The Scala collections library provides specialised implementations for Sets of fewer than 5 values (see the source). The iterators for these implementations return elements *in the order in which they were added*, rather than the consistent, hash-based ordering used for larger Sets.

Furthermore, `sameElements`

(scaladoc) is defined on `Iterable`

s (it is implemented in `IterableLike`

- see the source); it returns true only if the iterators return the same elements in the same order.

So although `Set(1,2,3)`

and `Set(3,2,1)`

*ought* to be equivalent, their iterators are different, therefore `sameElements`

returns false.

This behaviour is surprising, and arguably a bug since it violates the mathematical expectations for a Set (but only for certain sizes of Set!).

As I.K. points out in the comments, `==`

works fine if you are just comparing Sets with one another, i.e. `Set(1,2,3) == Set(3,2,1)`

. However, sameElements is more general in that it can compare the elements of any two iterables. For example, `List(1, 2, 3) == Array(1, 2, 3)`

is false, but `List(1, 2, 3) sameElements Array(1, 2, 3)`

is true.

More generally, equality can be confusing - note that:

```
List(1,2,3) == Vector(1,2,3)
List(1,2,3) != Set(1,2,3)
List(1,2,3) != Array(1,2,3)
Array(1,2,3) != Array(1,2,3)
```

I have submitted a fix for the Scala exercises that explains the `sameElements`

problem.

`==`

to test for equality irrespective of order and repetitions.`Set`

s with one another, although I just noticed that`List(1,2,3) == Vector(1,2,3)`

but`List(1,2,3) != Set(1,2,3)`

and`List(1,2,3) != Array(1,2,3)`

which is another potential minefield!`Array(1,2,3) != Array(1,2,3)`

!!