Hi, If you are already running atop the Jupyter technology stack, IHaskel [1] may be very straight forward to be incorporated from technical aspect (while licensing aspect is out of my expertise).
But still I would like take this opportunity to have more/further evaluation from you, about [2] , with by far my implementation [3] and application [4]. Once a frontend plugin can be injected into a GHCi session, and hooked up to some interactive UI, a new door is opened to allow much easier setup & use of GHC API interactively, like demonstrated in Hadui [4]. Currently there are too many different ways to setup a GHC API session, HIE has tried hard to unify them, but itself is yet under transition. I see the frontend interface being a proper abstraction even extended to WebUI/GUI applications, making interactions perfectly decoupled from how the underlying artifacts are organized, thus worth further consideration. While IHaskell is more powerful and better established as with Jupyter notebook, I chose the frontend route because IHaskell didn't come to today's maturity when I needed something like Hadui, and ZeroMQ seems bloating to my cases, even for now. Cheers, Compl [1] https://github.com/gibiansky/IHaskell [2] https://gitlab.haskell.org/ghc/ghc/issues/17348 [3] https://gitlab.haskell.org/complyue/ghc/tree/ghc-8.6-ife [4] https://github.com/complyue/hadui On 2020/5/1 上午5:13, Ben Gamari wrote: Simon Peyton Jones via ghc-devs <ghc-devs@haskell.org> <ghc-devs@haskell.org> writes: Friends Short summary: can someone familiar with using the GHC API offer advice on getting the Wolfram Language connected to Haskell? Hi Todd, et al., This sounds like a great project. I have fond memories of Mathematica from my studies. ... We have the following basic line of code for evaluating a string of Haskell code: r <- liftIO $ runInterpreter $ do { setImports ["Prelude"]; eval strToEvaluate} The problem is that this is a one-shot evaluation, and we want a long-lived interactive Haskell session, to which a series of inputs can be directed. We have been told that we have to use GHCi for that, but we don't know how to do it. It appears that you are using the `hint` library [1] for evaluation. I'll admit that I've not used hint; it looks quite sensible but I do not know what limitations you might encounter. It looks like its approach to error handling may leave something to be desired. Nevertheless, we can work with it for now; if we run into its limitations then the alternative is to use the GHC API directly, as suggested by Simon. The basic flow of our functionality is as follows: 1) User calls StartExternalSession["LanguageName"] to launch an interpreter for the language. This process remains running and can be used for multiple calls. 2) User calls ExternalEvaluate[session, "some code"] to execute the given code in the external language and return a result converted into native Wolfram Language types (strings, numbers, lists, associations, etc.) Sure. ... We have attached a simple file of Haskell code that one of our engineers has successfully used to get a basic evaluation of Haskell code from the Wolfram Language, but it uses the single-shot evaluation code that was given above, and so is not suitable. We would appreciate any help that you can give us, or developers or resources you can point us at, to assist in integrating Haskell into our ExternalEvaluate system. It looks like you will want to push the `runInterpreter` out of the `forever`. Afterall, you want the interpreter session to persist over multiple requests. Doing this isn't difficult but does require some monad transformer shuffling, which may be unfamiliar to someone coming from another language. I've put up a cleaned up version of your program here [1]; hopefully this is enough to get you started. Do note that this requires a patched version of zeromq4-haskell due to a minor bug [2] which I have fixed [3]. Do note that there is a related effort, iHaskell [4], which provides a Haskell kernel for Jupyter Notebook. This might be a place to draw inspiration from. Let us know how things go and don't hesitate to be in touch if you have questions regarding the GHC API. Cheers, - Ben [1] https://github.com/bgamari/zeromq-hint [2] https://gitlab.com/twittner/zeromq-haskell/-/issues/66 [3] https://gitlab.com/twittner/zeromq-haskell/-/merge_requests/6 [4] https://github.com/gibiansky/IHaskell _______________________________________________ ghc-devs mailing listghc-devs@haskell.orghttp://mail.haskell.org/cgi-bin/mailman/listinfo/ghc-devs
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