mirror of
https://github.com/anoma/juvix.git
synced 2024-12-14 17:32:00 +03:00
ef16b45ca6
- Closes #2188. This pr introduces a new syntactical statement for defining aliases: ``` syntax alias newName := oldName; ``` where `oldName` can be any name in the expression namespace. Fixity and module aliases are not supported at the moment. - The `newName` does not inherit the fixity of `oldName`. We have agreed that the goal is to inherit the fixity of `oldName` except if `newName` has a fixity statement, but this will be done in a separate pr as it requires #2310.
644 lines
24 KiB
Haskell
644 lines
24 KiB
Haskell
{-# LANGUAGE QuasiQuotes #-}
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module Commands.Repl where
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import Commands.Base hiding
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( command,
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)
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import Commands.Repl.Base
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import Commands.Repl.Options
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import Control.Exception (throwIO)
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import Control.Monad.Except qualified as Except
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import Control.Monad.Reader qualified as Reader
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import Control.Monad.State.Strict qualified as State
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import Control.Monad.Trans.Class (lift)
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import Data.String.Interpolate (i, __i)
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import Evaluator
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import Juvix.Compiler.Concrete.Data.InfoTable qualified as Scoped
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import Juvix.Compiler.Concrete.Data.Scope (scopePath)
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import Juvix.Compiler.Concrete.Data.ScopedName (absTopModulePath)
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import Juvix.Compiler.Concrete.Data.ScopedName qualified as Scoped
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import Juvix.Compiler.Concrete.Language qualified as Concrete
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import Juvix.Compiler.Concrete.Pretty qualified as Concrete
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import Juvix.Compiler.Concrete.Translation.FromParsed.Analysis.PathResolver (runPathResolver)
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import Juvix.Compiler.Core qualified as Core
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import Juvix.Compiler.Core.Extra.Value
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import Juvix.Compiler.Core.Info qualified as Info
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import Juvix.Compiler.Core.Info.NoDisplayInfo qualified as Info
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import Juvix.Compiler.Core.Pretty qualified as Core
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import Juvix.Compiler.Core.Transformation qualified as Core
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import Juvix.Compiler.Core.Transformation.DisambiguateNames (disambiguateNames)
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import Juvix.Compiler.Internal.Language qualified as Internal
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import Juvix.Compiler.Internal.Pretty qualified as Internal
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import Juvix.Compiler.Pipeline.Repl
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import Juvix.Compiler.Pipeline.Setup (entrySetup)
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import Juvix.Data.Error.GenericError qualified as Error
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import Juvix.Data.NameKind
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import Juvix.Extra.Paths
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import Juvix.Extra.Stdlib
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import Juvix.Extra.Version
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import Juvix.Prelude.Pretty
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import Juvix.Prelude.Pretty qualified as P
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import System.Console.ANSI qualified as Ansi
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import System.Console.Haskeline
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import System.Console.Repline
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import System.Console.Repline qualified as Repline
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printHelpTxt :: ReplOptions -> Repl ()
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printHelpTxt opts = do
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liftIO $ do
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putStrLn normalCmds
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let isDev = opts ^. replIsDev
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when isDev (putStrLn devCmds)
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where
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normalCmds :: Text
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normalCmds =
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[__i|
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EXPRESSION Evaluate an expression in the context of the currently loaded module
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:help Print help text and describe options
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:load FILE Load a file into the REPL
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:reload Reload the currently loaded file
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:type EXPRESSION Infer the type of an expression
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:def IDENTIFIER Print the definition of the identifier
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:doc IDENTIFIER Print the documentation of the identifier
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:core EXPRESSION Translate the expression to JuvixCore
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:multiline Start a multi-line input. Submit with <Ctrl-D>
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:root Print the current project root
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:version Display the Juvix version
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:quit Exit the REPL
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|]
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devCmds :: Text
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devCmds =
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[__i|
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:dev DEV CMD Command reserved for debugging
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|]
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replDefaultLoc :: Interval
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replDefaultLoc = singletonInterval (mkInitialLoc replPath)
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replFromJust :: Repl a -> Maybe a -> Repl a
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replFromJust err = maybe err return
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replFromEither :: Either JuvixError a -> Repl a
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replFromEither = either (lift . Except.throwError) return
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replGetContext :: Repl ReplContext
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replGetContext = State.gets (^. replStateContext) >>= replFromJust noFileLoadedErr
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replError :: AnsiText -> Repl a
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replError msg =
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lift
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. Except.throwError
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. JuvixError
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$ GenericError
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{ _genericErrorLoc = replDefaultLoc,
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_genericErrorMessage = msg,
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_genericErrorIntervals = [replDefaultLoc]
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}
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noFileLoadedErr :: Repl a
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noFileLoadedErr = replError (mkAnsiText @Text "No file loaded. Load a file using the `:load FILE` command.")
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welcomeMsg :: MonadIO m => m ()
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welcomeMsg = liftIO (putStrLn [i|Juvix REPL version #{versionTag}: https://juvix.org. Run :help for help|])
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multilineCmd :: String
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multilineCmd = "multiline"
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quit :: String -> Repl ()
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quit _ = liftIO (throwIO Interrupt)
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loadEntryPoint :: EntryPoint -> Repl ()
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loadEntryPoint ep = do
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artif <- liftIO (corePipelineIO' ep)
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let newCtx =
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ReplContext
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{ _replContextArtifacts = artif,
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_replContextEntryPoint = ep
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}
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State.modify (set replStateContext (Just newCtx))
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let epPath :: Maybe (Path Abs File) = ep ^? entryPointModulePaths . _head
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whenJust epPath $ \path -> liftIO (putStrLn [i|OK loaded: #{toFilePath path}|])
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reloadFile :: String -> Repl ()
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reloadFile _ = replGetContext >>= loadEntryPoint . (^. replContextEntryPoint)
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pSomeFile :: String -> Prepath File
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pSomeFile = mkPrepath
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loadFile :: Prepath File -> Repl ()
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loadFile f = do
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entryPoint <- getReplEntryPointFromPrepath f
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loadEntryPoint entryPoint
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loadDefaultPrelude :: Repl ()
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loadDefaultPrelude = whenJustM defaultPreludeEntryPoint $ \e -> do
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root <- Reader.asks (^. replRoots . rootsRootDir)
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-- The following is needed to ensure that the default location of the
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-- standard library exists
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void
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. liftIO
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. runM
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. runFilesIO
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. runError @Text
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. runReader e
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. runPathResolver root
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$ entrySetup
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loadEntryPoint e
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getReplEntryPoint :: (Roots -> a -> GlobalOptions -> IO EntryPoint) -> a -> Repl EntryPoint
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getReplEntryPoint f inputFile = do
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roots <- Reader.asks (^. replRoots)
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gopts <- State.gets (^. replStateGlobalOptions)
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liftIO (set entryPointSymbolPruningMode KeepAll <$> f roots inputFile gopts)
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getReplEntryPointFromPrepath :: Prepath File -> Repl EntryPoint
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getReplEntryPointFromPrepath = getReplEntryPoint entryPointFromGlobalOptionsPre
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getReplEntryPointFromPath :: Path Abs File -> Repl EntryPoint
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getReplEntryPointFromPath = getReplEntryPoint entryPointFromGlobalOptions
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displayVersion :: String -> Repl ()
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displayVersion _ = liftIO (putStrLn versionTag)
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replCommand :: ReplOptions -> String -> Repl ()
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replCommand opts input = catchAll $ do
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ctx <- replGetContext
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let tab = ctx ^. replContextArtifacts . artifactCoreTable
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evalRes <- compileThenEval ctx input
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whenJust evalRes $ \n ->
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if
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| Info.member Info.kNoDisplayInfo (Core.getInfo n) -> return ()
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| opts ^. replPrintValues ->
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renderOutLn (Core.ppOut opts (toValue tab n))
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| otherwise -> renderOutLn (Core.ppOut opts n)
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where
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compileThenEval :: ReplContext -> String -> Repl (Maybe Core.Node)
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compileThenEval ctx s = compileString >>= mapM eval
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where
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artif :: Artifacts
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artif = ctx ^. replContextArtifacts
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eval :: Core.Node -> Repl Core.Node
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eval n = do
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ep <- getReplEntryPointFromPrepath (mkPrepath (toFilePath replPath))
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let shouldDisambiguate :: Bool
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shouldDisambiguate = not (opts ^. replNoDisambiguate)
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(artif', n') <-
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replFromEither
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. run
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. runReader ep
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. runError @JuvixError
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. runState artif
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. runTransformations shouldDisambiguate (opts ^. replTransformations)
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$ n
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liftIO (doEvalIO' artif' n') >>= replFromEither
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doEvalIO' :: Artifacts -> Core.Node -> IO (Either JuvixError Core.Node)
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doEvalIO' artif' n =
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mapLeft (JuvixError @Core.CoreError)
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<$> doEvalIO False replDefaultLoc (artif' ^. artifactCoreTable) n
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compileString :: Repl (Maybe Core.Node)
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compileString = do
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(artifacts, res) <- liftIO $ compileReplInputIO' ctx (strip (pack s))
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res' <- replFromEither res
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State.modify (over (replStateContext . _Just) (set replContextArtifacts artifacts))
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return res'
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core :: String -> Repl ()
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core input = do
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ctx <- replGetContext
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opts <- Reader.asks (^. replOptions)
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compileRes <- liftIO (compileReplInputIO' ctx (strip (pack input))) >>= replFromEither . snd
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whenJust compileRes (renderOutLn . Core.ppOut opts)
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dev :: String -> Repl ()
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dev input = do
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ctx <- replGetContext
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if
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| input == scoperStateCmd -> do
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renderOutLn (Concrete.ppTrace (ctx ^. replContextArtifacts . artifactScoperState))
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| otherwise ->
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renderOutLn
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( "Unrecognized command "
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<> input
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<> "\nAvailable commands: "
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<> unwords cmds
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)
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where
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cmds :: [String]
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cmds = [scoperStateCmd]
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scoperStateCmd :: String
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scoperStateCmd = "scoperState"
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ppConcrete :: Concrete.PrettyPrint a => a -> Repl AnsiText
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ppConcrete a = do
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gopts <- State.gets (^. replStateGlobalOptions)
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let popts :: GenericOptions = project' gopts
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return (Concrete.ppOut popts a)
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printConcrete :: Concrete.PrettyPrint a => a -> Repl ()
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printConcrete = ppConcrete >=> renderOut
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printConcreteLn :: Concrete.PrettyPrint a => a -> Repl ()
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printConcreteLn = ppConcrete >=> renderOutLn
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replParseIdentifiers :: String -> Repl (NonEmpty Concrete.ScopedIden)
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replParseIdentifiers input =
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replExpressionUpToScopedAtoms (strip (pack input))
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>>= getIdentifiers
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where
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getIdentifiers :: Concrete.ExpressionAtoms 'Concrete.Scoped -> Repl (NonEmpty Concrete.ScopedIden)
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getIdentifiers as = mapM getIdentifier (as ^. Concrete.expressionAtoms)
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where
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getIdentifier :: Concrete.ExpressionAtom 'Concrete.Scoped -> Repl (Concrete.ScopedIden)
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getIdentifier = \case
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Concrete.AtomIdentifier a -> return a
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Concrete.AtomParens p
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| Concrete.ExpressionIdentifier a <- p -> return a
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| Concrete.ExpressionParensIdentifier a <- p -> return a
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_ -> err
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where
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err :: Repl a
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err = replError (mkAnsiText @Text ":def expects one or more identifiers")
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printDocumentation :: String -> Repl ()
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printDocumentation = replParseIdentifiers >=> printIdentifiers
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where
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printIdentifiers :: NonEmpty Concrete.ScopedIden -> Repl ()
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printIdentifiers (d :| ds) = do
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printIdentifier d
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whenJust (nonEmpty ds) $ \ds' -> replNewline >> printIdentifiers ds'
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where
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getInfoTable :: Repl Scoped.InfoTable
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getInfoTable = (^. replContextArtifacts . artifactScopeTable) <$> replGetContext
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printIdentifier :: Concrete.ScopedIden -> Repl ()
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printIdentifier s = do
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let n = s ^. Concrete.scopedIdenFinal . Scoped.nameId
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mdoc <- case getNameKind s of
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KNameAxiom -> getDocAxiom n
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KNameInductive -> getDocInductive n
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KNameLocal -> return Nothing
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KNameFunction -> getDocFunction n
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KNameConstructor -> getDocConstructor n
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KNameLocalModule -> impossible
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KNameTopModule -> impossible
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KNameAlias -> impossible
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KNameFixity -> impossible
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printDoc mdoc
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where
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printDoc :: Maybe (Concrete.Judoc 'Concrete.Scoped) -> Repl ()
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printDoc = \case
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Nothing -> do
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s' <- ppConcrete s
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renderOut (mkAnsiText @Text "No documentation available for ")
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renderOutLn s'
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Just ju -> printConcrete ju
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getDocFunction :: Scoped.NameId -> Repl (Maybe (Concrete.Judoc 'Concrete.Scoped))
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getDocFunction fun = do
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tbl :: Scoped.InfoTable <- getInfoTable
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let def :: Scoped.FunctionInfo = tbl ^?! Scoped.infoFunctions . at fun . _Just
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return (def ^. Scoped.functionInfoDoc)
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getDocInductive :: Scoped.NameId -> Repl (Maybe (Concrete.Judoc 'Concrete.Scoped))
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getDocInductive ind = do
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tbl :: Scoped.InfoTable <- (^. replContextArtifacts . artifactScopeTable) <$> replGetContext
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let def :: Concrete.InductiveDef 'Concrete.Scoped = tbl ^?! Scoped.infoInductives . at ind . _Just . Scoped.inductiveInfoDef
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return (def ^. Concrete.inductiveDoc)
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getDocAxiom :: Scoped.NameId -> Repl (Maybe (Concrete.Judoc 'Concrete.Scoped))
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getDocAxiom ax = do
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tbl :: Scoped.InfoTable <- (^. replContextArtifacts . artifactScopeTable) <$> replGetContext
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let def :: Concrete.AxiomDef 'Concrete.Scoped = tbl ^?! Scoped.infoAxioms . at ax . _Just . Scoped.axiomInfoDef
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return (def ^. Concrete.axiomDoc)
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getDocConstructor :: Scoped.NameId -> Repl (Maybe (Concrete.Judoc 'Concrete.Scoped))
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getDocConstructor c = do
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tbl :: Scoped.InfoTable <- (^. replContextArtifacts . artifactScopeTable) <$> replGetContext
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let def :: Scoped.ConstructorInfo = tbl ^?! Scoped.infoConstructors . at c . _Just
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return (def ^. Scoped.constructorInfoDef . Concrete.constructorDoc)
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printDefinition :: String -> Repl ()
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printDefinition = replParseIdentifiers >=> printIdentifiers
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where
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printIdentifiers :: NonEmpty Concrete.ScopedIden -> Repl ()
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printIdentifiers (d :| ds) = do
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printIdentifier d
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whenJust (nonEmpty ds) $ \ds' -> replNewline >> printIdentifiers ds'
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where
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getInfoTable :: Repl Scoped.InfoTable
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getInfoTable = (^. replContextArtifacts . artifactScopeTable) <$> replGetContext
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printIdentifier :: Concrete.ScopedIden -> Repl ()
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printIdentifier s =
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let n = s ^. Concrete.scopedIdenFinal . Scoped.nameId
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in case getNameKind s of
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KNameAxiom -> printAxiom n
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KNameInductive -> printInductive n
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KNameLocal -> return ()
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KNameFunction -> printFunction n
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KNameConstructor -> printConstructor n
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KNameLocalModule -> impossible
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KNameTopModule -> impossible
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KNameFixity -> impossible
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KNameAlias -> impossible
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where
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printLocation :: HasLoc s => s -> Repl ()
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printLocation def = do
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s' <- ppConcrete s
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let txt :: Text = " is " <> prettyText (nameKindWithArticle (getNameKind s)) <> " defined at " <> prettyText (getLoc def)
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renderOutLn (s' <> mkAnsiText txt)
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printFunction :: Scoped.NameId -> Repl ()
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printFunction fun = do
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tbl :: Scoped.InfoTable <- getInfoTable
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let def :: Scoped.FunctionInfo = tbl ^?! Scoped.infoFunctions . at fun . _Just
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printLocation def
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printConcreteLn def
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printInductive :: Scoped.NameId -> Repl ()
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printInductive ind = do
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tbl :: Scoped.InfoTable <- (^. replContextArtifacts . artifactScopeTable) <$> replGetContext
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let def :: Concrete.InductiveDef 'Concrete.Scoped = tbl ^?! Scoped.infoInductives . at ind . _Just . Scoped.inductiveInfoDef
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printLocation def
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printConcreteLn def
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printAxiom :: Scoped.NameId -> Repl ()
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printAxiom ax = do
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tbl :: Scoped.InfoTable <- (^. replContextArtifacts . artifactScopeTable) <$> replGetContext
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let def :: Concrete.AxiomDef 'Concrete.Scoped = tbl ^?! Scoped.infoAxioms . at ax . _Just . Scoped.axiomInfoDef
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printLocation def
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printConcreteLn def
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printConstructor :: Scoped.NameId -> Repl ()
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printConstructor c = do
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tbl :: Scoped.InfoTable <- (^. replContextArtifacts . artifactScopeTable) <$> replGetContext
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let ind :: Scoped.Symbol = tbl ^?! Scoped.infoConstructors . at c . _Just . Scoped.constructorInfoTypeName
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printInductive (ind ^. Scoped.nameId)
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inferType :: String -> Repl ()
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inferType input = do
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gopts <- State.gets (^. replStateGlobalOptions)
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n <- replExpressionUpToTyped (strip (pack input))
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renderOutLn (Internal.ppOut (project' @GenericOptions gopts) (n ^. Internal.typedType))
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replCommands :: ReplOptions -> [(String, String -> Repl ())]
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replCommands opts = catchable ++ nonCatchable
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where
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nonCatchable :: [(String, String -> Repl ())]
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nonCatchable =
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[ ("quit", quit)
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]
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catchable :: [(String, String -> Repl ())]
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catchable =
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map
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(second (catchAll .))
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[ ("help", const (printHelpTxt opts)),
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-- `multiline` is included here for auto-completion purposes only.
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-- `repline`'s `multilineCommand` logic overrides this no-op.
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(multilineCmd, const (return ())),
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("load", loadFile . pSomeFile),
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("reload", reloadFile),
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("root", printRoot),
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("def", printDefinition),
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("doc", printDocumentation),
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("type", inferType),
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("version", displayVersion),
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("core", core),
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("dev", dev)
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]
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catchAll :: Repl () -> Repl ()
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catchAll = Repline.dontCrash . catchJuvixError
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where
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catchJuvixError :: Repl () -> Repl ()
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catchJuvixError (HaskelineT m) = HaskelineT (mapInputT_ catchErrorS m)
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where
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catchErrorS :: ReplS () -> ReplS ()
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catchErrorS = (`Except.catchError` printErrorS)
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defaultMatcher :: [(String, CompletionFunc ReplS)]
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defaultMatcher = [(":load", fileCompleter)]
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optsCompleter :: WordCompleter ReplS
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optsCompleter n = do
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opts <- Reader.asks (^. replOptions)
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let names = (":" <>) . fst <$> replCommands opts
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return (filter (isPrefixOf n) names)
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replBanner :: MultiLine -> Repl String
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replBanner = \case
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MultiLine -> return "... "
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SingleLine -> do
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mmodulePath <-
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State.gets
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( ^?
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replStateContext
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. _Just
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. replContextArtifacts
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. artifactMainModuleScope
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. _Just
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. scopePath
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. absTopModulePath
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)
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return $ case mmodulePath of
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Just path -> [i|#{unpack (P.prettyText path)}> |]
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Nothing -> "juvix> "
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replPrefix :: Maybe Char
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replPrefix = Just ':'
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replMultilineCommand :: Maybe String
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replMultilineCommand = Just multilineCmd
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replInitialiser :: Repl ()
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replInitialiser = do
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gopts <- State.gets (^. replStateGlobalOptions)
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opts <- Reader.asks (^. replOptions)
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welcomeMsg
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unless
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(opts ^. replNoPrelude || gopts ^. globalNoStdlib)
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(maybe loadDefaultPrelude (loadFile . (^. pathPath)) (opts ^. replInputFile))
|
|
|
|
replFinaliser :: Repl ExitDecision
|
|
replFinaliser = return Exit
|
|
|
|
replTabComplete :: CompleterStyle ReplS
|
|
replTabComplete = Prefix (wordCompleter optsCompleter) defaultMatcher
|
|
|
|
printRoot :: String -> Repl ()
|
|
printRoot _ = do
|
|
r <- State.gets (^. replStateRoots . rootsRootDir)
|
|
liftIO $ putStrLn (pack (toFilePath r))
|
|
|
|
runCommand :: Members '[Embed IO, App] r => ReplOptions -> Sem r ()
|
|
runCommand opts = do
|
|
roots <- askRoots
|
|
let replAction :: ReplS ()
|
|
replAction = do
|
|
evalReplOpts
|
|
ReplOpts
|
|
{ prefix = replPrefix,
|
|
multilineCommand = replMultilineCommand,
|
|
initialiser = replInitialiser,
|
|
finaliser = replFinaliser,
|
|
tabComplete = replTabComplete,
|
|
command = replCommand opts,
|
|
options = replCommands opts,
|
|
banner = replBanner
|
|
}
|
|
globalOptions <- askGlobalOptions
|
|
let env =
|
|
ReplEnv
|
|
{ _replRoots = roots,
|
|
_replOptions = opts
|
|
}
|
|
iniState =
|
|
ReplState
|
|
{ _replStateRoots = roots,
|
|
_replStateContext = Nothing,
|
|
_replStateGlobalOptions = globalOptions
|
|
}
|
|
e <-
|
|
embed
|
|
. Except.runExceptT
|
|
. (`State.evalStateT` iniState)
|
|
. (`Reader.runReaderT` env)
|
|
$ replAction
|
|
case e of
|
|
Left {} -> error "impossible: uncaught exception"
|
|
Right () -> return ()
|
|
|
|
-- | If the package contains the stdlib as a dependency, loads the Prelude
|
|
defaultPreludeEntryPoint :: Repl (Maybe EntryPoint)
|
|
defaultPreludeEntryPoint = do
|
|
roots <- State.gets (^. replStateRoots)
|
|
let buildDir = roots ^. rootsBuildDir
|
|
root = roots ^. rootsRootDir
|
|
pkg = roots ^. rootsPackage
|
|
mstdlibPath <- liftIO (runM (runFilesIO (packageStdlib root buildDir (pkg ^. packageDependencies))))
|
|
case mstdlibPath of
|
|
Just stdlibPath ->
|
|
Just . set entryPointResolverRoot stdlibPath
|
|
<$> getReplEntryPointFromPath (stdlibPath <//> preludePath)
|
|
Nothing -> return Nothing
|
|
|
|
replMakeAbsolute :: SomeBase b -> Repl (Path Abs b)
|
|
replMakeAbsolute = \case
|
|
Abs p -> return p
|
|
Rel r -> do
|
|
invokeDir <- State.gets (^. replStateRoots . rootsInvokeDir)
|
|
return (invokeDir <//> r)
|
|
|
|
replExpressionUpToScopedAtoms :: Text -> Repl (Concrete.ExpressionAtoms 'Concrete.Scoped)
|
|
replExpressionUpToScopedAtoms txt = do
|
|
ctx <- replGetContext
|
|
x <-
|
|
liftIO
|
|
. runM
|
|
. runError
|
|
. evalState (ctx ^. replContextArtifacts)
|
|
. runReader (ctx ^. replContextEntryPoint)
|
|
$ expressionUpToAtomsScoped replPath txt
|
|
replFromEither x
|
|
|
|
replExpressionUpToTyped :: Text -> Repl Internal.TypedExpression
|
|
replExpressionUpToTyped txt = do
|
|
ctx <- replGetContext
|
|
x <-
|
|
liftIO
|
|
. runM
|
|
. runError
|
|
. evalState (ctx ^. replContextArtifacts)
|
|
. runReader (ctx ^. replContextEntryPoint)
|
|
$ expressionUpToTyped replPath txt
|
|
replFromEither x
|
|
|
|
compileReplInputIO' :: ReplContext -> Text -> IO (Artifacts, (Either JuvixError (Maybe Core.Node)))
|
|
compileReplInputIO' ctx txt =
|
|
runM
|
|
. runState (ctx ^. replContextArtifacts)
|
|
. runReader (ctx ^. replContextEntryPoint)
|
|
$ do
|
|
r <- compileReplInputIO replPath txt
|
|
return (extractNode <$> r)
|
|
where
|
|
extractNode :: ReplPipelineResult -> Maybe Core.Node
|
|
extractNode = \case
|
|
ReplPipelineResultNode n -> Just n
|
|
ReplPipelineResultImport {} -> Nothing
|
|
ReplPipelineResultOpenImport {} -> Nothing
|
|
|
|
render' :: (P.HasAnsiBackend a, P.HasTextBackend a) => a -> Repl ()
|
|
render' t = do
|
|
opts <- State.gets (^. replStateGlobalOptions)
|
|
hasAnsi <- liftIO (Ansi.hSupportsANSIColor stdout)
|
|
liftIO (P.renderIO (not (opts ^. globalNoColors) && hasAnsi) t)
|
|
|
|
replNewline :: Repl ()
|
|
replNewline = liftIO (putStrLn "")
|
|
|
|
renderOut :: (P.HasAnsiBackend a, P.HasTextBackend a) => a -> Repl ()
|
|
renderOut = render'
|
|
|
|
renderOutLn :: (P.HasAnsiBackend a, P.HasTextBackend a) => a -> Repl ()
|
|
renderOutLn t = renderOut t >> replNewline
|
|
|
|
printErrorS :: JuvixError -> ReplS ()
|
|
printErrorS e = do
|
|
opts <- State.gets (^. replStateGlobalOptions)
|
|
hasAnsi <- liftIO (Ansi.hSupportsANSIColor stderr)
|
|
liftIO $ hPutStrLn stderr $ run (runReader (project' @GenericOptions opts) (Error.render (not (opts ^. globalNoColors) && hasAnsi) False e))
|
|
|
|
runTransformations ::
|
|
forall r.
|
|
Members '[State Artifacts, Error JuvixError, Reader EntryPoint] r =>
|
|
Bool ->
|
|
[Core.TransformationId] ->
|
|
Core.Node ->
|
|
Sem r Core.Node
|
|
runTransformations shouldDisambiguate ts n = runCoreInfoTableBuilderArtifacts $ do
|
|
sym <- addNode n
|
|
applyTransforms shouldDisambiguate ts
|
|
getNode sym
|
|
where
|
|
addNode :: Core.Node -> Sem (Core.InfoTableBuilder ': r) Core.Symbol
|
|
addNode node = do
|
|
sym <- Core.freshSymbol
|
|
Core.registerIdentNode sym node
|
|
-- `n` will get filtered out by the transformations unless it has a
|
|
-- corresponding entry in `infoIdentifiers`
|
|
tab <- Core.getInfoTable
|
|
let name = Core.freshIdentName tab "_repl"
|
|
idenInfo =
|
|
Core.IdentifierInfo
|
|
{ _identifierName = name,
|
|
_identifierSymbol = sym,
|
|
_identifierLocation = Nothing,
|
|
_identifierArgsNum = 0,
|
|
_identifierType = Core.mkDynamic',
|
|
_identifierIsExported = False,
|
|
_identifierBuiltin = Nothing,
|
|
_identifierPragmas = mempty,
|
|
_identifierArgNames = []
|
|
}
|
|
Core.registerIdent name idenInfo
|
|
return sym
|
|
|
|
applyTransforms :: Bool -> [Core.TransformationId] -> Sem (Core.InfoTableBuilder ': r) ()
|
|
applyTransforms shouldDisambiguate' ts' = do
|
|
tab <- Core.getInfoTable
|
|
tab' <- mapReader Core.fromEntryPoint $ Core.applyTransformations ts' tab
|
|
let tab'' =
|
|
if
|
|
| shouldDisambiguate' -> disambiguateNames tab'
|
|
| otherwise -> tab'
|
|
Core.setInfoTable tab''
|
|
|
|
getNode :: Core.Symbol -> Sem (Core.InfoTableBuilder ': r) Core.Node
|
|
getNode sym = fromMaybe impossible . flip Core.lookupIdentifierNode' sym <$> Core.getInfoTable
|