These things are known, in type theory, as *variance*, with `<? extends T>`

being a co-variant notation, and `<? super T>`

being a contra-variant notation. The simplest explanation is that `?`

may be replaced by any type extending `T`

in the co-variant notation, and `?`

may be replaced by any type which `T`

extends in the contra-variant one.

Using co and contra-variance is much more difficult than it may seem at first, particularly since the variance "toggles" depending on the position.

A simple example would be a function-class. Say you have a function which takes an `A`

and returns a `B`

. The correct notation for it would be to say that `A`

is contra-variant and `B`

os co-variant. To understand better how this is the case, let's consider a method -- let's call it `g`

-- which receives this hypothetical *function* class, where *f* is supposed to receive an `Arc2D`

and return a `Shape`

.

Inside `g`

, this `f`

is called passing an `Arc2D`

and the return value is used to initialize an `Area`

(which expects a `Shape`

).

Now, suppose that the `f`

you pass receives any `Shape`

and returns a `Rectangle2D`

. Since an `Arc2D`

is a also a `Shape`

, then `g`

won't get an error passing an `Arc2D`

to `f`

, and since a `Rectangle2D`

is also a `Shape`

, then it can be passed to `Area`

's constructor.

If you try to invert any of the variances or swap the expected and actual types in that example, you'll see it fails. I don't have the time right now to write down this code, and my Java is quite rusty at any rate, but I'll see what I can do later -- if no one is kind enough to do it first.