13

When calculating IO (IO ()), both (IO ()) and () is calculated, so why

main :: IO (IO ())
main = print <$> (print "Hello, World!")

print

"Hello, World!"

not

IO "Hello, World!" -- ??
"Hello, World!"
2
  • 3
    Basically fmap print (print "Hello World") applies it's first parameter, the print function, to the result of print "Hello World". That's simply the equivalent of invoking print () after print "Hello World" action is performed.
    – Redu
    Oct 21, 2019 at 12:41
  • 1
    @Redu That is correct, but note that the invocation of print () never gets evaluated, nor its action performed (which would print () on stdout). So, "invoking print () after ..." is a bit misleading (IMO).
    – chi
    Oct 22, 2019 at 22:45

1 Answer 1

21
+50
main :: IO (IO ())
main = print <$> (print "Hello, World!")

is equivalent, thanks to the monad laws, to

main :: IO (IO ())
main = do 
   result <- print "Hello, World!"
   return (print result)

Now, print always returns () as result, so the whole code is equivalent to

main :: IO (IO ())
main = do 
   _ <- print "Hello, World!"
   return (print ())

Finally, the result of main is simply discarded. That is, the last line could be return (putStrLn "this is ignored") and have the same effect.

Hence the code will only execute the first print "Hello, World!".

I would recommend that you always define main :: IO (). Haskell allows us to declare main :: IO AnyTypeHere, but this is (IMO) confusing.

I would also recommend you use putStrLn, and not print to print strings, since the latter will quote and escape the whole string.

1
  • 5
    I'd add that f <$> a ≡ a >>= \r -> return $ f r is not just a specific thing to this situation, but actually holds for any monad. Oct 21, 2019 at 11:24

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