Given a data structure for sets, testing two sets for equality seems to be a desirable task, and indeed many implementations allow this (e.g. builtin sets in python).

There are different set implements in Erlang: `sets`

, `ordsets`

, `gb_sets`

. Their documentation does not indicate, whether it is possible to test equality using term comparison ("=="), nor do they provide explicit functions for testing equality.

Some naive cases seem to allow equality testing with "==", but I have a larger application where I'm able to produce `sets`

and `gb_sets`

which are equal (tested with the function below) but do not compare equal with "==". For `ordsets`

, they always compare equal. Unfortunately I haven't found a way to produce a minimal example for cases where equal sets do not compare equal with "==".

For reliably testing equality I use the following function, based on this theorem on set equality:

```
%% @doc Compare two sets for equality.
-spec sets_equal(sets:set(), sets:set()) -> boolean().
sets_equal(Set1, Set2) ->
sets:is_subset(Set1, Set2) andalso sets:is_subset(Set2, Set1).
```

My questions:

- Is their a rationale, why Erlang set implementations do not offer explicit equality testing?
- How to explain the difference when testing set equality with "==" with for the different set implementations?
- How can produce a minimal example of
`sets`

where "==" does not compare equal but the sets are equal given the above code?

**Some thoughts on question 2:**

The documentation for `sets`

states, that "The representation of a set is not defined." where as the documentation of `ordsets`

states, that "An ordset is a representation of a set". The documentation on `gb_sets`

does not give any comparable indication.
The following comment, from the source code of the `sets`

implementation, seems to reiterate the statement from the documentation :

Note that as the order of the keys is undefined we may freely reorder keys within in a bucket.

My interpretation is, that term comparison with "==" in Erlang works on the representation of the sets, i.e. two sets only compare equal if their representation is identical. This would explain the different behavior of the different set implementations but also reinforces the question, why there is no explicit equality comparison.