It seems like this is pretty well documented in JavaDoc of `TreeSet`

(bold mine):

Note that the ordering maintained by a set (whether or not an explicit comparator is provided) **must be consistent with equals** if it is to correctly implement the `Set`

interface. (See `Comparable`

or `Comparator`

for a precise definition of consistent with equals.) This is so because the `Set`

interface is defined in terms of the `equals`

operation, but a `TreeSet`

instance performs all element comparisons using its `compareTo`

(or compare) method, so two elements that are deemed equal by this method are, from the standpoint of the set, equal. **The behavior of a set is well-defined even if its ordering is inconsistent with equals; it just fails to obey the general contract of the **`Set`

interface.

Here is an example of the only (?) JDK class that implements `Comparable`

but is not consistent with `equals()`

:

```
Set<BigDecimal> decimals = new HashSet<BigDecimal>();
decimals.add(new BigDecimal("42"));
decimals.add(new BigDecimal("42.0"));
decimals.add(new BigDecimal("42.00"));
System.out.println(decimals);
```

`decimals`

at the end have three values because `42`

, `42.0`

and `42.00`

are not equal as far as `equals()`

is concerned. But if you replace `HashSet`

with `TreeSet`

, the resulting set contains only 1 item (`42`

- that happened to be the first one added) as all of them are considered equal when compared using `BigDecimal.compareTo()`

.

This shows that `TreeSet`

is in a way "*broken*" when using types not consistent with `equals()`

. It still works properly and all operations are well-defined - it just doesn't obey the contract of `Set`

class - if two classes are not `equal()`

, they are not considered duplicates.

# See also