{-#LANGUAGE RankNTypes#-} module Pipes.Text.IO ( -- * Text IO -- $textio -- * Caveats -- $caveats -- * Producers fromHandle , stdin , readFile -- * Consumers , toHandle , stdout , writeFile ) where import qualified System.IO as IO import Control.Exception (throwIO, try) import Foreign.C.Error (Errno(Errno), ePIPE) import qualified GHC.IO.Exception as G import Data.Text (Text) import qualified Data.Text as T import qualified Data.Text.IO as T import Pipes import qualified Pipes.Safe.Prelude as Safe import qualified Pipes.Safe as Safe import Pipes.Safe (MonadSafe(..), Base(..)) import Prelude hiding (readFile, writeFile) {- $textio Where pipes @IO@ replaces lazy @IO@, @Producer Text IO r@ replaces lazy 'Text'. This module exports some convenient functions for producing and consuming pipes 'Text' in @IO@, namely, 'readFile', 'writeFile', 'fromHandle', 'toHandle', 'stdin' and 'stdout'. Some caveats described below. The main points are as in <https://hackage.haskell.org/package/pipes-bytestring-1.0.0/docs/Pipes-ByteString.html Pipes.ByteString>: A 'Handle' can be associated with a 'Producer' or 'Consumer' according as it is read or written to. > import Pipes > import qualified Pipes.Text as Text > import qualified Pipes.Text.IO as Text > import System.IO > > main = > withFile "inFile.txt" ReadMode $ \hIn -> > withFile "outFile.txt" WriteMode $ \hOut -> > runEffect $ Text.fromHandle hIn >-> Text.toHandle hOut To stream from files, the following is perhaps more Prelude-like (note that it uses Pipes.Safe): > import Pipes > import qualified Pipes.Text as Text > import qualified Pipes.Text.IO as Text > import Pipes.Safe > > main = runSafeT $ runEffect $ Text.readFile "inFile.txt" >-> Text.writeFile "outFile.txt" Finally, you can stream to and from 'stdin' and 'stdout' using the predefined 'stdin' and 'stdout' pipes, as with the following \"echo\" program: > main = runEffect $ Text.stdin >-> Text.stdout -} {- $caveats The operations exported here are a convenience, like the similar operations in @Data.Text.IO@ (or rather, @Data.Text.Lazy.IO@, since, again, @Producer Text m r@ is 'effectful text' and something like the pipes equivalent of lazy Text.) * Like the functions in @Data.Text.IO@, they attempt to work with the system encoding. * Like the functions in @Data.Text.IO@, they significantly slower than ByteString operations. Where you know what encoding you are working with, use @Pipes.ByteString@ and @Pipes.Text.Encoding@ instead, e.g. @view utf8 Bytes.stdin@ instead of @Text.stdin@ * Like the functions in @Data.Text.IO@ , they use Text exceptions, not the standard Pipes protocols. Something like > view utf8 . Bytes.fromHandle :: Handle -> Producer Text IO (Producer ByteString m ()) yields a stream of Text, and follows standard pipes protocols by reverting to (i.e. returning) the underlying byte stream upon reaching any decoding error. (See especially the pipes-binary package.) By contrast, something like > Text.fromHandle :: Handle -> Producer Text IO () supplies a stream of text returning '()', which is convenient for many tasks, but violates the pipes @pipes-binary@ approach to decoding errors and throws an exception of the kind characteristic of the @text@ library instead. -} {-| Convert a 'IO.Handle' into a text stream using a text size determined by the good sense of the text library. Note with the remarks at the head of this module that this is slower than @view utf8 (Pipes.ByteString.fromHandle h)@ but uses the system encoding and has other nice @Data.Text.IO@ features -} fromHandle :: MonadIO m => IO.Handle -> Producer Text m () fromHandle h = go where go = do txt <- liftIO (T.hGetChunk h) if T.null txt then return () else do yield txt go {-# INLINABLE fromHandle#-} -- | Stream text from 'stdin' stdin :: MonadIO m => Producer Text m () stdin = fromHandle IO.stdin {-# INLINE stdin #-} {-| Stream text from a file in the simple fashion of @Data.Text.IO@ >>> runSafeT $ runEffect $ Text.readFile "hello.hs" >-> Text.map toUpper >-> hoist lift Text.stdout MAIN = PUTSTRLN "HELLO WORLD" -} readFile :: MonadSafe m => FilePath -> Producer Text m () readFile file = Safe.withFile file IO.ReadMode fromHandle {-# INLINE readFile #-} {-| Stream text to 'stdout' Unlike 'toHandle', 'stdout' gracefully terminates on a broken output pipe. Note: For best performance, it might be best just to use @(for source (liftIO . putStr))@ instead of @(source >-> stdout)@ . -} stdout :: MonadIO m => Consumer' Text m () stdout = go where go = do txt <- await x <- liftIO $ try (T.putStr txt) case x of Left (G.IOError { G.ioe_type = G.ResourceVanished , G.ioe_errno = Just ioe }) | Errno ioe == ePIPE -> return () Left e -> liftIO (throwIO e) Right () -> go {-# INLINABLE stdout #-} {-| Convert a text stream into a 'Handle' Note: again, for best performance, where possible use @(for source (liftIO . hPutStr handle))@ instead of @(source >-> toHandle handle)@. -} toHandle :: MonadIO m => IO.Handle -> Consumer' Text m r toHandle h = for cat (liftIO . T.hPutStr h) {-# INLINABLE toHandle #-} -- | Stream text into a file. Uses @pipes-safe@. writeFile :: (MonadSafe m) => FilePath -> Consumer' Text m () writeFile file = Safe.withFile file IO.WriteMode toHandle {-# INLINE writeFile #-}