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Source ord_setproduct(+Set1, +Set2, ?SetProduct)
is true when SetProduct is the cartesian product of Set1 and Set2. The product is represented as pairs Elem1-Elem2, where Elem1 is an element from Set1 and Elem2 is an element from Set2.

Re-exported predicates

The following predicates are exported from this file while their implementation is defined in imported modules or non-module files loaded by this module.

Source is_ordset(@Term) is semidet
True if Term is an ordered set. All predicates in this library expect ordered sets as input arguments. Failing to fullfil this assumption results in undefined behaviour. Typically, ordered sets are created by predicates from this library, sort/2 or setof/3.
Source ord_empty(?List) is semidet
True when List is the empty ordered set. Simply unifies list with the empty list. Not part of Quintus.
Source ord_seteq(+Set1, +Set2) is semidet
True if Set1 and Set2 have the same elements. As both are canonical sorted lists, this is the same as ==/2.
- sicstus
Source list_to_ord_set(+List, -OrdSet) is det
Transform a list into an ordered set. This is the same as sorting the list.
Source ord_intersect(+Set1, +Set2) is semidet
True if both ordered sets have a non-empty intersection.
Source ord_disjoint(+Set1, +Set2) is semidet
True if Set1 and Set2 have no common elements. This is the negation of ord_intersect/2.
Source ord_intersect(+Set1, +Set2, -Intersection)
Intersection holds the common elements of Set1 and Set2.
- Use ord_intersection/3
Source ord_intersection(+PowerSet, -Intersection) is semidet
Intersection of a powerset. True when Intersection is an ordered set holding all elements common to all sets in PowerSet. Fails if PowerSet is an empty list.
- sicstus
Source ord_intersection(+Set1, +Set2, -Intersection) is det
Intersection holds the common elements of Set1 and Set2. Uses ord_disjoint/2 if Intersection is bound to [] on entry.
Source ord_intersection(+Set1, +Set2, ?Intersection, ?Difference) is det
Intersection and difference between two ordered sets. Intersection is the intersection between Set1 and Set2, while Difference is defined by ord_subtract(Set2, Set1, Difference).
See also
- ord_intersection/3 and ord_subtract/3.
Source ord_add_element(+Set1, +Element, ?Set2) is det
Insert an element into the set. This is the same as ord_union(Set1, [Element], Set2).
Source ord_del_element(+Set, +Element, -NewSet) is det
Delete an element from an ordered set. This is the same as ord_subtract(Set, [Element], NewSet).
Source ord_selectchk(+Item, ?Set1, ?Set2) is semidet
Selectchk/3, specialised for ordered sets. Is true when select(Item, Set1, Set2) and Set1, Set2 are both sorted lists without duplicates. This implementation is only expected to work for Item ground and either Set1 or Set2 ground. The "chk" suffix is meant to remind you of memberchk/2, which also expects its first argument to be ground. ord_selectchk(X, S, T) => ord_memberchk(X, S) & \+ ord_memberchk(X, T).
- Richard O'Keefe
Source ord_memberchk(+Element, +OrdSet) is semidet
True if Element is a member of OrdSet, compared using ==. Note that enumerating elements of an ordered set can be done using member/2.

Some Prolog implementations also provide ord_member/2, with the same semantics as ord_memberchk/2. We believe that having a semidet ord_member/2 is unacceptably inconsistent with the *_chk convention. Portable code should use ord_memberchk/2 or member/2.

- Richard O'Keefe
Source ord_subset(+Sub, +Super) is semidet
Is true if all elements of Sub are in Super
Source ord_subtract(+InOSet, +NotInOSet, -Diff) is det
Diff is the set holding all elements of InOSet that are not in NotInOSet.
Source ord_union(+SetOfSets, -Union) is det
True if Union is the union of all elements in the superset SetOfSets. Each member of SetOfSets must be an ordered set, the sets need not be ordered in any way.
- Copied from YAP, probably originally by Richard O'Keefe.
Source ord_union(+Set1, +Set2, -Union) is det
Union is the union of Set1 and Set2
Source ord_union(+Set1, +Set2, -Union, -New) is det
True iff ord_union(Set1, Set2, Union) and ord_subtract(Set2, Set1, New).
Source ord_symdiff(+Set1, +Set2, ?Difference) is det
Is true when Difference is the symmetric difference of Set1 and Set2. I.e., Difference contains all elements that are not in the intersection of Set1 and Set2. The semantics is the same as the sequence below (but the actual implementation requires only a single scan).
      ord_union(Set1, Set2, Union),
      ord_intersection(Set1, Set2, Intersection),
      ord_subtract(Union, Intersection, Difference).

For example:

?- ord_symdiff([1,2], [2,3], X).
X = [1,3].