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-rw-r--r--Pipes/Text.hs40
1 files changed, 37 insertions, 3 deletions
diff --git a/Pipes/Text.hs b/Pipes/Text.hs
index 06f2a7f..4fc6c4a 100644
--- a/Pipes/Text.hs
+++ b/Pipes/Text.hs
@@ -306,7 +306,7 @@ toHandle h = for cat (liftIO . T.hPutStr h)
306{-# INLINABLE toHandle #-} 306{-# INLINABLE toHandle #-}
307 307
308{-# RULES "p >-> toHandle h" forall p h . 308{-# RULES "p >-> toHandle h" forall p h .
309 p >-> toHandle h = for p (\bs -> liftIO (T.hPutStr h bs)) 309 p >-> toHandle h = for p (\txt -> liftIO (T.hPutStr h txt))
310 #-} 310 #-}
311 311
312 312
@@ -319,12 +319,19 @@ map :: (Monad m) => (Char -> Char) -> Pipe Text Text m r
319map f = P.map (T.map f) 319map f = P.map (T.map f)
320{-# INLINABLE map #-} 320{-# INLINABLE map #-}
321 321
322{-# RULES "p >-> map f" forall p f .
323 p >-> map f = for p (\txt -> yield (T.map f txt))
324 #-}
325
322-- | Map a function over the characters of a text stream and concatenate the results 326-- | Map a function over the characters of a text stream and concatenate the results
323concatMap 327concatMap
324 :: (Monad m) => (Char -> Text) -> Pipe Text Text m r 328 :: (Monad m) => (Char -> Text) -> Pipe Text Text m r
325concatMap f = P.map (T.concatMap f) 329concatMap f = P.map (T.concatMap f)
326{-# INLINABLE concatMap #-} 330{-# INLINABLE concatMap #-}
327 331
332{-# RULES "p >-> concatMap f" forall p f .
333 p >-> concatMap f = for p (\txt -> yield (T.concatMap f txt))
334 #-}
328 335
329-- | Transform a Pipe of 'Text' into a Pipe of 'ByteString's using UTF-8 336-- | Transform a Pipe of 'Text' into a Pipe of 'ByteString's using UTF-8
330-- encoding; @encodeUtf8 = Pipes.Prelude.map TE.encodeUtf8@ so more complex 337-- encoding; @encodeUtf8 = Pipes.Prelude.map TE.encodeUtf8@ so more complex
@@ -333,16 +340,27 @@ encodeUtf8 :: Monad m => Pipe Text ByteString m r
333encodeUtf8 = P.map TE.encodeUtf8 340encodeUtf8 = P.map TE.encodeUtf8
334{-# INLINEABLE encodeUtf8 #-} 341{-# INLINEABLE encodeUtf8 #-}
335 342
343{-# RULES "p >-> encodeUtf8" forall p .
344 p >-> encodeUtf8 = for p (\txt -> yield (TE.encodeUtf8 txt))
345 #-}
346
336-- | Transform a Pipe of 'String's into one of 'Text' chunks 347-- | Transform a Pipe of 'String's into one of 'Text' chunks
337pack :: Monad m => Pipe String Text m r 348pack :: Monad m => Pipe String Text m r
338pack = P.map T.pack 349pack = P.map T.pack
339{-# INLINEABLE pack #-} 350{-# INLINEABLE pack #-}
340 351
341-- | Transforma a Pipes of 'Text' chunks into one of 'String's 352{-# RULES "p >-> pack" forall p .
353 p >-> pack = for p (\txt -> yield (T.pack txt))
354 #-}
355
356-- | Transform a Pipes of 'Text' chunks into one of 'String's
342unpack :: Monad m => Pipe Text String m r 357unpack :: Monad m => Pipe Text String m r
343unpack = for cat (\t -> yield (T.unpack t)) 358unpack = for cat (\t -> yield (T.unpack t))
344{-# INLINEABLE unpack #-} 359{-# INLINEABLE unpack #-}
345 360
361{-# RULES "p >-> unpack" forall p .
362 p >-> unpack = for p (\txt -> yield (T.unpack txt))
363 #-}
346 364
347-- | @toCaseFold@, @toLower@, @toUpper@ and @stripStart@ are standard 'Text' utility, 365-- | @toCaseFold@, @toLower@, @toUpper@ and @stripStart@ are standard 'Text' utility,
348-- here acting on a 'Text' pipe, rather as they would on a lazy text 366-- here acting on a 'Text' pipe, rather as they would on a lazy text
@@ -350,16 +368,29 @@ toCaseFold :: Monad m => Pipe Text Text m ()
350toCaseFold = P.map T.toCaseFold 368toCaseFold = P.map T.toCaseFold
351{-# INLINEABLE toCaseFold #-} 369{-# INLINEABLE toCaseFold #-}
352 370
371{-# RULES "p >-> toCaseFold" forall p .
372 p >-> toCaseFold = for p (\txt -> yield (T.toCaseFold txt))
373 #-}
374
375
353-- | lowercase incoming 'Text' 376-- | lowercase incoming 'Text'
354toLower :: Monad m => Pipe Text Text m () 377toLower :: Monad m => Pipe Text Text m ()
355toLower = P.map T.toLower 378toLower = P.map T.toLower
356{-# INLINEABLE toLower #-} 379{-# INLINEABLE toLower #-}
357 380
381{-# RULES "p >-> toLower" forall p .
382 p >-> toLower = for p (\txt -> yield (T.toLower txt))
383 #-}
384
358-- | uppercase incoming 'Text' 385-- | uppercase incoming 'Text'
359toUpper :: Monad m => Pipe Text Text m () 386toUpper :: Monad m => Pipe Text Text m ()
360toUpper = P.map T.toUpper 387toUpper = P.map T.toUpper
361{-# INLINEABLE toUpper #-} 388{-# INLINEABLE toUpper #-}
362 389
390{-# RULES "p >-> toUpper" forall p .
391 p >-> toUpper = for p (\txt -> yield (T.toUpper txt))
392 #-}
393
363-- | Remove leading white space from an incoming succession of 'Text's 394-- | Remove leading white space from an incoming succession of 'Text's
364stripStart :: Monad m => Pipe Text Text m r 395stripStart :: Monad m => Pipe Text Text m r
365stripStart = do 396stripStart = do
@@ -432,7 +463,10 @@ filter :: (Monad m) => (Char -> Bool) -> Pipe Text Text m r
432filter predicate = P.map (T.filter predicate) 463filter predicate = P.map (T.filter predicate)
433{-# INLINABLE filter #-} 464{-# INLINABLE filter #-}
434 465
435 466{-# RULES "p >-> filter q" forall p q .
467 p >-> filter q = for p (\txt -> yield (T.filter q txt))
468 #-}
469
436-- | Strict left scan over the characters 470-- | Strict left scan over the characters
437scan 471scan
438 :: (Monad m) 472 :: (Monad m)