heftia-effects: higher-order effects done right

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This library is the battery-included version of the heftia package, providing interpreters for standard effects.


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Versions [RSS] 0.1.0.0, 0.2.0.0, 0.3.0.0, 0.3.1.0, 0.4.0.0, 0.4.0.1, 0.5.0.0
Change log ChangeLog.md
Dependencies base (>=4.17 && <4.21), containers (>0.6.5 && <0.8), data-effects (>=0.2 && <0.3), extra (>=1.7.14 && <1.8), ghc-typelits-knownnat (>=0.7 && <0.8), heftia (>=0.4 && <0.5), heftia-effects, text (>=2.0 && <2.2), time (>=1.11.1 && <1.15), unbounded-delays (>=0.1.1 && <0.2), unliftio (>=0.2 && <0.3) [details]
Tested with ghc ==9.8.2, ghc ==9.4.1
License MPL-2.0
Copyright 2023-2024 Sayo Koyoneda
Author Sayo Koyoneda <ymdfield@outlook.jp>
Maintainer Sayo Koyoneda <ymdfield@outlook.jp>
Revised Revision 1 made by YamadaRyo at 2024-10-10T17:46:52Z
Category Control, Effect, Monads
Bug tracker https://github.com/sayo-hs/heftia
Source repo head: git clone https://github.com/sayo-hs/heftia(tag v0.4.0)(heftia-effects)
Uploaded by YamadaRyo at 2024-10-10T13:34:32Z
Distributions Stackage:0.5.0.0
Executables FileSystemProvider, SemanticsZoo, Writer, Continuation2, Continuation, Logging, KeyedEffects, Teletype
Downloads 189 total (45 in the last 30 days)
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Readme for heftia-effects-0.4.0.0

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Heftia: higher-order effects done right for Haskell

Hackage Hackage

Heftia is an extensible effects library that generalizes "Algebraic Effects and Handlers" to higher-order effects, providing users with maximum flexibility and delivering standard and reasonable speed. In its generalization, the focus is on ensuring predictable results based on simple, consistent semantics, while preserving soundness.

Please refer to the Haddock documentation for usage and semantics. For information on performance, please refer to performance.md.

The library allows the following effects with well-defined semantics:

  • Coroutines
  • Non-deterministic computations
  • MonadUnliftIO

This library is inspired by the paper:

  • Casper Bach Poulsen and Cas van der Rest. 2023. Hefty Algebras: Modular Elaboration of Higher-Order Algebraic Effects. Proc. ACM Program. Lang. 7, POPL, Article 62 (January 2023), 31 pages. https://doi.org/10.1145/3571255

The elaboration approach proposed in the above paper allows for a straightforward treatment of higher-order effects.

Heftia's data structure is an extension of the Freer monad, designed to be theoretically straightforward by eliminating ad-hoc elements.

Status

This library is currently in the beta stage. There may be significant changes and potential bugs.

We are looking forward to your feedback!

Getting Started

  1. $ cabal update
    
  2. Add heftia-effects ^>= 0.4 and ghc-typelits-knownnat ^>= 0.7 to the build dependencies. Enable the ghc-typelits-knownnat plugin, GHC2021, and the following language extensions as needed:

    • LambdaCase
    • DerivingStrategies
    • DataKinds
    • TypeFamilies
    • BlockArguments
    • FunctionalDependencies
    • RecordWildCards
    • DefaultSignatures
    • PatternSynonyms

Example .cabal:

...
    build-depends:
        ...
        heftia-effects ^>= 0.4,
        ghc-typelits-knownnat ^>= 0.7,

    default-language: GHC2021

    default-extensions:
        ...
        LambdaCase,
        DerivingStrategies,
        DataKinds,
        TypeFamilies,
        BlockArguments,
        FunctionalDependencies,
        RecordWildCards,
        DefaultSignatures,
        PatternSynonyms,
        TemplateHaskell,
        PartialTypeSignatures,
        AllowAmbiguousTypes

    ghc-options: ... -fplugin GHC.TypeLits.KnownNat.Solver
...

The supported versions are GHC 9.4.1 and later. This library has been tested with GHC 9.8.2 and 9.4.1.

Getting Started

Example

Compared to existing Effect System libraries in Haskell that handle higher-order effects, this library's approach allows for a more effortless and flexible handling of higher-order effects. Here are some examples:

Extracting Multi-shot Delimited Continuations

In handling higher-order effects, it's easy to work with multi-shot delimited continuations. For more details, please refer to the example code.

Two interpretations of the censor effect for Writer

Let's consider the following Writer effectful program:

hello :: (Tell String <: m, Monad m) => m ()
hello = do
    tell "Hello"
    tell " world!"

censorHello :: (Tell String <: m, WriterH String <<: m, Monad m) => m ()
censorHello =
    censor
        ( \s ->
            if s == "Hello" then
                "Goodbye"
            else if s == "Hello world!" then
                "Hello world!!"
            else
                s
        )
        hello

For censorHello, should the final written string be "Goodbye world!" (Pre-applying behavior) ? Or should it be "Hello world!!" (Post-applying behavior) ? With Heftia, you can freely choose either behavior depending on which higher-order effect interpreter (which we call an elaborator) you use.

main :: IO ()
main = runEff do
    (sPre, _) <-
        runTell
            . runWriterHPre @String
            $ censorHello

    (sPost, _) <-
        runTell
            . runWriterHPost @String
            $ censorHello

    liftIO $ putStrLn $ "Pre-applying: " <> sPre
    liftIO $ putStrLn $ "Post-applying: " <> sPost

Using the elabWriterPre elaborator, you'll get "Goodbye world!", whereas with the elabWriterPost elaborator, you'll get "Hello world!!".

Pre-applying: Goodbye world!
Post-applying: Hello world!!

For more details, please refer to the complete code and the implementation of the elaborator.

Semantics Zoo

To run the SemanticsZoo example:

$ git clone https://github.com/sayo-hs/heftia
$ cd heftia/heftia-effects
$ cabal run exe:SemanticsZoo
...
# State & Except
( evalState . runThrow . runCatch $ action ) = Right True
( runThrow . evalState . runCatch $ action ) = Right True

# NonDet & Except
( runNonDet . runThrow . runCatch . runChooseH $ action1 ) = [Right True,Right False]
( runThrow . runNonDet . runCatch . runChooseH $ action1 ) = Right [True,False]
( runNonDet . runThrow . runCatch . runChooseH $ action2 ) = [Right False,Right True]
( runThrow . runNonDet . runCatch . runChooseH $ action2 ) = Right [False,True]

# NonDet & Writer
( runNonDet . runTell . runWriterH . runChooseH $ action ) = [(3,(3,True)),(4,(4,False))]
( runTell . runNonDet . runWriterH . runChooseH $ action ) = (6,[(3,True),(4,False)])

# https://github.com/hasura/eff/issues/12
interpret SomeEff then runCatch : ( runThrow . runCatch . runSomeEff $ action ) = Right "caught"
runCatch then interpret SomeEff : ( runThrow . runSomeEff . runCatch $ action ) = Left "not caught"

[Note] All other permutations will cause type errors.
$

Documentation

A detailed explanation of usage and semantics is available in Haddock. The example codes are located in the heftia-effects/Example/ directory. Also, the following HeftWorld example (outdated): https://github.com/sayo-hs/HeftWorld

About the internal elaboration mechanism: https://sayo-hs.github.io/jekyll/update/2024/09/04/how-the-heftia-extensible-effects-library-works.html

Comparison

  • Higher-Order Effects: Does it support higher-order effects?

  • Delimited Continuation: The ability to manipulate delimited continuations.

  • Effect System: For a term representing an effectful program, is it possible to statically decidable a type that enumerates all the effects the program may produce?

  • Purely Monadic: Is an effectful program represented as a transparent data structure that is a monad, and can it be interpreted into other data types using only pure operations without side effects or unsafePerformIO?

  • Dynamic Effect Rewriting: Can an effectful program have its internal effects altered afterwards (by functions typically referred to as handle with, intercept, interpose, transform, translate, or rewrite) ?

    For example, would it be possible to apply interpose as many times as the number of values input by the user at runtime?

  • Semantics: Classification of behaviors resulting from the interpretation of effects.

    • Algebraic Effects: The same as Algebraic Effects and Handlers.
    • IO-fused: IO + ReaderT pattern.
    • Carrier dependent: The behavior depends on the specific type inference result of the monad. Tagless-final style.
Library or Language Higher-Order Effects Delimited Continuation Effect System Purely Monadic Dynamic Effect Rewriting Semantics
heftia Yes Multi-shot Yes Yes Yes Algebraic Effects
freer-simple No Multi-shot Yes Yes Yes Algebraic Effects
polysemy Yes No Yes Yes Yes Weaving-based (functorial state)
effectful Yes No Yes No (based on the IO monad) Yes IO-fused
eff Yes Multi-shot Yes No (based on the IO monad) Yes Algebraic Effects & IO-fused 4
speff Yes Multi-shot (restriction: 2) Yes No (based on the IO monad) Yes Algebraic Effects & IO-fused
in-other-words Yes Multi-shot? Yes Yes No? Carrier dependent
mtl Yes Multi-shot (ContT) Yes Yes No Carrier dependent
fused-effects Yes No? Yes Yes No Carrier dependent & Weaving-based (functorial state)
Koka-lang No Multi-shot Yes No (language built-in) Yes Algebraic Effects
OCaml-lang 5 ? One-shot No 1 No (language built-in) ? Algebraic Effects?

Heftia can simply be described as a higher-order version of freer-simple. This is indeed true in terms of its internal mechanisms as well.

Additionally, this library provides a consistent algebraic effects semantics that is independent of carriers and effects. On the other hand, in libraries like in-other-words, mtl, and fused-effects, the semantics of the code depend on the effect and, in part, the carrier inferred by type inference. Fixing the semantics to a algebraic effects model helps improve the predictability of the behavior (interpretation result) of the code without losing flexibility.

Carrier-dependent semantics can lead to unexpected behavior for code readers, particularly in situations where the types become implicit. Particularly, attention should be given to the fact that due to type inference, semantic changes may propagate beyond the blocks enclosed by interpret or interpose. In the case of carrier-independent semantics, especially with Freer-based effects, interpret and interpose do not alter the semantics by intervening in type inference or instance resolution of the carrier. Instead, they function as traditional functions, simply transforming the content of the data structure. This results in minimal surprise to the mental model of the code reader.

Performance

Overall, the performance of this library is positioned roughly in the middle between the fast (effectful, eveff, etc.) and slow (polysemy, fused-effects, etc.) libraries, and can be considered average. In all benchmarks, the speed is nearly equivalent to freer-simple, only slightly slower.

For more details, please refer to performance.md.

Compatibility with other libraries

About mtl

  • Since the representation of effectful programs in Heftia is simply a monad (Eff), it can be used as the base monad for transformers. This means you can stack any transformer on top of it.

  • The Eff monad is an instance of MonadIO, MonadError, MonadRWS, MonadUnliftIO, Alternative, etc., and these behave as the senders for the embedded IO or the effect GADTs defined in data-effects.

Representation of effects

  • Heftia relies on data-effects for the definitions of standard effects such as Reader, Writer, and State.

  • It is generally recommended to use effects defined with automatic derivation provided by data-effects-th.

  • The representation of first-order effects is compatible with freer-simple. Therefore, effects defined for freer-simple can be used as is in this library. However, to avoid confusion between redundantly defined effects, it is recommended to use the effects defined in data-effects.

  • GADTs for higher-order effects are formally similar to Polysemy and fused-effects, but they need to be instances of the HFunctor type class. While it's not impossible to manually derive HFunctor for effect types based on these libraries and use them, it's inconvenient, so it's better to use data-effects. Also, it is not compatible with Effectful and eff.

Future Plans

  • Support for Applicative effects
  • Completing lacking definitions such as
    • interpreters for the Accum and others effects

License

The license is MPL 2.0. Please refer to the NOTICE. Additionally, the code from freer-simple has been modified and used internally within this library. Therefore, some modules are licensed under both MPL-2.0 AND BSD-3-Clause. For details on licenses and copyrights, please refer to the module's Haddock documentation.

Your contributions are welcome!

Please see CONTRIBUTING.md.

The following is a non-exhaustive list of people and works that have had a significant impact, directly or indirectly, on Heftia’s design and implementation:

1

Effects do not appear in the type signature and can potentially cause unhandled errors at runtime

2

Scoped Resumption only. e.g. Coroutines are not supported.