{-# language FlexibleContexts #-}
{-# language NamedFieldPuns #-}
{-# language OverloadedStrings #-}
{-# language RecordWildCards #-}
module Dhall.Repl
(
repl
) where
import Control.Exception ( SomeException(SomeException), displayException, throwIO )
import Control.Monad ( forM_ )
import Control.Monad.Fail ( MonadFail )
import Control.Monad.IO.Class ( MonadIO, liftIO )
import Control.Monad.State.Class ( MonadState, get, modify )
import Control.Monad.State.Strict ( evalStateT )
import Control.Monad.Trans.Instances ()
import Data.List ( isPrefixOf, nub )
import Data.Maybe ( mapMaybe )
import Data.Semigroup ((<>))
import Data.Text ( Text )
import Data.Void (Void)
import Dhall.Context (Context)
import Dhall.Import (hashExpressionToCode)
import Dhall.Parser (Parser(..))
import Dhall.Src (Src)
import Dhall.Pretty (CharacterSet(..))
import System.Console.Haskeline (Interrupt(..))
import System.Console.Haskeline.Completion ( Completion, simpleCompletion )
import System.Directory ( getDirectoryContents )
import System.Environment ( getEnvironment )
import qualified Control.Monad.Fail as Fail
import qualified Control.Monad.Trans.State.Strict as State
import qualified Data.HashSet
import qualified Data.Text as Text
import qualified Data.Text.IO as Text.IO
import qualified Data.Text.Prettyprint.Doc as Pretty
import qualified Data.Text.Prettyprint.Doc.Render.Terminal as Pretty ( renderIO )
import qualified Dhall
import qualified Dhall.Context
import qualified Dhall.Core
import qualified Dhall.Core as Dhall ( Var(V), Expr, normalize )
import qualified Dhall.Parser.Token as Parser.Token
import qualified Dhall.Pretty
import qualified Dhall.Pretty.Internal
import qualified Dhall.Core as Expr ( Expr(..) )
import qualified Dhall.Import as Dhall
import qualified Dhall.Map as Map
import qualified Dhall.Parser as Dhall
import qualified Dhall.TypeCheck as Dhall
import qualified Dhall.Version as Meta
import qualified System.Console.ANSI
import qualified System.Console.Haskeline.Completion as Haskeline
import qualified System.Console.Haskeline.MonadException as Haskeline
import qualified System.Console.Repline as Repline
import qualified System.IO
import qualified Text.Megaparsec as Megaparsec
type Repl = Repline.HaskelineT (State.StateT Env IO)
repl :: CharacterSet -> Bool -> IO ()
repl characterSet explain =
if explain then Dhall.detailed io else io
where
io =
evalStateT
( Repline.evalRepl
( pure $ turnstile ++ " " )
( dontCrash . eval )
options
( Just optionsPrefix )
completer
greeter
)
(emptyEnv { characterSet, explain })
turnstile =
case characterSet of
Unicode -> "⊢"
ASCII -> "|-"
data Env = Env
{ envBindings :: Dhall.Context.Context Binding
, envIt :: Maybe Binding
, explain :: Bool
, characterSet :: CharacterSet
, outputHandle :: Maybe System.IO.Handle
}
emptyEnv :: Env
emptyEnv =
Env
{ envBindings = Dhall.Context.empty
, envIt = Nothing
, explain = False
, characterSet = Unicode
, outputHandle = Just System.IO.stdout
}
data Binding = Binding
{ bindingExpr :: Dhall.Expr Dhall.Src Void
, bindingType :: Dhall.Expr Dhall.Src Void
}
envToContext :: Env -> Dhall.Context.Context Binding
envToContext Env{ envBindings, envIt } =
case envIt of
Nothing ->
envBindings
Just it ->
Dhall.Context.insert "it" it envBindings
parseAndLoad
:: MonadIO m => String -> m ( Dhall.Expr Dhall.Src Void)
parseAndLoad src = do
parsed <-
case Dhall.exprFromText "(stdin)" ( Text.pack src ) of
Left e ->
liftIO ( throwIO e )
Right a ->
return a
let status = Dhall.emptyStatus "."
liftIO ( State.evalStateT (Dhall.loadWith parsed) status )
eval :: ( MonadIO m, MonadState Env m ) => String -> m ()
eval src = do
loaded <-
parseAndLoad src
exprType <-
typeCheck loaded
expr <-
normalize loaded
modify ( \e -> e { envIt = Just ( Binding expr exprType ) } )
output expr
typeOf :: ( MonadFail m, MonadIO m, MonadState Env m ) => [String] -> m ()
typeOf [] = Fail.fail ":type requires an argument to check the type of"
typeOf srcs = do
loaded <-
parseAndLoad ( unwords srcs )
exprType <-
typeCheck loaded
output exprType
applyContext
:: Context Binding
-> Dhall.Expr Dhall.Src Void
-> Dhall.Expr Dhall.Src Void
applyContext context expression =
Dhall.Core.wrapInLets bindings expression
where
definitions = reverse $ Dhall.Context.toList context
convertBinding (variable, Binding expr _) =
Dhall.Core.Binding Nothing variable Nothing Nothing Nothing expr
bindings = fmap convertBinding definitions
normalize
:: MonadState Env m
=> Dhall.Expr Dhall.Src Void -> m ( Dhall.Expr t Void )
normalize e = do
env <- get
return (Dhall.normalize (applyContext (envToContext env) e))
typeCheck
:: ( MonadIO m, MonadState Env m )
=> Dhall.Expr Dhall.Src Void -> m ( Dhall.Expr Dhall.Src Void )
typeCheck expression = do
env <- get
let wrap = if explain env then Dhall.detailed else id
case Dhall.typeOf (applyContext (envToContext env) expression) of
Left e -> liftIO ( wrap (throwIO e) )
Right a -> return a
separateEqual :: [String] -> [String]
separateEqual [] =
[]
separateEqual (str₀ : ('=' : str₁) : strs) =
str₀ : "=" : str₁ : strs
separateEqual (str : strs)
| (str₀, '=' : str₁) <- break (== '=') str =
str₀ : "=" : str₁ : strs
| otherwise =
str : strs
addBinding :: ( MonadFail m, MonadIO m, MonadState Env m ) => [String] -> m ()
addBinding (k : "=" : srcs) = do
varName <- case Megaparsec.parse (unParser Parser.Token.label) "(stdin)" (Text.pack k) of
Left _ -> Fail.fail "Invalid variable name"
Right varName -> return varName
loaded <- parseAndLoad ( unwords srcs )
t <- typeCheck loaded
expr <- normalize loaded
modify
( \e ->
e { envBindings =
Dhall.Context.insert
varName
Binding { bindingType = t, bindingExpr = expr }
( envBindings e )
}
)
output ( Expr.Annot ( Expr.Var ( Dhall.V varName 0 ) ) t )
addBinding _ = Fail.fail ":let should be of the form `:let x = y`"
clearBindings :: (MonadFail m, MonadState Env m) => [String] -> m ()
clearBindings [] = modify adapt
where
adapt (Env {..}) = Env { envBindings = Dhall.Context.empty, ..}
clearBindings _ = Fail.fail ":clear takes no arguments"
hashBinding :: ( MonadFail m, MonadIO m, MonadState Env m ) => [String] -> m ()
hashBinding [] = Fail.fail ":hash should be of the form `:hash expr"
hashBinding tokens = do
loadedExpression <- parseAndLoad (unwords tokens)
_ <- typeCheck loadedExpression
normalizedExpression <- normalize loadedExpression
writeOutputHandle $ hashExpressionToCode normalizedExpression
saveFilePrefix :: FilePath
saveFilePrefix = ".dhall-repl"
currentSaveFileIndex :: MonadIO m => m (Maybe Int)
currentSaveFileIndex = do
files <- liftIO $ getDirectoryContents "."
let parseIndex file
| saveFilePrefix `isPrefixOf` file
, '-':index <- drop (length saveFilePrefix) file
, [(x, "")] <- reads index
= Just x
| otherwise
= Nothing
pure $ case mapMaybe parseIndex files of
[] -> Nothing
xs -> Just $ maximum xs
currentSaveFile :: MonadIO m => m (Maybe FilePath)
currentSaveFile =
(fmap . fmap) (\i -> saveFilePrefix <> "-" <> show i) currentSaveFileIndex
nextSaveFile :: MonadIO m => m FilePath
nextSaveFile = do
mIndex <- currentSaveFileIndex
let nextIndex = maybe 0 succ mIndex
pure $ saveFilePrefix <> "-" <> show nextIndex
loadBinding
:: ( MonadFail m, MonadIO m, MonadState Env m, Haskeline.MonadException m )
=> [String] -> m ()
loadBinding [] = do
mFile <- currentSaveFile
case mFile of
Just file -> loadBinding [file]
Nothing ->
Fail.fail $ ":load couldn't find any `" <> saveFilePrefix <> "-*` files"
loadBinding [file] = do
replLines <- map words . lines <$> liftIO (readFile file)
let runCommand ((c:cmd):opts)
| c == optionsPrefix
, Just action <- lookup cmd options
= action opts
runCommand _ = Fail.fail $
":load expects `" <> file <> "` to contain one command per line"
Env { outputHandle } <- get
modify (\e -> e { outputHandle = Nothing })
forM_ replLines runCommand
modify (\e -> e { outputHandle = outputHandle })
writeOutputHandle $ "Loaded `" <> Text.pack file <> "`\n"
loadBinding _ = Fail.fail ":load should be of the form `:load` or `:load file`"
saveBinding :: ( MonadFail m, MonadIO m, MonadState Env m ) => [String] -> m ()
saveBinding [] = do
file <- nextSaveFile
saveBinding [file]
saveBinding [file] = do
env <- get
let bindings
= reverse
. (fmap . fmap) bindingExpr
. Dhall.Context.toList
$ envBindings env
handler handle =
State.evalStateT
(forM_ bindings $ \(name, expr) -> do
let doc = Dhall.Pretty.Internal.prettyLabel name
let label = Dhall.Pretty.Internal.docToStrictText doc
liftIO (System.IO.hPutStr handle $ ":let " <> Text.unpack label <> " = ")
outputWithoutSpacing expr)
(env { outputHandle = Just handle })
liftIO (System.IO.withFile file System.IO.WriteMode handler)
writeOutputHandle $ "Context saved to `" <> Text.pack file <> "`\n"
saveBinding (file : "=" : tokens) = do
loadedExpression <- parseAndLoad (unwords tokens)
_ <- typeCheck loadedExpression
normalizedExpression <- normalize loadedExpression
env <- get
let handler handle =
State.evalStateT
(output normalizedExpression)
(env { outputHandle = Just handle })
liftIO (System.IO.withFile file System.IO.WriteMode handler)
writeOutputHandle $ "Expression saved to `" <> Text.pack file <> "`\n"
saveBinding _ = Fail.fail ":save should be of the form `:save`, `:save file`, or `:save file = expr`"
setOption :: ( MonadIO m, MonadState Env m ) => [String] -> m ()
setOption [ "--explain" ] = do
modify (\e -> e { explain = True })
setOption _ = do
writeOutputHandle ":set should be of the form `:set <command line option>`"
unsetOption :: ( MonadIO m, MonadState Env m ) => [String] -> m ()
unsetOption [ "--explain" ] = do
modify (\e -> e { explain = False })
unsetOption _ = do
writeOutputHandle ":unset should be of the form `:unset <command line option>`"
cmdQuit :: ( MonadIO m, MonadState Env m ) => [String] -> m ()
cmdQuit _ = do
liftIO (putStrLn "Goodbye.")
liftIO (throwIO Interrupt)
help
:: ( Haskeline.MonadException m, MonadFail m, MonadIO m, MonadState Env m )
=> HelpOptions m -> [String] -> m ()
help hs _ = do
liftIO (putStrLn "Type any expression to normalize it or use one of the following commands:")
forM_ hs $ \h -> do
let name = helpOptionName h
syntax = helpOptionSyntax h
doc = helpOptionDoc h
liftIO (putStrLn (":" <> name <> " " <> syntax))
liftIO (putStrLn (" " <> doc))
optionsPrefix :: Char
optionsPrefix = ':'
data HelpOption m = HelpOption
{ helpOptionName :: String
, helpOptionSyntax :: String
, helpOptionDoc :: String
, helpOptionFunction :: Repline.Cmd m
}
type HelpOptions m = [HelpOption m]
helpOptions
:: ( Haskeline.MonadException m, MonadFail m, MonadIO m, MonadState Env m )
=> HelpOptions m
helpOptions =
[ HelpOption
"help"
""
"Print help text and describe options"
(dontCrash . help helpOptions)
, HelpOption
"type"
"EXPRESSION"
"Infer the type of an expression"
(dontCrash . typeOf)
, HelpOption
"hash"
"EXPRESSION"
"Hash the normalized value of an expression"
(dontCrash . hashBinding)
, HelpOption
"let"
"IDENTIFIER = EXPRESSION"
"Assign an expression to a variable"
(dontCrash . addBinding . separateEqual)
, HelpOption
"clear"
""
"Clear all bound variables"
(dontCrash . clearBindings)
, HelpOption
"load"
"[FILENAME]"
"Load bound variables from a file"
(dontCrash . loadBinding)
, HelpOption
"save"
"[FILENAME | FILENAME = EXPRESSION]"
"Save bound variables or a given expression to a file"
(dontCrash . saveBinding . separateEqual)
, HelpOption
"set"
"OPTION"
"Set an option. Currently supported: --explain"
(dontCrash . setOption)
, HelpOption
"unset"
"OPTION"
"Unset an option"
(dontCrash . unsetOption)
, HelpOption
"quit"
""
"Exit the REPL"
cmdQuit
]
options
:: ( Haskeline.MonadException m, MonadFail m, MonadIO m, MonadState Env m )
=> Repline.Options m
options = (\h -> (helpOptionName h, helpOptionFunction h)) <$> helpOptions
completer
:: (Monad m, MonadFail m, MonadIO m, MonadState Env m)
=> Repline.CompleterStyle m
completer =
Repline.Prefix
(Haskeline.completeWordWithPrev (Just '\\') separators completeFunc)
[]
where
separators :: String
separators = " \t[(,=+*&|}#?>:"
completeFunc
:: (Monad m, MonadFail m, MonadIO m, MonadState Env m)
=> String -> String -> m [Completion]
completeFunc reversedPrev word
| reversedPrev == ":"
= pure . listCompletion $ fst <$> (options :: Repline.Options Repl)
| reversedPrev == reverse ":load "
= Haskeline.listFiles word
| any (`isPrefixOf` word) [ "/", "./", "../", "~/" ]
= Haskeline.listFiles word
| reverse "env:" `isPrefixOf` reversedPrev
= listCompletion . fmap fst <$> liftIO getEnvironment
| var : subFields <- Text.split (== '.') (Text.pack word)
, not $ null subFields
= do
Env { envBindings } <- get
case Dhall.Context.lookup var 0 envBindings of
Nothing -> pure []
Just binding -> do
let candidates = algebraicComplete subFields (bindingExpr binding)
pure $ listCompletion (Text.unpack . (var <>) <$> candidates)
| otherwise
= do
Env { envBindings } <- get
let vars = map fst $ Dhall.Context.toList envBindings
reserved = Data.HashSet.toList Dhall.Core.reservedIdentifiers
pure . listCompletion . map Text.unpack . nub $ vars ++ reserved
where
listCompletion = map simpleCompletion . filter (word `isPrefixOf`)
algebraicComplete
:: [Text.Text] -> Dhall.Expr Dhall.Src Void -> [Text.Text]
algebraicComplete subFields expr =
let keys = fmap ("." <>) . Map.keys
withMap m =
case subFields of
[] -> keys m
[_] -> keys m
f:fs ->
case Map.lookup f m of
Nothing ->
[]
Just Nothing ->
keys m
Just (Just e) ->
fmap (("." <> f) <>) (algebraicComplete fs e)
in case expr of
Dhall.Core.RecordLit m -> withMap (fmap Just m)
Dhall.Core.Union m -> withMap m
_ -> []
greeter :: MonadIO m => m ()
greeter =
let version = Meta.dhallVersionString
message = "Welcome to the Dhall v" <> version <> " REPL! Type :help for more information."
in liftIO (putStrLn message)
dontCrash :: ( MonadIO m, Haskeline.MonadException m ) => m () -> m ()
dontCrash m =
Haskeline.catch
m
( \ e@SomeException{} -> liftIO ( putStrLn ( displayException e ) ) )
writeOutputHandle :: (MonadIO m, MonadState Env m) => Text -> m ()
writeOutputHandle txt = do
Env { outputHandle } <- get
case outputHandle of
Just handle -> liftIO $ Text.IO.hPutStrLn handle txt
Nothing -> pure ()
output
:: (Pretty.Pretty a, MonadState Env m, MonadIO m)
=> Dhall.Expr Src a -> m ()
output expr = do
writeOutputHandle ""
outputWithoutSpacing expr
writeOutputHandle ""
outputWithoutSpacing
:: (Pretty.Pretty a, MonadState Env m, MonadIO m)
=> Dhall.Expr Src a -> m ()
outputWithoutSpacing expr = do
Env { characterSet, outputHandle } <- get
case outputHandle of
Nothing -> pure ()
Just handle -> do
let stream = Dhall.Pretty.layout (Dhall.Pretty.prettyCharacterSet characterSet expr)
supportsANSI <- liftIO (System.Console.ANSI.hSupportsANSI handle)
let ansiStream =
if supportsANSI
then fmap Dhall.Pretty.annToAnsiStyle stream
else Pretty.unAnnotateS stream
liftIO (Pretty.renderIO handle ansiStream)
liftIO (System.IO.hPutStrLn handle "")