I have a Haskell application which uses optparse-applicative library for CLI arguments parsing. My data type for CLI arguments contains FilePaths (both files and directories), Doubles and etc. optparse-applicative can handle parse errors but I want to ensure that some files and some directories exist (or don't exist), numbers are >= 0 and etc.

What can be done is an implementation of a bunch of helper functions like these ones:

exitIfM :: IO Bool -> Text -> IO ()
exitIfM predicateM errorMessage = whenM predicateM $ putTextLn errorMessage >> exitFailure 

exitIfNotM :: IO Bool -> Text -> IO ()
exitIfNotM predicateM errorMessage = unlessM predicateM $ putTextLn errorMessage >> exitFailure 

And then I use it like this:

body :: Options -> IO ()
body (Options path1 path2 path3 count) = do
    exitIfNotM (doesFileExist path1) ("File " <> (toText ledgerPath) <> " does not exist") 
    exitIfNotM (doesDirectoryExist path2) ("Directory " <> (toText skKeysPath) <> " does not exist")
    exitIfM (doesFileExist path3) ("File " <> (toText nodeExe) <> " already exist")
    exitIf (count <= 0) ("--counter should be positive")

This looks too ad-hoc and ugly to me. Also, I need similar functionality for almost every application I write. Are there some idiomatic ways to deal with this sort of programming pattern when I want to do a bunch of checks before actually doing something with data type? The less boilerplate involved the better it is :)

  • Using the monad abstraction is the correct way to go here; however, I would instead write a function of type Options -> Either ErrorMessage ValidatedOptions (with appropriate definitions for ErrorMessage and ValidatedOptions); maybe you would want .. -> ErrorT IO .. .. if you need to check the existance of files (but that is hardly useful; a file which exists now may not exist later - consider reading the contents of the file as part of the validation). – user2407038 Feb 16 '18 at 21:14

Instead of validating the options record after it has been constructed, perhaps we could use applicative functor composition to combine argument parsing and validation:

import Control.Monad
import Data.Functor.Compose
import Control.Lens ((<&>)) -- flipped fmap
import Control.Applicative.Lift (runErrors,failure) -- form transformers
import qualified Options.Applicative as O
import System.Directory -- from directory

data Options = Options { path :: FilePath, count :: Int } deriving Show

main :: IO ()
main = do
    let pathOption = Compose (Compose (O.argument O.str (O.metavar "FILE") <&> \file ->
            do exists <- doesPathExist file
               pure $ if exists
                      then pure file
                      else failure ["Could not find file."]))
        countOption = Compose (Compose (O.argument O.auto (O.metavar "INT") <&> \i ->
            do pure $ if i < 10
                      then pure i
                      else failure ["Incorrect number."]))
        Compose (Compose parsy) = Options <$> pathOption <*> countOption
    io <- O.execParser $ O.info parsy mempty
    errs <- io
    case runErrors errs of
        Left msgs -> print msgs
        Right r -> print r

The composed parser has type Compose (Compose Parser IO) (Errors [String]) Options. The IO layer is for performing file existence checks, while Errors is a validation-like Applicative from transformers that accumulates error messages. Running the parser produces an IO action that, when run, produces an Errors [String] Options value.

The code is a bit verbose but those argument parsers could be packed in a library and reused.

Some examples form the repl:

Λ :main "/tmp" 2
Options {path = "/tmp", count = 2}
Λ :main "/tmpx" 2
["Could not find file."]
Λ :main "/tmpx" 22
["Could not find file.","Incorrect number."]
  • Looks really neat! I wasn't aware of Errors data type. Though it looks like magic at first glance... It's not even obvious to me why -XApplicativeDo here is not required and you still can use do. – Shersh Feb 16 '18 at 22:31
  • @Shersh The do exists <- ... constructs a IO action that returns Errors [String] FilePath. One can construct the action is a "monadic" way and later compose it applicatively with other actions. The Validation Applicative from hackage.haskell.org/package/validation is an alternative to Errors. ro-che.info/articles/2015-05-02-smarter-validation – danidiaz Feb 17 '18 at 0:23
  • As it turns out, this solution is unnecessarily complicated. The maintainer of the library recommends reddit.com/r/haskell/comments/800ho7/… performing validation in the ReadM monad, which already provides mechanisms for notifying errors hackage.haskell.org/package/optparse-applicative-… – danidiaz Feb 26 '18 at 18:34
  • 2
    ReadM is a pure monad: newtype ReadM a = ReadM { unReadM :: ReaderT String (Except ParseError) a }. I can't check for file existence for example inside this monad. – Shersh Feb 27 '18 at 10:43

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.