1

Type:

data Command a = Command String (a -> IO a)

Functions:

iofunc :: String -> (a -> IO a) -> Command a
iofunc = Command

func :: String -> (a -> a) -> Command a
func s f = iofunc s (return . f)

Can someone explain how (return . f) type checks with (a -> IO a)?

2 Answers 2

6

There is no pattern matching going on in your code, so I assume you meant "type checks".

return . f is a function that takes an argument x and evaluates to return (f x). return has the type Monad m => a -> m a and f has the type a -> a. Therefore we know that the type of f x is the same as the type of x and return (f x) then has the type m a where a is the type of x and m is a monad. In other words the type of return . f is Monad m => a -> m a, just like the type of return by itself.

The type required for the second argument to iofunc is a -> IO a. Since IO is a monad, that fits the type Monad m => a -> m a and thus return . f has the proper type to be passed as the second argument to iofunc. Therefore the code type checks.

2
  • Why doesn't (return . f) have to be a IO monad instead of any monad?
    – Stanko
    Dec 24, 2014 at 14:28
  • @Michiel Monad m => a -> m a means that it can produce any monad you want. So if you need an IO, it gives you an IO and if you'd need something else, it'd give you something else. Just like you can pass 42 (which has type Num a => a) to a function expecting an Int just as well as you can pass it to a function expecting an Integer or a Double for example.
    – sepp2k
    Dec 24, 2014 at 14:34
2

I don't know what you mean by "pattern matches" but in this case, return :: a -> IO a. notice that f :: a -> a so by threading the result of that on to return (or composing return with f, if you like) we go from a -> a to a -> IO a

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