A rough rule of thumb for collections and generics is the following:
Collection<Foo> is a Collection from which you can get a Foo and to which you can add a Foo.
Collection<? extends Foo> is a Collection from which you can get a Foo, but you cannot add anything.
Why is this so? Because when you say
Collection<Foo>, you're promising to the users of that reference that they can invoke an
add(Foo elem) method on the object in question. On the other hand, when you use the wildcard version, you're keeping the "real" parameter class a secret from the users of the reference—they know that any element they extract from the collection can be cast to Foo, but not whether they can add any Foo to it.
Why is this useful? Because there are many, many, many cases where you will write methods that will want to iterate through a Collection whose elements are all Foos, but to which you never need to add any elements. So like this:
public Foo findAFooThatILike(Collection<? extends Foo> foos);
Using the wildcard here means that the method will accept as its argument a
Collection<Foo> and a collection of any subtype of Foo; e.g., if Bar is a subtype of Foo, the signature above means that you can pass a
Collection<Bar> to the method.
If on the other hand, you'd written the signature like this:
public Foo findAFooThatILike(Collection<Foo> foos);
...then you would not be able to pass in a
Collection<Bar> as an argument. Why? Because for something to be a
Collection<Foo>, it needs to support an
add(Foo elem) method, and a
Note that these rules of thumb only apply to Collection interfaces and classes. (Also note that
Collection<? extends Foo> doesn't mean "read-only Collection of Foo"; many methods to remove elements from a collection can still work when you don't know the precise element type).
So, back to your original question:
List<?> is the same as
List<? extends Object>. It's a list from which you can get references to Object instances, but you cannot safely add anything.