As matt freake pointed out in his answer, there is not much practical difference between

```
public static <T> void copyA(List<? super T> dest, List<? extends T> src) // and
public static <T> void copyB(List< T> dest, List<? extends T> src)
```

The snippet below contains an `exampleShowingThatTheyAreBasicallyEquivalent`

.

The reason of why the authors chose to use `? super T`

is most likely that they wanted to emphasize the PECS principle: Producer `extends`

- Consumer `super`

.

In this example, the first list is a **consumer** of objects. It only receives objects from the other list. Therefore, its type should be `List<? super T>`

.

However, the snippet below also contains an `exampleShowingOneSubtleDifference`

.I can hardly think of a case where this is really practically *relevant*, but just to point it out: When you circumvent the type inference, and pin the type `<T>`

to one particular type, you can still pass in a `List<? super T>`

as the first argument to the first method. In the second one, the type has to match exactly - but this is simply what the method signature says, so maybe it's obvious...

```
import java.util.List;
public class PecsExample
{
public static void exampleShowingOneSubtleDifference()
{
List<? super Number> superNumbers = null;
List<Number> numbers = null;
PecsExample.<Number>copyA(superNumbers, numbers); // Works
//PecsExample.<Number>copyB(superNumbers, numbers); // Does not work
}
public static void exampleShowingThatTheyAreBasicallyEquivalent()
{
List<? super Object> superObjects = null;
List<? super Number> superNumbers = null;
List<? super Integer> superIntegers = null;
List<Object> objects = null;
List<Number> numbers = null;
List<Integer> integers = null;
List<? extends Object> extendsObjects = null;
List<? extends Number> extendsNumbers = null;
List<? extends Integer> extendsIntegers = null;
copyA(objects, objects);
copyA(objects, numbers);
copyA(objects, integers);
copyA(numbers, numbers);
copyA(numbers, integers);
copyA(integers, integers);
copyA(superObjects, objects);
copyA(superObjects, numbers);
copyA(superObjects, integers);
copyA(superNumbers, numbers);
copyA(superNumbers, integers);
copyA(superIntegers, integers);
copyA(objects, extendsObjects);
copyA(objects, extendsNumbers);
copyA(objects, extendsIntegers);
copyA(numbers, extendsNumbers);
copyA(numbers, extendsIntegers);
copyA(integers, extendsIntegers);
copyB(objects, objects);
copyB(objects, numbers);
copyB(objects, integers);
copyB(numbers, numbers);
copyB(numbers, integers);
copyB(integers, integers);
copyB(superObjects, objects);
copyB(superObjects, numbers);
copyB(superObjects, integers);
copyB(superNumbers, numbers);
copyB(superNumbers, integers);
copyB(superIntegers, integers);
copyB(objects, extendsObjects);
copyB(objects, extendsNumbers);
copyB(objects, extendsIntegers);
copyB(numbers, extendsNumbers);
copyB(numbers, extendsIntegers);
copyB(integers, extendsIntegers);
}
public static <T> void copyA(List<? super T> dest, List<? extends T> src)
{
for (int i = 0; i < src.size(); i++)
{
dest.set(i, src.get(i));
}
}
public static <T> void copyB(List<T> dest, List<? extends T> src)
{
for (int i = 0; i < src.size(); i++)
{
dest.set(i, src.get(i));
}
}
}
```

`List<T>`

and`List<? extends T>`

in this case. I think`List<T>`

works just like`List<? extends>`

.