We know that within a Haskell program, almost every piece of computation will return something, and such return values can be captured by another computation to apply more transformations on it. So if we "flatten" a normal Haskell program, it should be:
-- pure `a`: comes from Hask; not from file, network or any -- other side-effected devices a → a' → a'' → a''' → .... → a_fin
Of course, this pure value might be "contexted". But we can still trace the path of alternating:
a → m a → m a' → a'' → n a''' → ... → z a_fin
For me, this shows that we can control our program to avoid side-effects and other 'surprises', which may be caused by missing of type system or our self. But when the
IO () appears, there seems a missing:
--!! What happened between the IO () and the next computation ? a → m a → m a' → IO () >> b → b' → m b'
IO () seems passing/receiving nothing, but it MUST read/write something at least. Especially if we consider the "receiver" process:
Sender:: a → m a → m a' → IO () >> b → b' → m b' ... → m b_fin Receiver:: IO a' → IO a'' → IO a''' → ... → IO a_fin
In the sender, we can't see what happened on
a after the
IO () . But if we consider both two processes , the missing part is back ! So we can say we missed or not missed the information, according to your point of view. Is this a information leak, and we just give up the control of our program, when we put the
IO () in the program ?
PS. Oh,and I also found that the Receiver, can only start computation with a "contexted" value, not a pure value, it's another question occurs in my mind...