19

It's nice to know (in Safe Haskell, at least) from the signature whether or not something performs IO actions, but IO encompasses a lot of different things - putStr, database access, removing and writing to files, IORefs, etc.

If I'm using the type signatures as a security measure when running arbitrary code, it might be the case that I'm willing to accept some IO actions - putStr and the ilk, for instance - but not others.

Is there a way to define a restricted version of the IO monad, with only a subset of the normal IO actions? If so, an example (with putStr, for instance) would be very welcome!

  • 2
    Here's a reddit post I made a while back about this exact problem. There's a good discussion there and example code that you could use to base an implementation off of. – bheklilr Dec 2 '13 at 0:19
24

As a follow up to my comment, you can implement it yourself with something like

class Monad io => Stdout io where
    putStr_ :: String -> io ()
    putStrLn_ :: String -> io ()
    print_ :: Show a => a -> io ()
    -- etc

instance Stdout IO where
    putStr_ = putStr
    putStrLn_ putStrLn
    print_ = print

myFunc :: Stdout io => io ()
myFunc = do
    val <- someAction
    print_ val
    let newVal = doSomething val
    print_ newVal

main :: IO ()
main = myFunc

This will have absolutely no runtime overhead, since GHC will optimize away those typeclasses to use only the IO monad, it's extensible, easy to write, and can be combined with monad transformes and the MonadIO class quite easily. If you have multiple class, such as a Stdin class with getLine_, getChar_, etc defined, you can even combine these typeclasses with

class (Stdout io, Stdin io) => StdOutIn io where

myFunc :: StdOutIn io => io ()
myFunc = do
    val <- getLine_
    putStrLn_ $ "Echo: " ++ val

main :: IO ()
main = myFunc
  • 3
    +1 since this composes well. You can build small type classes for Stdout, file access, networks, missile-firing, whatever and then combine them arbitrarily and smoothly. – jozefg Dec 2 '13 at 3:53
  • This is exactly what I was after! – user2141650 Dec 2 '13 at 13:50
  • 3
    With -XConstraintKinds, you can write type StdOutIn io = (Stdout io, Stdin io) for similar effect. – Alex R Dec 12 '13 at 6:03
  • @AlexR would there be a benefit to using constraint kinds as opposed to what I've shown here? I would think that it's the same effect for this case since the classes are so simple. It's an alternate syntax, but I don't think I'd gain any functional value with that extension. I could be wrong, though, I don't pretend to be an expert. – bheklilr Dec 12 '13 at 7:30
  • None that I can think of, at least directly. Check out the constraints package, though. – Alex R Dec 13 '13 at 5:14
10

Just define a newtype around IO a with a Monad instance, define wrapped versions of your pre-approved functions, and don't export the constructor, so that only the functions you wrapped can be used in the monad.

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