streaming-with ============== [![Hackage](https://img.shields.io/hackage/v/streaming-with.svg)](https://hackage.haskell.org/package/streaming-with) [![Build Status](https://travis-ci.org/haskell-streaming/streaming-with.svg)](https://travis-ci.org/haskell-streaming/streaming-with) > with/bracket-style idioms for use with [streaming] This library provides resource management for the [streaming] ecosystem of libraries using bracketed continuations. [streaming]: http://hackage.haskell.org/package/streaming Currently, these only contain file-handling utilities; if you can think of any more functions that fit in here please let me know! There are two ways of using this library: 1. Explicitly pass around the continuations using `Streaming.With`. 2. If you have a lot of nested continuations, you may prefer using `Streaming.With.Lifted` with either [`ContT`] or [managed]; these will allow you to pass around the parameters to the continuations. [`ContT`]: http://hackage.haskell.org/packages/archive/transformers/latest/doc/html/Control-Monad-Trans-Cont.html#v:ContT [managed]: http://hackage.haskell.org/package/managed Motivation ---------- The streaming library has some usages of `MonadResource` from the [resourcet] package to try and perform resource allocation; in comparison to `conduit` however, streaming doesn't support prompt finalisation. Furthermore, because in may ways `Conduit`s can be considered to be a datatype representing monadic functions between two types whereas a single `Stream` is more akin to a producing-only `Conduit` or `Pipe`, attempts at having something like `readFile` that returns a `Stream` does not always lead to the resource being closed at the correct point. The consensus in the issue for [promptness for streaming] was that perhaps relying upon `MonadResource` was not the correct approach. [resourcet]: http://hackage.haskell.org/package/resourcet [promptness for streaming]: https://github.com/michaelt/streaming/issues/23 The [Bracket pattern] (also known as the _with..._ idiom, or a subset of continuation passing style) allows for a convenient way to obtain and then guarantee the release of (possibly scarce) resources. This can be further enhanced when dealing with nested usages of these with the use of either the [`ContT`] managed transformer or the [managed] library (where `Managed` -- or at least its safe variant -- is isomorphic to `ContT () IO`). [Bracket pattern]: https://wiki.haskell.org/Bracket_pattern The biggest downside of using `bracket` from the standard `base` library is that the types are not very convenient in the world of monad transformers: it is limited to `IO` computations only, which means for our use of streaming that we could only use `Stream f IO r` without any state, logging, etc. However, the [exceptions] library contains a more general purpose variant that provides us with extra flexibility; it doesn't even need to be in `IO` if you have a completely pure `Stream`! (A variant is also available in [lifted-base], but it is less used and streaming already depends upon exceptions). [exceptions]: http://hackage.haskell.org/package/exceptions [lifted-base]: http://hackage.haskell.org/package/lifted-base Disadvantages ------------- Whilst the bracket pattern is powerful, it does have some downsides of which you should be aware (specifically compared to [resourcet] which is the main alternative). First of all, independent of its usage with streaming, is that whilst `bracket` predates [resourcet], the latter is [more powerful]. Whether this extra power is of use to you is up to you, but it does mean that you in effect have lots of nested resource management rather than just one overall resource control. [more powerful]: http://www.yesodweb.com/blog/2013/03/resourcet-overview The obvious disadvantage of using the bracket pattern is that it does not fit in as nicely in the function composition style that usage of streaming enables compared to other stream processing libraries. This can be mitigated somewhat with using the lifted variants in this package which allows you to operate monadically (which still isn't as nice but may be preferable to lots of explicitly nested continuations). Furthermore, without prompt finalisation the same "long running computation" [issue] is relevant. For example, consider something that looks like this: ```haskell withBinaryFile "myFile" ReadMode $ doSomethingWithEachLine . B.lines . B.hGetContents ``` Ideally, after the last chunk from the file is read, the file handle would be closed. However, that is not the case: it's not until the _entire computation_ is complete that the handle is closed. Note, however, that the same limitation is present when using `MonadResource`: this is a limitation of the `Stream` type, not on how we choose to allocate and manage resources. [issue]: http://www.yesodweb.com/blog/2013/10/core-flaw-pipes-conduit