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-rw-r--r--lib/Math/Cartesian/Product.pm262
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diff --git a/lib/Math/Cartesian/Product.pm b/lib/Math/Cartesian/Product.pm
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-=head1 Name
-
-Math::Cartesian::Product - Generate the Cartesian product of zero or more lists.
-
-=head1 Synopsis
-
- use Math::Cartesian::Product;
-
- cartesian {print "@_\n"} [qw(a b c)], [1..2];
-
- # a 1
- # a 2
- # b 1
- # b 2
- # c 1
- # c 2
-
- cartesian {print "@_\n"} ([0..1]) x 8;
-
- # 0 0 0 0 0 0 0 0
- # 0 0 0 0 0 0 0 1
- # 0 0 0 0 0 0 1 0
- # ...
- # 1 1 1 1 1 1 1 0
- # 1 1 1 1 1 1 1 1
-
- print "@$_\n" for
- cartesian {"@{[reverse @_]}" eq "@_"}
- ([' ', '*']) x 8;
-
- # * *
- # * *
- # * * * *
- # * *
- # * * * *
- # * * * *
- # * * * * * *
- # * *
- # * * * *
- # * * * *
- # * * * * * *
- # * * * *
- # * * * * * *
- # * * * * * *
- # * * * * * * * *
-
-=cut
-
-package Math::Cartesian::Product;
-
-use Carp;
-use strict;
-
-sub cartesian(&@) # Generate the Cartesian product of zero or more lists
- {my $s = shift; # Subroutine to call to process each element of the product
-
- my @C = @_; # Lists to be multiplied
- my @c = (); # Current element of Cartesian product
- my @P = (); # Cartesian product
- my $n = 0; # Number of elements in product
-
-# return 0 if @C == 0; # Empty product per Philipp Rumpf
-
- @C == grep {ref eq 'ARRAY'} @C or croak("Arrays of things required by cartesian");
-
-# Generate each Cartesian product when there are no prior Cartesian products.
-# The first variant builds the results array, the second does not per Justin Case
-
- my $p; $p = wantarray() ? sub
- {if (@c < @C)
- {for(@{$C[@c]})
- {push @c, $_;
- &$p();
- pop @c;
- }
- }
- else
- {my $p = [@c];
- push @P, bless $p if &$s(@$p);
- }
- } : sub # List not required per Justin Case
- {if (@c < @C)
- {for(@{$C[@c]})
- {push @c, $_;
- &$p();
- pop @c;
- }
- }
- else
- {++$n if &$s(@c);
- }
- };
-
-# Generate each Cartesian product allowing for prior Cartesian products.
-
- my $q; $q = wantarray() ? sub
- {if (@c < @C)
- {for(@{$C[@c]})
- {push @c, $_;
- &$q();
- pop @c;
- }
- }
- else
- {my $p = [map {ref eq __PACKAGE__ ? @$_ : $_} @c];
- push @P, bless $p if &$s(@$p);
- }
- } : sub # List not required per Justin Case
- {if (@c < @C)
- {for(@{$C[@c]})
- {push @c, $_;
- &$q();
- pop @c;
- }
- }
- else
- {++$n if &$s(map {ref eq __PACKAGE__ ? @$_ : $_} @c);
- }
- };
-
-# Determine optimal method of forming Cartesian products for this call
-
- if (grep {grep {ref eq __PACKAGE__} @$_} @C)
- {&$q
- }
- else
- {&$p
- }
-
- $p = $q = undef; # Break memory loops per Philipp Rumpf
- wantarray() ? @P : $n # Product or count per Justin Case
- }
-
-# Export details
-
-require 5;
-require Exporter;
-
-use vars qw(@ISA @EXPORT $VERSION);
-
-@ISA = qw(Exporter);
-@EXPORT = qw(cartesian);
-$VERSION = '1.009'; # Tuesday 18 Aug 2015
-
-=head1 Description
-
-Generate the Cartesian product of zero or more lists.
-
-Given two lists, say: [a,b] and [1,2,3], the Cartesian product is the
-set of all ordered pairs:
-
- (a,1), (a,2), (a,3), (b,1), (b,2), (b,3)
-
-which select their first element from all the possibilities listed in
-the first list, and select their second element from all the
-possibilities in the second list.
-
-The idea can be generalized to n-tuples selected from n lists where all the
-elements of the first list are combined with all the elements of the second
-list, the results of which are then combined with all the member of the third
-list and so on over all the input lists.
-
-It should be noted that Cartesian product of one or more lists where one or
-more of the lists are empty (representing the empty set) is the empty set
-and thus has zero members; and that the Cartesian product of zero lists is a
-set with exactly one member, namely the empty set.
-
-C<cartesian()> takes the following parameters:
-
-1. A block of code to process each n-tuple. this code should return true
-if the current n-tuple should be included in the returned value of the
-C<cartesian()> function, otherwise false.
-
-2. Zero or more lists.
-
-C<cartesian()> returns an array of references to all the n-tuples selected by
-the code block supplied as parameter 1 if called in list context, else it
-returns a count of the selected n-tuples.
-
-C<cartesian()> croaks if you try to form the Cartesian product of
-something other than lists of things or prior Cartesian products.
-
-The cartesian product of lists A,B,C is associative, that is:
-
- (A X B) X C = A X (B X C)
-
-C<cartesian()> respects associativity by allowing you to include a
-Cartesian product produced by an earlier call to C<cartesian()> in the
-set of lists whose Cartesian product is to be formed, at the cost of a
-performance penalty if this option is chosen.
-
- use Math::Cartesian::Product;
-
- my $a = [qw(a b)];
- my $b = [cartesian {1} $a, $a];
- cartesian {print "@_\n"} $b, $b;
-
- # a a a a
- # a a a b
- # a a b a
- # ...
-
-C<cartesian()> is easy to use and fast. It is written in 100% Pure Perl.
-
-=head1 Export
-
-The C<cartesian()> function is exported.
-
-=head1 Installation
-
-Standard Module::Build process for building and installing modules:
-
- perl Build.PL
- ./Build
- ./Build test
- ./Build install
-
-Or, if you're on a platform (like DOS or Windows) that doesn't require
-the "./" notation, you can do this:
-
- perl Build.PL
- Build
- Build test
- Build install
-
-=head1 Author
-
-Philip R Brenan at gmail dot com
-
-http://www.appaapps.com
-
-=head1 Acknowledgements
-
-With much help and good natured advice from Philipp Rumpf and Justin Case to
-whom I am indebted.
-
-=head1 See Also
-
-=over
-
-=item L<Math::Disarrange::List>
-
-=item L<Math::Permute::List>
-
-=item L<Math::Permute::Lists>
-
-=item L<Math::Permute::Partitions>
-
-=item L<Math::Subsets::List>
-
-=item L<Math::Transform::List>
-
-=back
-
-=head1 Copyright
-
-Copyright (c) 2009-2015 Philip R Brenan.
-
-This module is free software. It may be used, redistributed and/or
-modified under the same terms as Perl itself.
-
-=cut