NASM 2.01rc1
[nasm/avx512.git] / perllib / Graph / AdjacencyMatrix.pm
blob6c648fec0e2c0462ff1b7baf9c2c418d3d7fc1d8
1 package Graph::AdjacencyMatrix;
3 use strict;
5 use Graph::BitMatrix;
6 use Graph::Matrix;
8 use base 'Graph::BitMatrix';
10 use Graph::AdjacencyMap qw(:flags :fields);
12 sub _V () { 2 } # Graph::_V
13 sub _E () { 3 } # Graph::_E
15 sub new {
16 my ($class, $g, %opt) = @_;
17 my $n;
18 my @V = $g->vertices;
19 my $want_distance;
20 if (exists $opt{distance_matrix}) {
21 $want_distance = $opt{distance_matrix};
22 delete $opt{distance_matrix};
24 my $d = Graph::_defattr();
25 if (exists $opt{attribute_name}) {
26 $d = $opt{attribute_name};
27 $want_distance++;
29 delete $opt{attribute_name};
30 my $want_transitive = 0;
31 if (exists $opt{is_transitive}) {
32 $want_transitive = $opt{is_transitive};
33 delete $opt{is_transitive};
35 Graph::_opt_unknown(\%opt);
36 if ($want_distance) {
37 $n = Graph::Matrix->new($g);
38 for my $v (@V) { $n->set($v, $v, 0) }
40 my $m = Graph::BitMatrix->new($g, connect_edges => $want_distance);
41 if ($want_distance) {
42 # for my $u (@V) {
43 # for my $v (@V) {
44 # if ($g->has_edge($u, $v)) {
45 # $n->set($u, $v,
46 # $g->get_edge_attribute($u, $v, $d));
47 # }
48 # }
49 # }
50 my $Vi = $g->[_V]->[_i];
51 my $Ei = $g->[_E]->[_i];
52 my %V; @V{ @V } = 0 .. $#V;
53 my $n0 = $n->[0];
54 my $n1 = $n->[1];
55 if ($g->is_undirected) {
56 for my $e (keys %{ $Ei }) {
57 my ($i0, $j0) = @{ $Ei->{ $e } };
58 my $i1 = $V{ $Vi->{ $i0 } };
59 my $j1 = $V{ $Vi->{ $j0 } };
60 my $u = $V[ $i1 ];
61 my $v = $V[ $j1 ];
62 $n0->[ $i1 ]->[ $j1 ] =
63 $g->get_edge_attribute($u, $v, $d);
64 $n0->[ $j1 ]->[ $i1 ] =
65 $g->get_edge_attribute($v, $u, $d);
67 } else {
68 for my $e (keys %{ $Ei }) {
69 my ($i0, $j0) = @{ $Ei->{ $e } };
70 my $i1 = $V{ $Vi->{ $i0 } };
71 my $j1 = $V{ $Vi->{ $j0 } };
72 my $u = $V[ $i1 ];
73 my $v = $V[ $j1 ];
74 $n0->[ $i1 ]->[ $j1 ] =
75 $g->get_edge_attribute($u, $v, $d);
79 bless [ $m, $n, [ @V ] ], $class;
82 sub adjacency_matrix {
83 my $am = shift;
84 $am->[0];
87 sub distance_matrix {
88 my $am = shift;
89 $am->[1];
92 sub vertices {
93 my $am = shift;
94 @{ $am->[2] };
97 sub is_adjacent {
98 my ($m, $u, $v) = @_;
99 $m->[0]->get($u, $v) ? 1 : 0;
102 sub distance {
103 my ($m, $u, $v) = @_;
104 defined $m->[1] ? $m->[1]->get($u, $v) : undef;
108 __END__
109 =pod
111 =head1 NAME
113 Graph::AdjacencyMatrix - create and query the adjacency matrix of graph G
115 =head1 SYNOPSIS
117 use Graph::AdjacencyMatrix;
118 use Graph::Directed; # or Undirected
120 my $g = Graph::Directed->new;
121 $g->add_...(); # build $g
123 my $am = Graph::AdjacencyMatrix->new($g);
124 $am->is_adjacent($u, $v)
126 my $am = Graph::AdjacencyMatrix->new($g, distance_matrix => 1);
127 $am->distance($u, $v)
129 my $am = Graph::AdjacencyMatrix->new($g, attribute_name => 'length');
130 $am->distance($u, $v)
132 my $am = Graph::AdjacencyMatrix->new($g, ...);
133 my @V = $am->vertices();
135 =head1 DESCRIPTION
137 You can use C<Graph::AdjacencyMatrix> to compute the adjacency matrix
138 and optionally also the distance matrix of a graph, and after that
139 query the adjacencyness between vertices by using the C<is_adjacent()>
140 method, or query the distance between vertices by using the
141 C<distance()> method.
143 By default the edge attribute used for distance is C<w>, but you
144 can change that in new(), see below.
146 If you modify the graph after creating the adjacency matrix of it,
147 the adjacency matrix and the distance matrix may become invalid.
149 =head1 Methods
151 =head2 Class Methods
153 =over 4
155 =item new($g)
157 Construct the adjacency matrix of the graph $g.
159 =item new($g, options)
161 Construct the adjacency matrix of the graph $g with options as a hash.
162 The known options are
164 =over 8
166 =item distance_matrix => boolean
168 By default only the adjacency matrix is computed. To compute also the
169 distance matrix, use the attribute C<distance_matrix> with a true value
170 to the new() constructor.
172 =item attribute_name => attribute_name
174 By default the edge attribute used for distance is C<w>. You can
175 change that by giving another attribute name with the C<attribute_name>
176 attribute to new() constructor. Using this attribute also implicitly
177 causes the distance matrix to be computed.
179 =back
181 =back
183 =head2 Object Methods
185 =over 4
187 =item is_adjacent($u, $v)
189 Return true if the vertex $v is adjacent to vertex $u, or false if not.
191 =item distance($u, $v)
193 Return the distance between the vertices $u and $v, or C<undef> if
194 the vertices are not adjacent.
196 =item adjacency_matrix
198 Return the adjacency matrix itself (a list of bitvector scalars).
200 =item vertices
202 Return the list of vertices (useful for indexing the adjacency matrix).
204 =back
206 =head1 ALGORITHM
208 The algorithm used to create the matrix is two nested loops, which is
209 O(V**2) in time, and the returned matrices are O(V**2) in space.
211 =head1 SEE ALSO
213 L<Graph::TransitiveClosure>, L<Graph::BitMatrix>
215 =head1 AUTHOR AND COPYRIGHT
217 Jarkko Hietaniemi F<jhi@iki.fi>
219 =head1 LICENSE
221 This module is licensed under the same terms as Perl itself.
223 =cut