This is a great question! Perhaps it is the source of many bugs! This is not just an issue with duplicates. Almost all the methods will return incorrect answers even without duplicates. Consider a hash set. If the hash changes even without creating a duplicate, the contains method will now return incorrect results since the object is in the wrong hash bucket. Similarly remove will not work correctly. For sorted sets, the iterator order will be incorrect.
I like the Observable pattern mentioned by @Thirler. Other solutions seem inefficient. In the observable approach mentioned there, there is a dependency that that implementer of the elements to be added to the set correctly notifies the set whenever and update occurs. The approach I mention here is somewhat more restrictive, but passes responsibility for the correct implementation to the set creator. So as long as the set is implemented correctly it will work for all users of the set. (See below for more on why the observer pattern is hard to implemented)
Here is the basic idea: Suppose that you want to create a set of foo object. We'll create a class called SetFoo. All aspects of foo objects are maintained by the set itself, including construction, and any changes to it. There is no way for any other user to create a Foo object directly because it is an inner class of SetFoo and the constructor is either private or protected. For example lets suppose we implement a class SetFoo where Foo has methods
void setX(int x) and
Foo int getX(). The class SetFoo would have methods like:
Foo instance(int x) //Returns the instance of foo if it exists, otherwise creates a new one and returns it.
Let's say that internally SetFoo maintains a hashset of Foo objects.
setX method of Foo would be defined to remove and re-add the element to the hashset if the value of x changes.
We can extend the idea of SetFoo to contain any number of elements, all of which are maintained by the set. This is really easy to implement for any kind of objects, however, it does require that the elements are all maintained by the set (including construction and all setter methods). Of course to make it multi-thread safe would take more work.
From the point of view of any user of the SetFoo class things would be simple:
Foo f = setFoo.instance(1);
f = setFoo.instance(1); // Would internally create a new one since it was changed.
f= setFoo.instance(3) // Already in the set so no new one is created.
Now we can also add other methods to SetFoo, like
boolean contains (int x);
boolean remove(int x);
or we can add various methods to Foo:
remove() // removes foo from the set.
exists() // if foo still in the set?
add() // add foo back to the set
In the case where the elements can contain many fields we can have a FooSpec class. Suppose Foo contains an int x and int y. Then FooSpec would have
getX, SetX, getY, setY methods and could be constructed using
new FooSpec. Now setFoo would have methods like:
Foo instance(FooSpec fooSpec)
Collection<Foo> instanceAll(Collection<FooSpec> col)
So now you might be wondering why the observer pattern approach is subject to potential errors. With that approach the user of the set must correctly notify the set when it changes. That is effectively the same level of difficulty as as implementing a deeply immutable object (which may not be that easy). For example if the elements of the set are themselves collections or collections of collections, then you would need to make sure that you notify the set whenever anything in the collection (deeply) changes.
Leaving the responsibility to "deeply" notify the set, to the user of the set, would place a lot of burden on the developer. Better to implement a framework that would provide for objects that "deeply" notify.