Suppose I have a class not implementing the `Comparable`

interface like

```
class Dummy {
}
```

and a collection of instances of this class plus some function external to the class that allows comparing these instances partially (a map will be used for this purpose below):

```
Collection<Dummy> col = new ArrayList<>();
Map<Dummy, Integer> map = new HashMap<>();
for (int i = 0; i < 12; i++) {
Dummy d = new Dummy();
col.add(d);
map.put(d, i % 4);
}
```

Now I want to sort this collection using the `TreeSet`

class with a custom comparator:

```
TreeSet<Dummy> sorted = new TreeSet<>(new Comparator<Dummy>() {
@Override
public int compare(Dummy o1, Dummy o2) {
return map.get(o1) - map.get(o2);
}
});
sorted.addAll(col);
```

The result is obviously unsatisfactory (contains less elements than the initial collection). This is because such a comparator **is not consistent with equals**, i.e. sometimes returns

`0`

for non-equal elements. My next attempt was to change the `compare`

method of the comparator to```
@Override
public int compare(Dummy o1, Dummy o2) {
int d = map.get(o1) - map.get(o2);
if (d != 0)
return d;
if (o1.equals(o2))
return 0;
return 1; // is this acceptable?
}
```

It seemingly gives the desired result for this simple demonstrational example but I'm still in doubt: is it correct to always return `1`

for unequal (but undistinguishable by the map) objects? Such a relation still violates the general contact for the `Comparator.compare()`

method because `sgn(compare(x, y)) == -sgn(compare(y, x))`

is, generally, wrong. Do I really need to implement a correct total ordering for `TreeSet`

to work correctly or the above is enough? How to do this when an instance has no fields to compare?

For more real-life example imagine that, instead of `Dummy`

, you have a type parameter `T`

of some generic class. `T`

may have some fields and implement the `equals()`

method through them, but you don't know these fields and yet need to sort instances of this class according to some external function. Is this possible with the help of `TreeSet`

?

### Edit

Using `System.identityHashCode()`

is a great idea but there is (not so small) chance of **collision**.

Besides possibility of such a collision, there is one more **pitfall**. Suppose you have 3 objects: `a`

, `b`

, `c`

such that `map.get(a) = map.get(b) = map.get(c)`

(here `=`

isn't assignment but the mathematical equality), `identityHashCode(a) < identityHashCode(b) < identityHashCode(c)`

, `a.equals(c)`

is true, but `a.equals(b)`

(and hence `c.equals(b)`

) is false. After adding these 3 elements to a `TreeSet`

in this order: `a, b, c`

you can get into a situation when all of them have been added to the set, that contradicts the prescribed behaviour of the `Set`

interface - it should not contain equal elements. How to deal with that?

In addition, it would be great if someone familiar with `TreeSet`

mechanics explained to me what does the term *"well-defined"* in the phrase *"The behavior of a set is well-defined even if its ordering is inconsistent with equals"* from TreeSet javadoc mean.

sortelements at the time of its creation and output the result as a list? I don't need extended possibilities like`tailSet()`

.21more comments