separating space to each string.

unwords is an inverse operation to words.

>>> Stream.toList $ Unicode.unwords $ Stream.fromList ["unwords", "this", "string"]
"unwords this string"
unwords = S.unwords A.read

Note that, in general

unwords . words /= id