The title said it all, actually. I can't understand why this following code does not actually print "Hello World" as opposed of what `>>=`

does.

```
main = fmap putStrLn getLine
```

Currently, here is my line of reasoning, please check if it has any fallacy.

If we compare `fmap`

with `>>=`

```
(>>=) :: Monad m => m a -> (a -> m b) -> m b
fmap :: Functor f => (a -> b) -> f a -> f b
```

In bind, the context, or in IO terms "World" the first `m`

and the second `m`

is entirely different aside of the types. `(a -> m b)`

essentially recreates a new "World". This is not true in Functor, the context `f`

are the same hence side effects are impossible.

Now, if that's indeed the case, why doesn't the compiler gives a warning when we try to `fmap`

an effectful IO to an existing IO Monad?

`main :: IO ()`

and you will notice the mistake. It is good practice to add explicit type signatures to all top-level equations. – Bassie Jul 29 '14 at 9:48