{- | Module : Tubes Description : All-encompassing module. Copyright : (c) 2014, 2015 Gatlin Johnson <gatlin@niltag.net> License : GPL-3 Maintainer : gatlin@niltag.net Stability : experimental Write effect-ful stream processing functions and compose them into a series of tubes. This exists primarily for my own education. It is updated often as I try things and is probably, at this moment, wrong. My goals were to * learn more about iteratees and stream processing; and * explore the relationships between functions, pairs, sum types, and products. -} module Tubes ( -- $tubeintro -- * Tubes Tube(..) , TubeF(..) , Source(..) , Sink(..) -- * Core infrastructure , run , await , yield , each , Tubes.Core.for , (~>) , (>-) , (><) , (|>) , (-<) , liftT -- * Utilities , cat , Tubes.Util.map , Tubes.Util.drop , Tubes.Util.take , Tubes.Util.takeWhile , Tubes.Util.filter , Tubes.Util.reduce , Tubes.Util.every , Tubes.Util.unyield , Tubes.Util.prompt , Tubes.Util.display -- * Pump , Pump(..) , PumpF(..) , pump , send , recv , runPump -- * Re-exports , lift -- re-exported from Control.Monad.Trans.Free , runFreeT -- re-exported from Control.Monad.Trans.Free ) where import Prelude hiding (map, fold, print, filter, take) import Control.Monad.Trans.Class import Control.Monad.Trans.Free import Tubes.Core import Tubes.Util import Tubes.Pump {- $tubeintro A 'Tube' is a computation that can yield multiple intermediate values or await intermediate inputs before computing a final result. Any monadic function may be turned into a 'Tube'. 'Tube's may be composed in different ways. For instance, in ghci: @ >>> run $ for (each [1..4] >< map show) $ lift . putStrLn 1 2 3 4 @ Here, 'each' converts an 'Foldable' into a 'Source' of values; 'for' performs a computation with each value. Another example, using two built-in 'Tube's for convenience: @ >>> run $ prompt >\< filter (/= "Die Antwoord") >\< map (++ " is bad") >\< print > dubstep dubstep is bad > the sun the sun is bad > Die Antwoord > this example this example is bad @ A few stream processing combinators are provided for mapping, filtering, taking, and other basic operations. For those times when you want to 'reduce' a stream, you can like so: @ >>> reduce (+) 0 id (each [1..10]) 55 @ '><' is useful for combining 'Tube's which all have the same return value - most often @()@ simply because every 'Source' will have that value. There is more in the library not covered here, and you are encouraged to take a look around. -}