- Documentation
- Reference manual
- The SWI-Prolog library
- library(aggregate): Aggregation operators on backtrackable predicates
- library(apply): Apply predicates on a list
- library(assoc): Association lists
- library(broadcast): Broadcast and receive event notifications
- library(charsio): I/O on Lists of Character Codes
- library(check): Consistency checking
- library(clpb): CLP(B): Constraint Logic Programming over Boolean Variables
- library(clpfd): CLP(FD): Constraint Logic Programming over Finite Domains
- library(clpqr): Constraint Logic Programming over Rationals and Reals
- library(csv): Process CSV (Comma-Separated Values) data
- library(debug): Print debug messages and test assertions
- library(error): Error generating support
- library(gensym): Generate unique identifiers
- library(iostream): Utilities to deal with streams
- library(lists): List Manipulation
- library(main): Provide entry point for scripts
- library(nb_set): Non-backtrackable set
- library(www_browser): Activating your Web-browser
- library(option): Option list processing
- library(optparse): command line parsing
- library(ordsets): Ordered set manipulation
- is_ordset/1
- ord_empty/1
- ord_seteq/2
- list_to_ord_set/2
- ord_intersect/2
- ord_disjoint/2
- ord_intersect/3
- ord_intersection/2
- ord_intersection/3
- ord_intersection/4
- ord_add_element/3
- ord_del_element/3
- ord_selectchk/3
- ord_memberchk/2
- ord_subset/2
- ord_subtract/3
- ord_union/2
- ord_union/3
- ord_union/4
- ord_symdiff/3
- library(pairs): Operations on key-value lists
- library(persistency): Provide persistent dynamic predicates
- library(pio): Pure I/O
- library(predicate_options): Declare option-processing of predicates
- library(prolog_pack): A package manager for Prolog
- library(prolog_xref): Cross-reference data collection library
- library(quasi_quotations): Define Quasi Quotation syntax
- library(random): Random numbers
- library(readutil): Reading lines, streams and files
- library(record): Access named fields in a term
- library(registry): Manipulating the Windows registry
- library(simplex): Solve linear programming problems
- library(solution_sequences): Modify solution sequences
- library(tabling): Tabled execution (SLG)
- library(thread_pool): Resource bounded thread management
- library(ugraphs): Unweighted Graphs
- library(url): Analysing and constructing URL
- library(varnumbers): Utilities for numbered terms
- library(yall): Lambda expressions
- The SWI-Prolog library
- Packages
- Reference manual
A.21 library(ordsets): Ordered set manipulation
Ordered sets are lists with unique elements sorted to the standard
order of terms (see sort/2).
Exploiting ordering, many of the set operations can be expressed in
order N rather than N^
2 when dealing with unordered sets
that may contain duplicates. The library(ordsets)
is
available in a number of Prolog implementations. Our predicates are
designed to be compatible with common practice in the Prolog community.
The implementation is incomplete and relies partly on library(oset)
,
an older ordered set library distributed with SWI-Prolog. New
applications are advised to use library(ordsets)
.
Some of these predicates match directly to corresponding list operations. It is advised to use the versions from this library to make clear you are operating on ordered sets. An exception is member/2. See ord_memberchk/2.
The ordsets library is based on the standard order of terms. This
implies it can handle all Prolog terms, including variables. Note
however, that the ordering is not stable if a term inside the set is
further instantiated. Also note that variable ordering changes if
variables in the set are unified with each other or a variable in the
set is unified with a variable that is `older' than the newest variable
in the set. In practice, this implies that it is allowed to use
member(X, OrdSet)
on an ordered set that holds variables
only if X is a fresh variable. In other cases one should cease using it
as an ordset because the order it relies on may have been changed.
- [semidet]is_ordset(@Term)
- 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.
- [semidet]ord_empty(?List)
- True when List is the empty ordered set. Simply unifies list with the empty list. Not part of Quintus.
- [semidet]ord_seteq(+Set1, +Set2)
- True if Set1 and Set2 have the same elements. As
both are canonical sorted lists, this is the same as ==/2.
- Compatibility
- sicstus
- [det]list_to_ord_set(+List, -OrdSet)
- Transform a list into an ordered set. This is the same as sorting the list.
- [semidet]ord_intersect(+Set1, +Set2)
- True if both ordered sets have a non-empty intersection.
- [semidet]ord_disjoint(+Set1, +Set2)
- True if Set1 and Set2 have no common elements. This is the negation of ord_intersect/2.
- ord_intersect(+Set1, +Set2, -Intersection)
- Intersection holds the common elements of Set1 and Set2.
- deprecated
- Use ord_intersection/3
- ord_intersection(+PowerSet, -Intersection)
- Intersection of a powerset. True when Intersection
is an ordered set holding all elements common to all sets in PowerSet.
- Compatibility
- sicstus
- [det]ord_intersection(+Set1, +Set2, -Intersection)
- Intersection holds the common elements of Set1 and Set2.
Uses
ord_disjoint/2 if Intersection
is bound to
[]
on entry. - [det]ord_intersection(+Set1, +Set2, ?Intersection, ?Difference)
- 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.
- [det]ord_add_element(+Set1, +Element, ?Set2)
- Insert an element into the set. This is the same as
ord_union(Set1, [Element], Set2)
. - [det]ord_del_element(+Set, +Element, -NewSet)
- Delete an element from an ordered set. This is the same as
ord_subtract(Set, [Element], NewSet)
. - [semidet]ord_selectchk(+Item, ?Set1, ?Set2)
- 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)
.- author
- Richard O'Keefe
- [semidet]ord_memberchk(+Element, +OrdSet)
- 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.
- author
- Richard O'Keefe
- [semidet]ord_subset(+Sub, +Super)
- Is true if all elements of Sub are in Super
- [det]ord_subtract(+InOSet, +NotInOSet, -Diff)
- Diff is the set holding all elements of InOSet that are not in NotInOSet.
- [det]ord_union(+SetOfSets, -Union)
- 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.
- author
- Copied from YAP, probably originally by Richard O'Keefe.
- [det]ord_union(+Set1, +Set2, ?Union)
- Union is the union of Set1 and Set2
- [det]ord_union(+Set1, +Set2, -Union, -New)
- True iff
ord_union(Set1, Set2, Union)
andord_subtract(Set2, Set1, New)
. - [det]ord_symdiff(+Set1, +Set2, ?Difference)
- 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].