IO () is the type of an action that can be executed to extract a value of type
(). There is only one (non-bottom) value of type
(), which is also spelled
() (you tell them apart by knowing whether you're looking at a type expression or a value expression, just as names starting with an uppercase letter are either type constructors or data constructors, depending on whether you're looking at a type expression or a value expression). Since there is only one (non-bottom) value, the value tells you absolutely nothing (strictly speaking it does at least tell you that the computation did terminate successfully, but that's all). So
IO () is usually used as the type of IO actions that we're only interested in for their side-effects.
putStrLn "Hello World" is an example of a value of type
IO (). It doesn't compute anything at all interesting; what is the value resulting from having written a string to the terminal? Getting the
() when it's executed only tells us that it did indeed execute.
IO Int is the type of an action that can be executed to extract a value of type
Int. As with all IO actions, what exactly it does can have effects on and be affected by the world outside the program; Haskell knows nothing about them. But it does know that executing the action will result in a Haskell value of type
Int, regardless of whatever else it might do.
readLn :: IO Int is an example of a value of type
IO Int (the type annotation is necessary as a standalone expression to avoid ambiguity; in a wider context where you actually use the value extracted from
readLn for some
Int-specific operations you could probably leave it off). Unlike writing a string to the terminal, reading a string from the terminal and converting it to an
Int does result in a value.
IO is a type constructor that can be applied to any type;
IO a is the type of an execution that could be executed and would result in a value of type
a. Both of the above are just examples of this; neither is handled specially.
() is a perfectly ordinary type, and
() is a perfectly ordinary value of that type, but because such values don't convey any information (other than "this computation successfully terminated") you don't normally see
() on its own; it tends to be used only with type constructors applied, such as in
IO (), for values where we care only about the structure added by the type constructor, not about the values "inside" it.