NAME Set::Tiny - Simple sets of strings SYNOPSIS use Set::Tiny; my $s1 = Set::Tiny->new(qw( a b c )); my $s2 = Set::Tiny->new(qw( b c d )); my $u = $s1->union($s2); my $i = $s1->intersection($s2); my $s = $s1->symmetric_difference($s2); print $u->as_string; # (a b c d) print $i->as_string; # (b c) print $s->as_string; # (a d) print "i is a subset of s1" if $i->is_subset($s1); print "u is a superset of s1" if $u->is_superset($s1); # or using the shorter initializer: use Set::Tiny qw( set ); my $s1 = set(qw( a b c )); my $s2 = set([1, 2, 3]); DESCRIPTION Set::Tiny is a thin wrapper around regular Perl hashes to perform often needed set operations, such as testing two sets of strings for equality, or checking whether one is contained within the other. For a more complete implementation of mathematical set theory, see Set::Scalar. For sets of arbitrary objects, see Set::Object. Why Set::Tiny? Convenience "Set::Tiny" aims to provide a convenient interface to commonly used set operations, which you would usually implement using regular hashes and a couple of "for" loops (in fact, that's exactly what "Set::Tiny" does). Speed The price in performance you pay for this convenience when using a full-featured set implementation like Set::Scalar is way too high if you don't actually need the advanced functionality it offers. Run examples/benchmark.pl for a (non-representative) comparison between different "Set::" modules. Ease of use Set::Object offers better performance than Set::Scalar, but needs a C compiler to install. "Set::Tiny" has no dependencies and contains no C code. EXPORTABLE FUNCTIONS set( [*list or arrayref*] ) If you request it, Set::Tiny can export a function set(), which lets you create a Set::Tiny instance in a more compact form. Unlike the constructor, this function also accepts the set elements as an array reference. If you pass an existing Set::Tiny to the initializer, it creates a clone of the set and returns that. METHODS Note that all methods that expect a *list* of set elements stringify their arguments before inserting them into the set. new( [*list*] ) Class method. Returns a new Set::Tiny object, initialized with the strings in *list*, or the empty set if *list* is empty. clone copy Returns a new set with the same elements as this one. insert( [*list*] ) Inserts the elements in *list* into the set. delete( [*list*] ) remove( [*list*] ) Removes the elements in *list* from the set. Elements that are not members of the set are ignored. invert( [*list*] ) For each element in *list*, if it is already a member of the set, deletes it from the set, else insert it into the set. clear Removes all elements from the set. as_string Returns a string representation of the set. elements members Returns the (unordered) list of elements. size Returns the number of elements. has( [*list*] ) contains( [*list*] ) Returns true if all of the elements in *list* are members of the set. If *list* is empty, returns true. element( [*string*] ) member( [*string*] ) Returns the string if it is contained in the set. is_null is_empty Returns true if the set is the empty set. union( *set* ) Returns a new set containing both the elements of this set and *set*. intersection( *set* ) Returns a new set containing the elements that are present in both this set and *set*. intersection2( *set* ) Like intersection(), but orders the sets by size before comparing their elements. This results in a small overhead for small, evenly sized sets, but a large speedup when comparing bigger (~ 100 elements) and very unevenly sized sets. difference( *set* ) Returns a new set containing the elements of this set with the elements of *set* removed. unique( *set* ) symmetric_difference( *set* ) Returns a new set containing the elements that are present in either this set or *set*, but not in both. is_equal( *set* ) Returns true if this set contains the same elements as *set*. is_disjoint( *set* ) Returns true if this set has no elements in common with *set*. Note that the empty set is disjoint to any other set. is_properly_intersecting( *set* ) Returns true if this set has elements in common with *set*, but both also contain elements that they have not in common with each other. is_proper_subset( *set* ) Returns true if this set is a proper subset of *set*. is_proper_superset( *set* ) Returns true if this set is a proper superset of *set*. is_subset( *set* ) Returns true if this set is a subset of *set*. is_superset( *set* ) Returns true if this set is a superset of *set*. AUTHOR Stanis Trendelenburg, "" CREDITS Thanks to Adam Kennedy for advice on how to make this module "Tiny". SEE ALSO * Set::Scalar BUGS Please report any bugs or feature requests on the bugtracker website When submitting a bug or request, please include a test-file or a patch to an existing test-file that illustrates the bug or desired feature. CONTRIBUTORS * Alberto Manuel Brandão Simões * Alceu Rodrigues de Freitas Junior * brian greenfield * Graham Knop * Ricky Morse * Stanis Trendelenburg AUTHOR Stanis Trendelenburg COPYRIGHT AND LICENSE This software is copyright (c) 2024 by Stanis Trendelenburg. This is free software; you can redistribute it and/or modify it under the same terms as the Perl 5 programming language system itself.