{-# LANGUAGE OverloadedStrings #-} -- |Provides Commands for REPLs. Commands are there to provide high-level -- handling of user input and to offer functionality in a standard, composable -- way. -- -- Whereas an 'Asker' is good for getting a single value, a 'Command' can get -- multiple inputs and be composed with other commands. -- -- Use cases: -- -- 1. Getting specific numbers of arguments or optional arguments from the user. E.g. -- -- @ -- \{\-\# LANGUAGE OverloadedStrings \#\-\} -- -- import Data.Text (unpack) -- -- asker :: Asker' IO String -- asker = Asker "Enter argument: " (Right . unpack) (return . Right) -- -- cmd = makeCommand3 "command" ("command"==) "description" True [asker,asker,asker] (\t x y z -> putStrLn "yay!") -- @ -- -- This is a command with 3 arguments. The user can enter the arguments -- in the same line or give them one by one: -- -- >>> command arg1 arg2 arg3 -- yay! -- -- >>> command -- Enter argument: -- >>> arg1 -- Enter argument: -- >>> arg2 -- Enter argument: -- >>> arg3 -- yay! -- -- Had we set the bool above to @False@, only the first form would have been allowed. -- -- Arguments can contain whitespace if they are surrounded with quotes: -- -- >>> command "arg1 with spaces" arg2 arg3 -- yay! -- -- Optional arguments are also possible: -- -- @ -- cmd = makeCommandN "command" ("command"==) "description" True [asker] [optAsker] -- (\t (x:xs) -> do putStrLn ("Required argument: " ++ x) -- if null xs then putStrLn "No optional argument." -- else putStrLn ("Optional argument: " ++ head xs)) -- @ -- -- >>> command arg1 -- Required argument: arg1 -- -- >>> command arg1 arg2 -- Required argument: arg1 -- Optional argument: arg2 -- -- 2. Creating command hierarchies, e.g. -- -- @ -- commit = makeCommand 1 "commit" ... -- sendEmail = makeCommand "send-email" -- sendTweet = makeCommand "send-tweet" -- -- commit' = subcommand commit [sendEmail, sendTweet] -- -- main = makeREPLSimple [commit'] -- @ -- -- >>> myVersionControl commit "my first commit" send-email -- -- Here, @commit@ is the root command and @sendEmail@, @sendTweet@ its two -- possible sub-commands. The sub-commands get executed after their root command. -- -- 3. Making a REPL out of some commands. -- -- As above, one can use 'makeREPL' or 'makeREPLSimple' to create a -- REPL out of a list of commands and use it as the @main@ function instead -- of going through the chore of writing a loop it by hand. module System.REPL.Command ( -- *Command class Command(..), oneOf, subcommand, -- **Running commands -- |You can use 'runPartialCommand' to run a command as well, but one generally doesn't want left-over input. runCommand, runSingleCommand, runSingleCommandIf, -- **Making REPLs makeREPL, makeREPLSimple, -- *Exceptions -- |These are the exceptions that can be thrown during the course of command -- invocation (in addition to those that you throw yourself, of course). -- -- SomeCommandError is an abstract exception and all others are its concrete -- subclasses. See the example in "Control.Exception" for details. SomeREPLError(..), SomeCommandError(..), MalformedParamsError(..), TooFewParamsError(..), TooManyParamsError(..), -- * Dealing with arguments readArgs, getName, defCommandTest, quoteArg, -- * Helpers summarizeCommands, -- * Making commands -- |Ignore the "a0"-type parameters in the Askers. makeCommand, makeCommand1, makeCommand2, makeCommand3, makeCommand4, makeCommand5, makeCommand6, makeCommand7, makeCommand8, makeCommandN, -- * Example commands. -- |A few commands for convenience. noOpCmd, defExitCmd, defHelpCmd, defErrorHandler, ) where import Prelude hiding (putStrLn, putStr, (++), length, replicate) import qualified Prelude as P import Control.Monad import Control.Monad.Catch import Control.Monad.IO.Class (MonadIO(liftIO)) import Control.Monad.Loops (unfoldrM, iterateUntil) import Data.Char (isSpace) import qualified Data.Functor.Bind as Bi import Data.Functor.Monadic import qualified Data.List as LU import qualified Data.List.Safe as L import Data.ListLike(ListLike(..)) import Data.ListLike.IO (ListLikeIO(..)) import Data.Maybe (fromJust, isJust, fromMaybe) import Data.Ord import qualified Data.Text as T import System.REPL.Ask import System.REPL.Types import qualified System.REPL.Prompt as PR import qualified Text.Parsec as P import qualified Text.Parsec.Language as P import qualified Text.Parsec.Token as P -- alias for Data.ListLike.append (++) :: (ListLike full item) => full -> full -> full (++) = append -- |Runs the command with the input text as parameter, discarding any left-over -- input. The command test is disregarded. -- -- Can throw: -- -- * 'MalformedParamsError' runCommand :: (MonadThrow m) => Command m T.Text a -> T.Text -> m a runCommand c = fmap fst . runPartialCommand c <=< readArgs -- |Runs the command with the input text as parameter. -- The command test is disregarded. -- -- Can throw: -- -- * 'MalformedParamsError' -- * 'TooManyParamsError', if any input is left unconsumed. -- -- __Note:__ 'TooManyParamsError' will only be thrown after the command's execution -- is attempted. This is because of the subcommand mechanism, which prevents the -- static determination of the number of required arguments. runSingleCommand :: (MonadThrow m) => Command m T.Text a -> T.Text -> m a runSingleCommand c t = fromJust <$> runSingleCommandIf (c{commandTest = const True}) t -- |Runs the command with the input text as parameter. If the input doesn't -- pass the command test, @Nothing@ is returned. -- -- Can throw: -- -- * 'MalformedParamsError' -- * 'TooManyParamsError', if any input is left unconsumed. runSingleCommandIf :: MonadThrow m => Command m T.Text a -> T.Text -> m (Maybe a) runSingleCommandIf c t = do t' <- readArgs t if L.null t' || not (commandTest c $ LU.head t') then return Nothing else do (res, output) <- runPartialCommand c t' let act = length t' mx = act - length output when (not . L.null $ output) (throwM $ TooManyParamsError mx act) return $ Just res -- |Takes a list @xs@ and executes the first command in a list whose -- 'commandTest' matches the input. -- -- Note that the resultant command @c@'s' 'runPartialCommand' should only be -- executed with an input @t@ if 'commandTest c t' == True', where @t'@ is either -- @head (readArgs t)@ or @mempty@ if @t@ is empty. -- Otherwise, the result is undefined. oneOf :: Monoid i => T.Text -- ^Command name. -> T.Text -- ^Command description. -> [Command m i a] -> Command m i a oneOf n d xs = Command n test d cmd where test t = L.any (($ t) . commandTest) xs -- because of @test@, the list is guaranteed to be non-empty cmd input = (`runPartialCommand` input) . LU.head . L.dropWhile (not . ($ fromMaybe mempty (L.head input)) . commandTest) $ xs -- |Adds a list of possible subcommands after a command (that should leave -- some input unconsumed). Ignoring all the required parameters for a moment, -- -- > subcommand x xs = x >>- oneOf xs subcommand :: (Monad m, Monoid i) => Command m i a -- ^The root command. -> [a -> Command m i b] -- ^The subcommands that may follow it. This list must be finite. -> Command m i b subcommand x xs = x Bi.>>- \y -> oneOf "" "" (L.map ($ y) xs) -- |Splits and trims the input of a command. If the input cannot be parsed, a -- 'MalformedParamsError' exception is thrown. -- -- === Format -- -- Any non-whitespace sequence of characters is interpreted as -- one argument, unless double quotes (") are used, in which case -- they demarcate an argument. Each argument is parsed as a haskell -- string literal (quote-less arguments have quotes inserted around them). -- -- Arguments are parsed using parsec's @stringLiteral@ (haskell-style), -- meaning that escape sequences and unicode characters are handled automatically. readArgs :: MonadThrow m => T.Text -> m [T.Text] readArgs = either err return . P.parse parser "" . T.unpack where err = throwM . MalformedParamsError . T.pack . show -- Main parser. parser = P.many (stringLiteral P.<|> unquotedLiteral) stringLiteral = P.stringLiteral P.haskell >$> T.pack -- The parser for string literals without quotes around them. -- -- First we read a bunch of characters and then we pass the result, -- wrapped in quotes, to the stringLiteral parser AGAIN. -- This might seem strange, but this way, escape sequences are correctly -- handled. The alternative would have been to copy the (private) logic -- found in Text.Parsec.Token's source. unquotedLiteral = do raw <- P.many1 $ P.satisfy $ not . isSpace P.eof P.<|> (P.many1 P.space >> return ()) let lit = stringLiteral res = P.parse lit "" ("\"" ++ raw ++ "\"") case res of (Right r) -> return r (Left l) -> fail (show l) -- |Gets the first part of a command string. Returns Nothing -- if the string is empty or if 'readArgs' throws a 'MalformedParamsError'. getName :: T.Text -> Maybe T.Text getName = readArgs >=> L.head -- |The "default" command test for making commands. -- This function uses 'getName' to extract the first part of the user input, -- stripping whitespace and also checking whether the entire input is well-formed. defCommandTest :: [T.Text] -- ^Command names, including permissible aliases. -> T.Text -- ^User input. -> Bool defCommandTest xs = maybe False (`L.elem` xs) . getName -- |Surrounds an argument in quote marks, if necessary. -- This is useful when arguments were extracted via 'readArgs', which deletes -- quote marks. Quotes are placed around the input iff it is empty or contains -- whitespace. quoteArg :: T.Text -> T.Text quoteArg x = if T.null x || T.any isSpace x then '\"' `T.cons` x `T.snoc` '\"' else x -- |Creates a command without parameters. makeCommand :: (MonadIO m, MonadCatch m, Monoid i) => T.Text -- ^Command name. -> (i -> Bool) -- ^Command test. -> T.Text -- ^Command description. -> (i -> m z) -- ^Command function. It will receive the first part of the input -- (customarily the command name), or the empty string if the -- input only contained whitespace. -> Command m i z makeCommand n t d f = Command n t d f' where f' args = do res <- f $ fromMaybe mempty $ L.head args return (res, L.drop 1 args) -- |Creates a command with one parameter. makeCommand1 :: (MonadIO m, MonadCatch m) => T.Text -- ^Command name. -> (T.Text -> Bool) -- ^Command test. -> T.Text -- ^Command description -> Bool -- ^Whether the command can ask for input. -- If True, running the command will run the Asker's -- IO action if not enough input is provided. If False -- a 'TooFewParamsError' will be thrown. -> Asker m a0 a -- ^'Asker' for the first parameter. -> (T.Text -> a -> m z) -- ^Command function. -> Command m T.Text z makeCommand1 n t d canAsk p1 f = Command n t d f' where mx = 1 f' args = do let x0 = fromMaybe mempty $ L.head args when (not canAsk) $ checkParamNum args mx x1 <- askC p1 args 1 res <- f x0 x1 return (res, L.drop (mx+1) args) -- |Creates a command with two parameters. makeCommand2 :: (MonadIO m, MonadCatch m) => T.Text -- ^Command name. -> (T.Text -> Bool) -- ^Command test. -> T.Text -- ^Command description -> Bool -- ^Whether the command can ask for input. -> Asker m a0 a -- ^'Asker' for the first parameter. -> Asker m b0 b -- ^'Asker' for the second parameter. -> (T.Text -> a -> b -> m z) -- ^Command function. -> Command m T.Text z makeCommand2 n t d canAsk p1 p2 f = Command n t d f' where mx = 2 f' args = do let x0 = fromMaybe mempty $ L.head args when (not canAsk) $ checkParamNum args mx x1 <- askC p1 args 1 x2 <- askC p2 args 2 res <- f x0 x1 x2 return (res, L.drop (mx+1) args) -- |Creates a command with three parameters. makeCommand3 :: (MonadIO m, MonadCatch m) => T.Text -- ^Command name. -> (T.Text -> Bool) -- ^Command test. -> T.Text -- ^Command description -> Bool -- ^Whether the command can ask for input. -> Asker m a0 a -- ^'Asker' for the first parameter. -> Asker m b0 b -- ^'Asker' for the second parameter. -> Asker m c0 c -- ^'Asker' for the third parameter. -> (T.Text -> a -> b -> c -> m z) -- ^Command function. -> Command m T.Text z makeCommand3 n t d canAsk p1 p2 p3 f = Command n t d f' where mx = 3 f' args = do let x0 = fromMaybe "" $ L.head args when (not canAsk) $ checkParamNum args mx x1 <- askC p1 args 1 x2 <- askC p2 args 2 x3 <- askC p3 args 3 res <- f x0 x1 x2 x3 return (res, L.drop (mx+1) args) -- |Creates a command with four parameters. makeCommand4 :: (MonadIO m, MonadCatch m) => T.Text -- ^Command name. -> (T.Text -> Bool) -- ^Command test. -> T.Text -- ^Command description -> Bool -- ^Whether the command can ask for input. -> Asker m a0 a -- ^'Asker' for the first parameter. -> Asker m b0 b -- ^'Asker' for the second parameter. -> Asker m c0 c -- ^'Asker' for the third parameter. -> Asker m d0 d -- ^'Asker' for the fourth parameter. -> (T.Text -> a -> b -> c -> d -> m z) -- ^Command function. -> Command m T.Text z makeCommand4 n t d canAsk p1 p2 p3 p4 f = Command n t d f' where mx = 4 f' args = do let x0 = fromMaybe "" $ L.head args when (not canAsk) $ checkParamNum args mx x1 <- askC p1 args 1 x2 <- askC p2 args 2 x3 <- askC p3 args 3 x4 <- askC p4 args 4 res <- f x0 x1 x2 x3 x4 return (res, L.drop (mx+1) args) -- |Creates a command with five parameters. makeCommand5 :: (MonadIO m, MonadCatch m) => T.Text -- ^Command name. -> (T.Text -> Bool) -- ^Command test. -> T.Text -- ^Command description -> Bool -- ^Whether the command can ask for input. -> Asker m a0 a -- ^'Asker' for the first parameter. -> Asker m b0 b -- ^'Asker' for the second parameter. -> Asker m c0 c -- ^'Asker' for the third parameter. -> Asker m d0 d -- ^'Asker' for the fourth parameter. -> Asker m e0 e -- ^'Asker' for the fifth parameter. -> (T.Text -> a -> b -> c -> d -> e -> m z) -- ^Command function. -> Command m T.Text z makeCommand5 n t d canAsk p1 p2 p3 p4 p5 f = Command n t d f' where mx = 5 f' args = do let x0 = fromMaybe "" $ L.head args when (not canAsk) $ checkParamNum args mx x1 <- askC p1 args 1 x2 <- askC p2 args 2 x3 <- askC p3 args 3 x4 <- askC p4 args 4 x5 <- askC p5 args 5 res <- f x0 x1 x2 x3 x4 x5 return (res, L.drop (mx+1) args) -- |Creates a command with six parameters. makeCommand6 :: (MonadIO m, MonadCatch m) => T.Text -- ^Command name. -> (T.Text -> Bool) -- ^Command test. -> T.Text -- ^Command description -> Bool -- ^Whether the command can ask for input. -> Asker m a0 a -- ^'Asker' for the first parameter. -> Asker m b0 b -- ^'Asker' for the second parameter. -> Asker m c0 c -- ^'Asker' for the third parameter. -> Asker m d0 d -- ^'Asker' for the fourth parameter. -> Asker m e0 e -- ^'Asker' for the fifth parameter. -> Asker m f0 f -- ^'Asker' for the sixth parameter. -> (T.Text -> a -> b -> c -> d -> e -> f -> m z) -- ^Command function. -> Command m T.Text z makeCommand6 n t d canAsk p1 p2 p3 p4 p5 p6 f = Command n t d f' where mx = 6 f' args = do let x0 = fromMaybe mempty $ L.head args when (not canAsk) $ checkParamNum args mx x1 <- askC p1 args 1 x2 <- askC p2 args 2 x3 <- askC p3 args 3 x4 <- askC p4 args 4 x5 <- askC p5 args 5 x6 <- askC p6 args 6 res <- f x0 x1 x2 x3 x4 x5 x6 return (res, L.drop (mx+1) args) -- |Creates a command with seven parameters. makeCommand7 :: (MonadIO m, MonadCatch m) => T.Text -- ^Command name. -> (T.Text -> Bool) -- ^Command test. -> T.Text -- ^Command description -> Bool -- ^Whether the command can ask for input. -> Asker m a0 a -- ^'Asker' for the first parameter. -> Asker m b0 b -- ^'Asker' for the second parameter. -> Asker m c0 c -- ^'Asker' for the third parameter. -> Asker m d0 d -- ^'Asker' for the fourth parameter. -> Asker m e0 e -- ^'Asker' for the fifth parameter. -> Asker m f0 f -- ^'Asker' for the sixth parameter. -> Asker m g0 g -- ^'Asker' for the seventh parameter. -> (T.Text -> a -> b -> c -> d -> e -> f -> g -> m z) -- ^Command function. -> Command m T.Text z makeCommand7 n t d canAsk p1 p2 p3 p4 p5 p6 p7 f = Command n t d f' where mx = 7 f' args = do let x0 = fromMaybe "" $ L.head args when (not canAsk) $ checkParamNum args mx x1 <- askC p1 args 1 x2 <- askC p2 args 2 x3 <- askC p3 args 3 x4 <- askC p4 args 4 x5 <- askC p5 args 5 x6 <- askC p6 args 6 x7 <- askC p7 args 7 res <- f x0 x1 x2 x3 x4 x5 x6 x7 return (res, L.drop (mx+1) args) -- |Creates a command with eight parameters. makeCommand8 :: (MonadIO m, MonadCatch m) => T.Text -- ^Command name. -> (T.Text -> Bool) -- ^Command test. -> T.Text -- ^Command description -> Bool -- ^Whether the command can ask for input. -> Asker m a0 a -- ^'Asker' for the first parameter. -> Asker m b0 b -- ^'Asker' for the second parameter. -> Asker m c0 c -- ^'Asker' for the third parameter. -> Asker m d0 d -- ^'Asker' for the fourth parameter. -> Asker m e0 e -- ^'Asker' for the fifth parameter. -> Asker m f0 f -- ^'Asker' for the sixth parameter. -> Asker m g0 g -- ^'Asker' for the seventh parameter. -> Asker m h0 h -- ^'Asker' for the eighth parameter. -> (T.Text -> a -> b -> c -> d -> e -> f -> g -> h -> m z) -- ^Command function. -> Command m T.Text z makeCommand8 n t d canAsk p1 p2 p3 p4 p5 p6 p7 p8 f = Command n t d f' where mx = 8 f' args = do let x0 = fromMaybe "" $ L.head args when (not canAsk) $ checkParamNum args mx x1 <- askC p1 args 1 x2 <- askC p2 args 2 x3 <- askC p3 args 3 x4 <- askC p4 args 4 x5 <- askC p5 args 5 x6 <- askC p6 args 6 x7 <- askC p7 args 7 x8 <- askC p8 args 8 res <- f x0 x1 x2 x3 x4 x5 x6 x7 x8 return (res, L.drop (mx+1) args) -- |Creates a command with a list of parameters. -- The first list @necc@ of 'Asker's indicates the necessary parameters; -- the user must at least provide this many. The second list @opt@ contains -- 'Asker's for additional, optional parameters, and may be infinite. -- If the number of passed parameters exceeds -- @length necc + length opt@, or if any 'Asker' fails, -- the command returns an 'AskFailure'. makeCommandN :: (MonadIO m, MonadCatch m) => T.Text -- ^Command name. -> (T.Text -> Bool) -- ^Command test. -> T.Text -- ^Command description -> Bool -- ^Whether the command can ask for input. This only -- affects the necessary parameters. -> [Asker m a0 a] -- ^'Asker's for the necessary parameters. -> [Asker m b0 a] -- ^'Asker's for the optional parameters. -> (T.Text -> [a] -> m z) -> Command m T.Text z makeCommandN n t d canAsk necc opt f = Command n t d f' where min = P.length necc f' args = do when (not canAsk) $ checkParamNum args min neccParams <- unfoldrM (comb args) (necc,1, Nothing) let x0 = maybe "" id (L.head args) from = L.length neccParams + 1 to = Just $ L.length args - 1 optParams <- unfoldrM (comb args) (opt, from, to) let params = neccParams L.++ optParams res <- f x0 params return (res, L.drop (length params + 1) args) -- |Goes through the list of askers until all are done or until the first -- AskFailure occurs. The results are of type @Either (AskFailure e) z@, -- the state is of type @([Asker m a e], Int)@. The second component @i@ -- indicates that the @i@th parameter is to be read. comb _ ([],_,_) = return Nothing comb inp (x:xs, i, j) = if isJust j && fromJust j < i then return Nothing else askC x inp i >$> args xs >$> Just where args ys y = (y,(ys,i+1,j)) -- |Prints out a list of command names, with their descriptions. summarizeCommands :: MonadIO m => [Command m2 i z] -> m () summarizeCommands [] = return () summarizeCommands xs = liftIO $ mapM_ (\c -> prName c >> prDesc c) xs where maxLen :: Int maxLen = fromIntegral $ T.length $ commandName $ fromJust $ L.minimumBy (comparing $ (* (-1)) . T.length . commandName) xs prName = putStr . padRight ' ' maxLen . commandName prDesc = putStrLn . (" - " ++) . commandDesc padRight c i cs = cs ++ replicate (i - length cs) c -- |Throws a 'TooFewParamsError' if the length of the list is smaller than the second argument. checkParamNum :: MonadThrow m => [a] -> Int -> m () checkParamNum xs need = if have < need then throwM $ TooFewParamsError need have else return () where have = length xs - 1 -- |Wrapper for 'ask'. askC :: (MonadIO m, MonadCatch m) => Asker m a0 a -> [T.Text] -> Int -> m a askC f xs i = ask f (xs L.!! i) --askC False f xs j i = maybe (throwM $ TooFewParamsError j (length xs - 1)) (ask f . Just) (xs L.!! i) -- |Runs a REPL based on a set of commands. -- For a line of input, the commands are tried in following order: -- -- * the "exit" command, -- * all regular commands, and then -- * the "unknown" command. makeREPL :: (MonadIO m, MonadCatch m) => [Command m T.Text a] -- ^The regular commands. -> Command m T.Text b -- ^The "exit" command which terminates the loop. -> Command m T.Text c -- ^The command that is called when none of the others match. -- This one's 'commandTest' is replaced with @const True@. -> m T.Text -- ^The asker to execute before each command (i.e. the prompt). -> [Handler m ()] -- ^List of Handlers for any exceptions that may arise. -- The exception hierchy is rooted in 'SomeREPLError'. -- See "System.REPL.Types". -> m () -- ^Asks the user repeatedly for input, until the input matches -- the command test of the "exit" command. makeREPL regular exit unknown prompt handlers = void $ iterateUntil id iter where iter = (prompt >>= runSingleCommand allCommands) `catches` handlers' handlers' = fmap (\(Handler f) -> Handler (\e -> f e >> return False)) handlers exit' = fmap (const True) exit regular' = L.map (fmap (const False)) regular unknown' = fmap (const False) $ unknown{commandTest = const True} allCommands = oneOf "" "" (exit' : regular' ++ [unknown']) -- |A variant of 'makeREPL' with some default settings: -- -- * The "exit" command is 'defExitCmd'. -- * The "unknown" command prints "Unknown command: <user input>". -- * The prompt is "> ". -- * The error handler is 'defErrorHandler'. makeREPLSimple :: (MonadIO m, MonadCatch m) => [Command m T.Text a] -> m () makeREPLSimple regular = makeREPL regular defExitCmd unknownCmd PR.prompt defErrorHandler where unknownCmd = makeCommandN "" (const True) "" False [] (repeat lineAsker) (\t _ -> liftIO $ PR.putStrLn $ "Unknown command: " ++ t) -- Example commands ------------------------------------------------------------------------------- -- |A command that takes no arguments and does nothing. noOpCmd :: (MonadIO m, MonadCatch m) => T.Text -- ^Command name. -> [T.Text] -- ^Alternative names for the command. The user can either -- the command name or any of the alternative names. -- -- E.g. "exit" with alternative names ":e", ":quit". -> Command m T.Text () noOpCmd n ns = makeCommand n ((`L.elem` (n:ns)) . T.strip) "" (const $ return ()) -- |A command with the name ":exit" and the description -- "Exits the program." Otherwise, it does nothing. -- -- You can use this as the exit-command for 'makeREPL', -- if no special clean-up is needed upon quitting. defExitCmd :: (MonadIO m, MonadCatch m) => Command m T.Text () defExitCmd = makeCommand n ((n==) . T.strip) "Exits the program." (const $ return ()) where n = ":exit" -- |A help-command with the name ":help" and the -- description "Prints this help text." -- -- It goes through the given list of commands and prints -- the name and description of each one. defHelpCmd :: (MonadIO m, MonadCatch m, Foldable f) => f (Command m0 a b) -> Command m T.Text () defHelpCmd cmds = makeCommand n ((n==) . T.strip) "Prints this help text." help where n = ":help" help _ = liftIO $ mapM_ (\x -> putStrLn $ commandName x ++ " - " ++ commandDesc x) cmds -- |A default error handler that catches 'SomeREPLError' and prints it to stdout. -- -- Since all the sub-types of 'SomeREPLError' just wrap a 'SomeException', we -- use the 'Show'-instance of that inner exception. -- -- Useful in combination with 'makeREPL'. defErrorHandler :: MonadIO m => [Handler m ()] defErrorHandler = [Handler h] where h :: MonadIO m => SomeREPLError -> m () h = liftIO . print