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juvix/app/CommonOptions.hs

294 lines
8.9 KiB
Haskell

-- | Contains common options reused in several commands.
module CommonOptions
( module CommonOptions,
module Juvix.Prelude,
module Options.Applicative,
)
where
import Control.Exception qualified as GHC
import Data.List.NonEmpty qualified as NonEmpty
import Juvix.Compiler.Core.Data.TransformationId.Parser qualified as Core
import Juvix.Compiler.Pipeline.EntryPoint
import Juvix.Compiler.Reg.Data.TransformationId.Parser qualified as Reg
import Juvix.Compiler.Tree.Data.TransformationId.Parser qualified as Tree
import Juvix.Data.Field
import Juvix.Prelude
import Juvix.Prelude as Juvix
import Options.Applicative
import System.Process
import Text.Read (readMaybe)
import Prelude (show)
-- | Paths that are input are used to detect the root of the project.
data AppPath f = AppPath
{ _pathPath :: Prepath f,
_pathIsInput :: Bool
}
deriving stock (Data, Eq)
makeLenses ''AppPath
instance Show (AppPath f) where
show = Prelude.show . (^. pathPath)
parseInputFiles :: NonEmpty FileExt -> Parser (AppPath File)
parseInputFiles exts' = do
let exts = NonEmpty.toList exts'
mvars = intercalate "|" (map toMetavar exts)
dotExts = intercalate ", " (map Prelude.show exts)
helpMsg = "Path to a " <> dotExts <> " file"
completers = foldMap (completer . extCompleter) exts
_pathPath <-
argument
somePreFileOpt
( metavar mvars
<> help helpMsg
<> completers
<> action "file"
)
pure AppPath {_pathIsInput = True, ..}
parseInputFile :: FileExt -> Parser (AppPath File)
parseInputFile = parseInputFiles . NonEmpty.singleton
parseProgramInputFile :: Parser (AppPath File)
parseProgramInputFile = do
_pathPath <-
option
somePreFileOpt
( long "program_input"
<> metavar "JSON_FILE"
<> help "Path to program input json file"
<> completer (extCompleter FileExtJson)
<> action "file"
)
pure AppPath {_pathIsInput = True, ..}
parseGenericInputFile :: Parser (AppPath File)
parseGenericInputFile = do
_pathPath <-
argument
somePreFileOpt
( metavar "INPUT_FILE"
<> help "Path to input file"
<> action "file"
)
pure AppPath {_pathIsInput = True, ..}
parseGenericOutputFile :: Parser (AppPath File)
parseGenericOutputFile = do
_pathPath <-
option
somePreFileOpt
( long "output"
<> short 'o'
<> metavar "OUTPUT_FILE"
<> help "Path to output file"
<> action "file"
)
pure AppPath {_pathIsInput = False, ..}
parseGenericOutputDir :: Mod OptionFields (Prepath Dir) -> Parser (AppPath Dir)
parseGenericOutputDir m = do
_pathPath <-
option
somePreDirOpt
( long "output-dir"
<> metavar "OUTPUT_DIR"
<> help "Path to output directory"
<> action "directory"
<> m
)
pure AppPath {_pathIsInput = False, ..}
somePreDirOpt :: ReadM (Prepath Dir)
somePreDirOpt = mkPrepath <$> str
somePreFileOpt :: ReadM (Prepath File)
somePreFileOpt = mkPrepath <$> str
someFileOpt :: ReadM (SomeBase File)
someFileOpt = eitherReader aux
where
aux :: String -> Either String (SomeBase File)
aux s = maybe (Left $ s <> " is not a file path") Right (parseSomeFile s)
someDirOpt :: ReadM (SomeBase Dir)
someDirOpt = eitherReader aux
where
aux :: String -> Either String (SomeBase Dir)
aux s = maybe (Left $ s <> " is not a directory path") Right (parseSomeDir s)
naturalNumberOpt :: ReadM Word
naturalNumberOpt = eitherReader aux
where
aux :: String -> Either String Word
aux s = maybe (Left $ s <> " is not a nonnegative number") Right (readMaybe s :: Maybe Word)
fieldSizeOpt :: ReadM (Maybe Natural)
fieldSizeOpt = eitherReader aux
where
aux :: String -> Either String (Maybe Natural)
aux s = case s of
"cairo" -> Right $ Just cairoFieldSize
"small" -> Right $ Just smallFieldSize
_ ->
mapRight Just
. either Left checkAllowed
$ maybe (Left $ s <> " is not a valid field size") Right (readMaybe s :: Maybe Natural)
checkAllowed :: Natural -> Either String Natural
checkAllowed n
| n `elem` allowedFieldSizes = Right n
| otherwise = Left $ Prelude.show n <> " is not a recognized field size"
enumReader :: forall a. (Bounded a, Enum a, Show a) => Proxy a -> ReadM a
enumReader _ = eitherReader $ \val ->
case lookup val assocs of
Just x -> return x
Nothing -> Left ("Invalid value " <> val <> ". Valid values are: " <> (Juvix.show (allElements @a)))
where
assocs :: [(String, a)]
assocs = [(Prelude.show x, x) | x <- allElements @a]
enumCompleter :: forall a. (Bounded a, Enum a, Show a) => Proxy a -> Completer
enumCompleter _ = listCompleter [Juvix.show e | e <- allElements @a]
extCompleter :: FileExt -> Completer
extCompleter ext = mkCompleter $ \word -> do
let cmd = unwords ["compgen", "-o", "plusdirs", "-f", "-X", "!*" <> Prelude.show ext, "--", requote word]
result <- GHC.try @GHC.SomeException $ readProcess "bash" ["-c", cmd] ""
return . lines . fromRight [] $ result
requote :: String -> String
requote s =
let -- Bash doesn't appear to allow "mixed" escaping
-- in bash completions. So we don't have to really
-- worry about people swapping between strong and
-- weak quotes.
unescaped =
case s of
-- It's already strongly quoted, so we
-- can use it mostly as is, but we must
-- ensure it's closed off at the end and
-- there's no single quotes in the
-- middle which might confuse bash.
('\'' : rs) -> unescapeN rs
-- We're weakly quoted.
('"' : rs) -> unescapeD rs
-- We're not quoted at all.
-- We need to unescape some characters like
-- spaces and quotation marks.
elsewise -> unescapeU elsewise
in strong unescaped
where
strong :: String -> String
strong ss = '\'' : foldr go "'" ss
where
-- If there's a single quote inside the
-- command: exit from the strong quote and
-- emit it the quote escaped, then resume.
go '\'' t = "'\\''" ++ t
go h t = h : t
-- Unescape a strongly quoted string
-- We have two recursive functions, as we
-- can enter and exit the strong escaping.
unescapeN = goX
where
goX ('\'' : xs) = goN xs
goX (x : xs) = x : goX xs
goX [] = []
goN ('\\' : '\'' : xs) = '\'' : goN xs
goN ('\'' : xs) = goX xs
goN (x : xs) = x : goN xs
goN [] = []
-- Unescape an unquoted string
unescapeU = goX
where
goX [] = []
goX ('\\' : x : xs) = x : goX xs
goX (x : xs) = x : goX xs
-- Unescape a weakly quoted string
unescapeD = goX
where
-- Reached an escape character
goX ('\\' : x : xs)
-- If it's true escapable, strip the
-- slashes, as we're going to strong
-- escape instead.
| x `elem` ("$`\"\\\n" :: String) = x : goX xs
| otherwise = '\\' : x : goX xs
-- We've ended quoted section, so we
-- don't recurse on goX, it's done.
goX ('"' : xs) =
xs
-- Not done, but not a special character
-- just continue the fold.
goX (x : xs) =
x : goX xs
goX [] =
[]
optDeBruijn :: Parser Bool
optDeBruijn =
switch
( long "show-de-bruijn"
<> help "Show variable de Bruijn indices"
)
optIdentIds :: Parser Bool
optIdentIds =
switch
( long "show-ident-ids"
<> help "Show identifier IDs"
)
optArgsNum :: Parser Bool
optArgsNum =
switch
( long "show-args-num"
<> help "Show identifier arguments number"
)
optNoDisambiguate :: Parser Bool
optNoDisambiguate =
switch
( long "no-disambiguate"
<> help "Don't disambiguate the names of bound variables"
)
optTransformationIds :: forall a. (Text -> Either Text [a]) -> (String -> [String]) -> Parser [a]
optTransformationIds parseIds completions =
option
(eitherReader parseTransf)
( long "transforms"
<> short 't'
<> value []
<> metavar "[Transform]"
<> completer (mkCompleter (return . completions))
<> help "hint: use autocomplete"
)
where
parseTransf :: String -> Either String [a]
parseTransf = mapLeft unpack . parseIds . pack
optCoreTransformationIds :: Parser [Core.TransformationId]
optCoreTransformationIds = optTransformationIds Core.parseTransformations Core.completionsString
optTreeTransformationIds :: Parser [Tree.TransformationId]
optTreeTransformationIds = optTransformationIds Tree.parseTransformations Tree.completionsString
optRegTransformationIds :: Parser [Reg.TransformationId]
optRegTransformationIds = optTransformationIds Reg.parseTransformations Reg.completionsString
class EntryPointOptions a where
applyOptions :: a -> EntryPoint -> EntryPoint
instance EntryPointOptions () where
applyOptions () = id