capability: Extensional capabilities and deriving combinators

[ bsd3, control, library ] [ Propose Tags ]

Standard capability type classes for extensional effects and combinators to derive capability instances with little boilerplate.


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Versions 0.1.0.0
Change log ChangeLog.md
Dependencies base (>=4.12 && <5.0), dlist (==0.8.*), exceptions (>=0.6 && <0.11), generic-lens (==1.0.*), lens (>=4.16 && <5.0), monad-control (==1.0.*), monad-unlift (==0.2.*), mtl (>=2.0 && <3.0), mutable-containers (==0.3.*), primitive (==0.6.*), safe-exceptions (==0.1.*), streaming (==0.2.*), transformers (>=0.5.5 && <0.6), unliftio (==0.2.*), unliftio-core (==0.1.*) [details]
License BSD-3-Clause
Copyright 2018 EURL Tweag
Author
Maintainer andreas.herrmann@tweag.io
Category Control
Home page https://github.com/tweag/capability
Source repo head: git clone https://github.com/tweag/capability
Uploaded by aherrmann at Tue Oct 9 07:18:21 UTC 2018
Distributions NixOS:0.1.0.0
Downloads 45 total (14 in the last 30 days)
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Status Docs uploaded by user [build log]
All reported builds failed as of 2018-10-09 [all 2 reports]
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Readme for capability-0.1.0.0

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capability: effects, extensionally

A capability is a type class that says explicitly which effects a function is allowed to use. The mtl works like this too. But unlike the mtl, this library decouples effects from their implementation. What this means in practice:

  • You can implement large sets of capabilities using the efficient ReaderT pattern, rather than a slow monad transformer stack.
  • Capabilities compose well: e.g. it's easy to have multiple reader effects.
  • You can use a writer effect without implementing it as a writer monad (which is known to leak space).
  • You can reason about effects. For instance, if a monad provides a reader effect at type IORef A, it also provides a state effect at type A

For more on these, you may want to read the announcement blog post.

This library is an alternative to the mtl. It defines a set of standard, reusable capability type classes, such as the HasReader and HasState type classes, which provide the standard reader and state effects, respectively.

Where mtl instances only need to be defined once and for all, capability-style programming has traditionally suffered from verbose boilerplate: rote instance definitions for every new implementation of the capability. Fortunately GHC 8.6 introduced the DerivingVia language extension. We use it to remove the boilerplate, turning capability-style programming into an appealing alternative to mtl-style programming. The generic-lens library is used to access fields of structure in the style of the ReaderT pattern.

An additional benefit of separating capabilities from their implementation is that they avoid a pitfall of the mtl. In the mtl, two different MonadState are disambiguated by their types, which means that it is difficult to have two MonadState Int in the same monad stack. Capability type classes are parameterized by a name (also known as a tag). This makes it possible to combine multiple versions of the same capability. For example,

twoStates :: (HasState "a" Int m, HasState "b" Int m) => m ()

Here, the tags "a" and "b" refer to different state spaces.

In summary, compared to the mtl:

  • capabilities represent what effects a function can use, rather than how the monad is constructed;
  • capabilities are named, rather than disambiguated by type;
  • capabilites are discharged with deriving-via combinators and generic-lens, rather than with instance resolution.

An example usage looks like this:

testParity :: (HasReader "foo" Int m, HasState "bar" Bool m) => m ()
testParity = do
  num <- ask @"foo"
  put @"bar" (even num)

data Ctx = Ctx { foo :: Int, bar :: IORef Bool }
  deriving Generic

newtype M a = M { runM :: Ctx -> IO a }
  deriving (Functor, Applicative, Monad) via ReaderT Ctx IO
  -- Use DerivingVia to derive a HasReader instance.
  deriving (HasReader "foo" Int) via
    -- Pick the field foo from the Ctx record in the ReaderT environment.
    Field "foo" "ctx" (MonadReader (ReaderT Ctx IO))
  -- Use DerivingVia to derive a HasState instance.
  deriving (HasState "bar" Bool) via
    -- Convert a reader of IORef to a state capability.
    ReaderIORef (Field "bar" "ctx" (MonadReader (ReaderT Ctx IO)))

example :: IO ()
example = do
    rEven <- newIORef False
    runM testParity (Ctx 2 rEven)
    readIORef rEven >>= print
    runM testParity (Ctx 3 rEven)
    readIORef rEven >>= print

For more complex examples, see the Examples section and the examples subtree.

This package is not available on Hackage yet, as some of its dependencies have not been updated to GHC 8.6, yet.

API documentation can be found in the artifacts tab of any successful build in the CircleCI project.

Examples

An example is provided in WordCount. Execute the following commands to try it out:

$ nix-shell --pure --run "cabal configure --enable-tests"
$ nix-shell --pure --run "cabal repl examples"

ghci> :set -XOverloadedStrings
ghci> wordAndLetterCount "ab ba"
Letters
'a': 2
'b': 2
Words
"ab": 1
"ba": 1

To execute all examples and see if they produce the expected results run

$ nix-shell --pure --run "cabal test examples --show-details=streaming --test-option=--color"

Build instructions

Nix Shell

Some of this package's dependencies require patches to build with GHC 8.6. These patches are defined in nix/haskell/default.nix. A development environment with all patched dependencies in scope is defined in shell.nix.

Cachix Nix Cache

A Nix cache for this package's dependencies is provided via cachix. If you have cachix installed, then you can activate it by executing

$ cachix use tweag

Build

The build instructions assume that you have Nix installed. Execute the following command to build the library.

$ nix-shell --pure --run "cabal configure"
$ nix-shell --pure --run "cabal build"