`return`

is polymorphic so it can stand for more than one type. Just like `+`

in C is overloaded to work both at summing ints and at summing floats, `return`

is overloaded to work with any monad.

Of course, when its time to run the code you need to know what type the `m`

corresponds to in order to know what concrete implementation of `return`

to use. Some times you have explicit type annotations or type inference that lets you know what implementation of return to use

```
(return 5) :: [Int]
```

Other times, you can "push up" the decision higher up. If you write a larger polymorphic function, the inner returns use the same type from the outer function.

```
my_func :: Monad m => a -> m a
my_func x = return x
(my_func 10) :: [Int]
```

I told my func that I was working on the list monad and in turn, this made my_func use the list monad implementation of `return`

inside.

Finally, if you don't leave enough information for the compiler to figure out what type to use, you will get an ambiguou intance compilation error. This is specially common with the `Read`

typeclass. (try typing `x <- readLn`

in ghci to see what happens...)