Let me explain what is happening here, because it isn't obvious!

First, Stream.max() accepts an instance of `Comparator`

so that items in the stream can be compared against each other to find the minimum or maximum, in some optimal order that you don't need to worry too much about.

So the question is, of course, why is `Integer::max`

accepted? After all it's not a comparator!

The answer is in the way that the new lambda functionality works in Java 8. It relies on a concept which is informally known as "single abstract method" interfaces, or "SAM" interfaces. The idea is that any interface with one abstract method can be automatically implemented by any lambda - or method reference - whose method signature is a match for the one method on the interface. So examining the `Comparator`

interface (simple version):

```
public Comparator<T> {
int compare(T o1, T o2);
}
```

If a method is looking for a `Comparator<Integer>`

, then it's essentially looking for this signature:

```
int xxx(Integer o1, Integer o2);
```

I use "xxx" because the method name is not used for matching purposes.

Now `Math.min`

/`max()`

have the following signature:

```
int min(int i1, int i2);
```

This is close enough that autoboxing will allow this to appear as a `Comparator<Integer>`

in a method context.

Of course this isn't what you want! No matter what two numbers you give, the answer will always be the smaller/larger of the two (and if your ints are always positive like the example, this means the answer will always be positive), which will result in some major/strange problems. You should use the `compare`

method instead:

```
System.out.println(list.stream().max(Integer::compare).get());
System.out.println(list.stream().min(Integer::compare).get());
```

which will give much more useful results.