is_ordset/1 | True if Term is an ordered set. |
list_to_ord_set/2 | Transform a list into an ordered set. |
ord_add_element/3 | Insert an element into the set. |
ord_del_element/3 | Delete an element from an ordered set. |
ord_disjoint/2 | True if Set1 and Set2 have no common elements. |
ord_empty/1 | True when List is the empty ordered set. |
ord_intersect/2 | True if both ordered sets have a non-empty intersection. |
ord_intersect/3 | Intersection holds the common elements of Set1 and Set2. |
ord_intersection/2 | Intersection of a powerset. |
ord_intersection/3 | Intersection holds the common elements of Set1 and Set2. |
ord_intersection/4 | Intersection and difference between two ordered sets. |
ord_memberchk/2 | True if Element is a member of OrdSet, compared using ==. |
ord_selectchk/3 | Selectchk/3, specialised for ordered sets. |
ord_seteq/2 | True if Set1 and Set2 have the same elements. |
ord_subset/2 | Is true if all elements of Sub are in Super. |
ord_subtract/3 | Diff is the set holding all elements of InOSet that are not in NotInOSet. |
ord_symdiff/3 | Is true when Difference is the symmetric difference of Set1 and Set2. |
ord_union/2 | True if Union is the union of all elements in the superset SetOfSets. |
ord_union/3 | Union is the union of Set1 and Set2. |
ord_union/4 | True iff ord_union(Set1, Set2, Union) and ord_subtract(Set2, Set1, New). |