# Heftia: higher-order effects done right for Haskell [![Hackage](https://img.shields.io/hackage/v/heftia.svg?logo=haskell&label=heftia)](https://hackage.haskell.org/package/heftia) [![Hackage](https://img.shields.io/hackage/v/heftia-effects.svg?logo=haskell&label=heftia-effects)](https://hackage.haskell.org/package/heftia-effects) Heftia is a higher-order effects version of Freer. This library provides "[continuation-based semantics](https://github.com/lexi-lambda/eff/blob/master/notes/semantics-zoo.md)" for higher-order effects, the same as [lexi-lambda's eff](https://github.com/lexi-lambda/eff). Instead of using the `IO` monad to implement delimited continuations for effects, Heftia internally uses `Freer` monad. 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. inspires this library. Hefty trees, proposed by the above paper, are extensions of free monads, allowing for a straightforward treatment of higher-order effects. This library offers Hefty monads and Freer monads, encoded into data types in several ways to enable tuning in pursuit of high performance. ## Status This library is currently in the beta stage. There may be significant changes and potential bugs. Specifically, significant performance improvements are required: https://github.com/sayo-hs/heftia/issues/12 **We are looking forward to your feedback!** ## Installation 1. ```console $ cabal update ``` 2. Add `heftia-effects ^>= 0.3.1` and `ghc-typelits-knownnat ^>= 0.7` to the build dependencies. Enable the [ghc-typelits-knownnat](https://hackage.haskell.org/package/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 ^>= 0.3.1, 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 ... ``` This library has been tested to work with GHC 9.2.8. Versions of `base` 4.17 and later (GHC 9.4.1 and later) are not currently supported. Please wait for an update. https://github.com/sayo-hs/heftia/issues/11#issue-2509400153 ## Getting Started To run the [SemanticsZoo example](https://github.com/sayo-hs/heftia/blob/08f5cfe6a8f5c0383ea2b02e93326552400f7fd3/heftia-effects/Example/SemanticsZoo/Main.hs): ```console $ 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 . elaborateWriter . runChooseH $ action ) = [(3,(3,True)),(4,(4,False))] ( runTell . runNonDet . elaborateWriter . 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. $ ``` ## 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**. This enables an almost complete emulation of "Algebraic Effects and Handlers". For more details, please refer to the [example code](https://github.com/sayo-hs/heftia/blob/v0.3.0/heftia-effects/Example/Continuation/Main.hs). ### Two interpretations of the `censor` effect for Writer Let's consider the following Writer effectful program: ```hs 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**. ```hs main :: IO () main = runEff do (sPre, _) <- runTell . interpretRecH (elabWriterPre @String) $ censorHello (sPost, _) <- runTell . interpretRecH (elabWriterPost @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](https://github.com/sayo-hs/heftia/blob/v0.3.0/heftia-effects/Example/Writer/Main.hs) and the [implementation of the elaborator](https://github.com/sayo-hs/heftia/blob/v0.3.0/heftia-effects/src/Control/Effect/Interpreter/Heftia/Writer.hs). Furthermore, the structure of Heftia is theoretically straightforward, with ad-hoc elements being eliminated. Additionally, Heftia supports not only monadic effectful programs but also **applicative effectful programs**. This may be useful when writing concurrent effectful code. Heftia is the current main focus of the [Sayo Project](https://github.com/sayo-hs). ## Documentation The example codes are located in the [heftia-effects/Example/](https://github.com/sayo-hs/heftia/tree/08f5cfe6a8f5c0383ea2b02e93326552400f7fd3/heftia-effects/Example) directory. Also, the following *HeftWorld* example: https://github.com/sayo-hs/HeftWorld About the internal mechanism: https://sayo-hs.github.io/jekyll/update/2024/09/04/how-the-heftia-extensible-effects-library-works.html Examples with explanations in Japanese can be found in the [docs-ja/examples/](https://github.com/sayo-hs/heftia/tree/v0.3.0/docs-ja/examples) directory. ## 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. * continuation-based: The same as Algebraic Effects and Handlers. * IO-fused: IO + Reader pattern. * carrier dependent: The behavior depends on the specific type inference result of the monad. Tagless-final style. * Performance: Speed, particularly when the effect stack becomes deep. | Library or Language | Higher-Order Effects | Delimited Continuation | Effect System | Purely Monadic | Dynamic Effect Rewriting | Semantics | Performance | | ------------------- | -------------------- | ---------------------- | --------------| --------------------------------- | ------------------------ | -------------------------------- | ------------------ | | Heftia | Yes | Multi-shot | Yes | Yes (also Applicative and others) | Yes | continuation-based | [^5] | | freer-simple | No | Multi-shot | Yes | Yes | Yes | continuation-based | ? | | 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 | continuation-based & IO-fused [^6] | ? | | speff | Yes | Multi-shot (restriction: [^4]) | Yes | No (based on the `IO` monad) | Yes | continuation-based & 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 [^2] | Multi-shot | Yes | No (language built-in) | Yes | continuation-based | ? | | OCaml-lang 5 | ? | One-shot | No [^3] | No (language built-in) | ? | continuation-based? | ? | [^2]: https://gist.github.com/ymdryo/6fb2f7f4020c6fcda98ccc67c090dc75 [^3]: Effects do not appear in the type signature and can potentially cause unhandled errors at runtime [^4]: Scoped Resumption only. e.g. Coroutines are not supported. [^5]: https://github.com/sayo-hs/heftia/issues/12 [^6]: https://github.com/hasura/eff/issues/12 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 *continuation-based* 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 *continuation-based* model helps improve the predictability of the behavior (interpretation result) of the code. 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. ### Compatibility with other libraries #### Representation of effects * Heftia Effects relies on [data-effects](https://github.com/sayo-hs/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](https://github.com/sayo-hs/data-effects/tree/develop/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](https://github.com/sayo-hs/data-effects). * GADTs for higher-order effects need to be instances of the [HFunctor](https://hackage.haskell.org/package/compdata-0.13.1/docs/Data-Comp-Multi-HFunctor.html#t:HFunctor) type class for convenient usage. While it is still possible to use them without being instances of `HFunctor`, the `interpretRec` family of functions cannot be used when higher-order effects that are not `HFunctor` are unelaborated. If this issue is not a concern, the GADT representation of higher-order effects is compatible with Polysemy and fused-effects. It is not compatible with Effectful and eff. #### 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](https://github.com/sayo-hs/data-effects). ## Future Plans * Enriching the documentation and tests * Translate [`docs-ja/examples`](https://github.com/sayo-hs/heftia/tree/v0.3.1/docs-ja/examples) to English * Completing missing definitions such as * more patterns of interpret & transform function-families. * interpreters for the `Accum` and others effect classes and others. * Improve performance ## License The license is MPL 2.0. Please refer to the [NOTICE](https://github.com/sayo-hs/heftia/blob/v0.3.0/NOTICE). Additionally, this README.md and the documents under the `docs-ja` directory are licensed under CC BY-SA 4.0. ## Your contributions are welcome! Please see [CONTRIBUTING.md](https://github.com/sayo-hs/heftia/blob/v0.3.0/CONTRIBUTING.md). ## Acknowledgements, citations, and related work 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: - Oleg Kiselyov, Amr Sabry, and Cameron Swords — [Extensible Effects: An alternative to monad transfomers][oleg:exteff] - Oleg Kiselyov and Hiromi Ishii — [Freer Monads, More Extensible Effects][oleg:more] - Rob Rix, Patrick Thomson, and other contributors — [`fused-effects`][gh:fused-effects] - Sandy Maguire and other contributors — [`polysemy`][gh:polysemy] - Alexis King and other contributors — [`freer-simple`][gh:freer-simple], [`eff`][gh:eff] - Casper Bach Poulsen and Cas van der Rest — [Hefty Algebras: Modular Elaboration of Higher-Order Algebraic Effects][casper:hefty] [gh:fused-effects]: https://github.com/fused-effects/fused-effects [gh:polysemy]: https://github.com/polysemy-research/polysemy [oleg:exteff]: http://okmij.org/ftp/Haskell/extensible/exteff.pdf [oleg:more]: http://okmij.org/ftp/Haskell/extensible/more.pdf [casper:hefty]: https://dl.acm.org/doi/10.1145/3571255 [gh:freer-simple]: https://github.com/lexi-lambda/freer-simple [gh:eff]: https://github.com/lexi-lambda/eff