All you need to do is define an arbitrary stable ordering. (Your "object birth time" is
one such idea, but I don't think it is stored).
For any two objects of the same exact type, you can define such an ordering by comparing
their individual fields. If all fields are identical, the objects are equal; if not,
some field f is different and you can define the ordering based on the underlying type.
If you have two objects with different types, simply use the type name to define the order; the
one whose name is lexicographically smaller is "less than". You can implement a compare-per-type
(might be a lot of work) or you can likely implement a generic compare the uses reflection
to enumerate field names and types (to enable type-specific compares), although this might
be pretty slow.
Any time you call your comparator, cache any object not yet encountered in a linear array.
Any objects thus compared now have a index position in the array; o1 < o2 if the index(o1) < index(o2).
You might need a hash table to associate assigned index positions with cached objects.
If you are working with a specific subset of the objects, and there's a canonical
spanning tree, then number each edge of the spanning tree such that children arcs
have unique numbers. Then o1 < o2 if the path to o1 from the root of the spanning tree,
is less than the path to o2.