NASM 0.99.05
[nasm/avx512.git] / perllib / Graph / AdjacencyMap.pm
blobd2245da62d042d974de5b441dda63848fb1d148f
1 package Graph::AdjacencyMap;
3 use strict;
5 require Exporter;
6 use vars qw(@ISA @EXPORT_OK %EXPORT_TAGS);
7 @ISA = qw(Exporter);
8 @EXPORT_OK = qw(_COUNT _MULTI _COUNTMULTI _GEN_ID
9 _HYPER _UNORD _UNIQ _REF _UNORDUNIQ _UNIONFIND _LIGHT
10 _n _f _a _i _s _p _g _u _ni _nc _na _nm);
11 %EXPORT_TAGS =
12 (flags => [qw(_COUNT _MULTI _COUNTMULTI _GEN_ID
13 _HYPER _UNORD _UNIQ _REF _UNORDUNIQ _UNIONFIND _LIGHT)],
14 fields => [qw(_n _f _a _i _s _p _g _u _ni _nc _na _nm)]);
16 sub _COUNT () { 0x00000001 }
17 sub _MULTI () { 0x00000002 }
18 sub _COUNTMULTI () { _COUNT|_MULTI }
19 sub _HYPER () { 0x00000004 }
20 sub _UNORD () { 0x00000008 }
21 sub _UNIQ () { 0x00000010 }
22 sub _REF () { 0x00000020 }
23 sub _UNORDUNIQ () { _UNORD|_UNIQ }
24 sub _UNIONFIND () { 0x00000040 }
25 sub _LIGHT () { 0x00000080 }
27 my $_GEN_ID = 0;
29 sub _GEN_ID () { \$_GEN_ID }
31 sub _ni () { 0 } # Node index.
32 sub _nc () { 1 } # Node count.
33 sub _na () { 2 } # Node attributes.
34 sub _nm () { 3 } # Node map.
36 sub _n () { 0 } # Next id.
37 sub _f () { 1 } # Flags.
38 sub _a () { 2 } # Arity.
39 sub _i () { 3 } # Index to path.
40 sub _s () { 4 } # Successors / Path to Index.
41 sub _p () { 5 } # Predecessors.
42 sub _g () { 6 } # Graph (AdjacencyMap::Light)
44 sub _V () { 2 } # Graph::_V()
46 sub _new {
47 my $class = shift;
48 my $map = bless [ 0, @_ ], $class;
49 return $map;
52 sub _ids {
53 my $m = shift;
54 return $m->[ _i ];
57 sub has_paths {
58 my $m = shift;
59 return defined $m->[ _i ] && keys %{ $m->[ _i ] };
62 sub _dump {
63 my $d = Data::Dumper->new([$_[0]],[ref $_[0]]);
64 defined wantarray ? $d->Dump : print $d->Dump;
67 sub _del_id {
68 my ($m, $i) = @_;
69 my @p = $m->_get_id_path( $i );
70 $m->del_path( @p ) if @p;
73 sub _new_node {
74 my ($m, $n, $id) = @_;
75 my $f = $m->[ _f ];
76 my $i = $m->[ _n ]++;
77 if (($f & _MULTI)) {
78 $id = 0 if $id eq _GEN_ID;
79 $$n = [ $i, 0, undef, { $id => { } } ];
80 } elsif (($f & _COUNT)) {
81 $$n = [ $i, 1 ];
82 } else {
83 $$n = $i;
85 return $i;
88 sub _inc_node {
89 my ($m, $n, $id) = @_;
90 my $f = $m->[ _f ];
91 if (($f & _MULTI)) {
92 if ($id eq _GEN_ID) {
93 $$n->[ _nc ]++
94 while exists $$n->[ _nm ]->{ $$n->[ _nc ] };
95 $id = $$n->[ _nc ];
97 $$n->[ _nm ]->{ $id } = { };
98 } elsif (($f & _COUNT)) {
99 $$n->[ _nc ]++;
101 return $id;
104 sub __get_path_node {
105 my $m = shift;
106 my ($p, $k);
107 my $f = $m->[ _f ];
108 @_ = sort @_ if ($f & _UNORD);
109 if ($m->[ _a ] == 2 && @_ == 2 && !($f & (_HYPER|_REF|_UNIQ))) { # Fast path.
110 return unless exists $m->[ _s ]->{ $_[0] };
111 $p = [ $m->[ _s ], $m->[ _s ]->{ $_[0] } ];
112 $k = [ $_[0], $_[1] ];
113 } else {
114 ($p, $k) = $m->__has_path( @_ );
116 return unless defined $p && defined $k;
117 my $l = defined $k->[-1] ? $k->[-1] : "";
118 return ( exists $p->[-1]->{ $l }, $p->[-1]->{ $l }, $p, $k, $l );
121 sub set_path_by_multi_id {
122 my $m = shift;
123 my ($p, $k) = $m->__set_path( @_ );
124 return unless defined $p && defined $k;
125 my $l = defined $k->[-1] ? $k->[-1] : "";
126 return $m->__set_path_node( $p, $l, @_ );
129 sub get_multi_ids {
130 my $m = shift;
131 my $f = $m->[ _f ];
132 return () unless ($f & _MULTI);
133 my ($e, $n) = $m->__get_path_node( @_ );
134 return $e ? keys %{ $n->[ _nm ] } : ();
137 sub _has_path_attrs {
138 my $m = shift;
139 my $f = $m->[ _f ];
140 my $id = pop if ($f & _MULTI);
141 @_ = sort @_ if ($f & _UNORD);
142 $m->__attr( \@_ );
143 if (($f & _MULTI)) {
144 my ($p, $k) = $m->__has_path( @_ );
145 return unless defined $p && defined $k;
146 my $l = defined $k->[-1] ? $k->[-1] : "";
147 return keys %{ $p->[-1]->{ $l }->[ _nm ]->{ $id } } ? 1 : 0;
148 } else {
149 my ($e, $n) = $m->__get_path_node( @_ );
150 return undef unless $e;
151 return ref $n && $#$n == _na && keys %{ $n->[ _na ] } ? 1 : 0;
155 sub _set_path_attrs {
156 my $m = shift;
157 my $f = $m->[ _f ];
158 my $attr = pop;
159 my $id = pop if ($f & _MULTI);
160 @_ = sort @_ if ($f & _UNORD);
161 $m->__attr( @_ );
162 push @_, $id if ($f & _MULTI);
163 my ($p, $k) = $m->__set_path( @_ );
164 return unless defined $p && defined $k;
165 my $l = defined $k->[-1] ? $k->[-1] : "";
166 $m->__set_path_node( $p, $l, @_ ) unless exists $p->[-1]->{ $l };
167 if (($f & _MULTI)) {
168 $p->[-1]->{ $l }->[ _nm ]->{ $id } = $attr;
169 } else {
170 # Extend the node if it is a simple id node.
171 $p->[-1]->{ $l } = [ $p->[-1]->{ $l }, 1 ] unless ref $p->[-1]->{ $l };
172 $p->[-1]->{ $l }->[ _na ] = $attr;
176 sub _has_path_attr {
177 my $m = shift;
178 my $f = $m->[ _f ];
179 my $attr = pop;
180 my $id = pop if ($f & _MULTI);
181 @_ = sort @_ if ($f & _UNORD);
182 $m->__attr( \@_ );
183 if (($f & _MULTI)) {
184 my ($p, $k) = $m->__has_path( @_ );
185 return unless defined $p && defined $k;
186 my $l = defined $k->[-1] ? $k->[-1] : "";
187 exists $p->[-1]->{ $l }->[ _nm ]->{ $id }->{ $attr };
188 } else {
189 my ($e, $n) = $m->__get_path_node( @_ );
190 return undef unless $e;
191 return ref $n && $#$n == _na ? exists $n->[ _na ]->{ $attr } : undef;
195 sub _set_path_attr {
196 my $m = shift;
197 my $f = $m->[ _f ];
198 my $val = pop;
199 my $attr = pop;
200 my $id = pop if ($f & _MULTI);
201 @_ = sort @_ if ($f & _UNORD);
202 my ($p, $k);
203 $m->__attr( \@_ ); # _LIGHT maps need this to get upgraded when needed.
204 push @_, $id if ($f & _MULTI);
205 @_ = sort @_ if ($f & _UNORD);
206 if ($m->[ _a ] == 2 && @_ == 2 && !($f & (_REF|_UNIQ|_HYPER|_UNIQ))) {
207 $m->[ _s ]->{ $_[0] } ||= { };
208 $p = [ $m->[ _s ], $m->[ _s ]->{ $_[0] } ];
209 $k = [ $_[0], $_[1] ];
210 } else {
211 ($p, $k) = $m->__set_path( @_ );
213 return unless defined $p && defined $k;
214 my $l = defined $k->[-1] ? $k->[-1] : "";
215 $m->__set_path_node( $p, $l, @_ ) unless exists $p->[-1]->{ $l };
216 if (($f & _MULTI)) {
217 $p->[-1]->{ $l }->[ _nm ]->{ $id }->{ $attr } = $val;
218 } else {
219 # Extend the node if it is a simple id node.
220 $p->[-1]->{ $l } = [ $p->[-1]->{ $l }, 1 ] unless ref $p->[-1]->{ $l };
221 $p->[-1]->{ $l }->[ _na ]->{ $attr } = $val;
223 return $val;
226 sub _get_path_attrs {
227 my $m = shift;
228 my $f = $m->[ _f ];
229 my $id = pop if ($f & _MULTI);
230 @_ = sort @_ if ($f & _UNORD);
231 $m->__attr( \@_ );
232 if (($f & _MULTI)) {
233 my ($p, $k) = $m->__has_path( @_ );
234 return unless defined $p && defined $k;
235 my $l = defined $k->[-1] ? $k->[-1] : "";
236 $p->[-1]->{ $l }->[ _nm ]->{ $id };
237 } else {
238 my ($e, $n) = $m->__get_path_node( @_ );
239 return unless $e;
240 return $n->[ _na ] if ref $n && $#$n == _na;
241 return;
245 sub _get_path_attr {
246 my $m = shift;
247 my $f = $m->[ _f ];
248 my $attr = pop;
249 my $id = pop if ($f & _MULTI);
250 @_ = sort @_ if ($f & _UNORD);
251 $m->__attr( \@_ );
252 if (($f & _MULTI)) {
253 my ($p, $k) = $m->__has_path( @_ );
254 return unless defined $p && defined $k;
255 my $l = defined $k->[-1] ? $k->[-1] : "";
256 return $p->[-1]->{ $l }->[ _nm ]->{ $id }->{ $attr };
257 } else {
258 my ($e, $n) = $m->__get_path_node( @_ );
259 return undef unless $e;
260 return ref $n && $#$n == _na ? $n->[ _na ]->{ $attr } : undef;
264 sub _get_path_attr_names {
265 my $m = shift;
266 my $f = $m->[ _f ];
267 my $id = pop if ($f & _MULTI);
268 @_ = sort @_ if ($f & _UNORD);
269 $m->__attr( \@_ );
270 if (($f & _MULTI)) {
271 my ($p, $k) = $m->__has_path( @_ );
272 return unless defined $p && defined $k;
273 my $l = defined $k->[-1] ? $k->[-1] : "";
274 keys %{ $p->[-1]->{ $l }->[ _nm ]->{ $id } };
275 } else {
276 my ($e, $n) = $m->__get_path_node( @_ );
277 return undef unless $e;
278 return keys %{ $n->[ _na ] } if ref $n && $#$n == _na;
279 return;
283 sub _get_path_attr_values {
284 my $m = shift;
285 my $f = $m->[ _f ];
286 my $id = pop if ($f & _MULTI);
287 @_ = sort @_ if ($f & _UNORD);
288 $m->__attr( \@_ );
289 if (($f & _MULTI)) {
290 my ($p, $k) = $m->__has_path( @_ );
291 return unless defined $p && defined $k;
292 my $l = defined $k->[-1] ? $k->[-1] : "";
293 values %{ $p->[-1]->{ $l }->[ _nm ]->{ $id } };
294 } else {
295 my ($e, $n) = $m->__get_path_node( @_ );
296 return undef unless $e;
297 return values %{ $n->[ _na ] } if ref $n && $#$n == _na;
298 return;
302 sub _del_path_attrs {
303 my $m = shift;
304 my $f = $m->[ _f ];
305 my $id = pop if ($f & _MULTI);
306 @_ = sort @_ if ($f & _UNORD);
307 $m->__attr( \@_ );
308 if (($f & _MULTI)) {
309 my ($p, $k) = $m->__has_path( @_ );
310 return unless defined $p && defined $k;
311 my $l = defined $k->[-1] ? $k->[-1] : "";
312 delete $p->[-1]->{ $l }->[ _nm ]->{ $id };
313 unless (keys %{ $p->[-1]->{ $l }->[ _nm ] } ||
314 (defined $p->[-1]->{ $l }->[ _na ] &&
315 keys %{ $p->[-1]->{ $l }->[ _na ] })) {
316 delete $p->[-1]->{ $l };
318 } else {
319 my ($e, $n) = $m->__get_path_node( @_ );
320 return undef unless $e;
321 if (ref $n) {
322 $e = _na == $#$n && keys %{ $n->[ _na ] } ? 1 : 0;
323 $#$n = _na - 1;
324 return $e;
325 } else {
326 return 0;
331 sub _del_path_attr {
332 my $m = shift;
333 my $f = $m->[ _f ];
334 my $attr = pop;
335 my $id = pop if ($f & _MULTI);
336 @_ = sort @_ if ($f & _UNORD);
337 $m->__attr( \@_ );
338 if (($f & _MULTI)) {
339 my ($p, $k) = $m->__has_path( @_ );
340 return unless defined $p && defined $k;
341 my $l = defined $k->[-1] ? $k->[-1] : "";
342 delete $p->[-1]->{ $l }->[ _nm ]->{ $id }->{ $attr };
343 $m->_del_path_attrs( @_, $id )
344 unless keys %{ $p->[-1]->{ $l }->[ _nm ]->{ $id } };
345 } else {
346 my ($e, $n) = $m->__get_path_node( @_ );
347 return undef unless $e;
348 if (ref $n && $#$n == _na && exists $n->[ _na ]->{ $attr }) {
349 delete $n->[ _na ]->{ $attr };
350 return 1;
351 } else {
352 return 0;
357 sub _is_COUNT { $_[0]->[ _f ] & _COUNT }
358 sub _is_MULTI { $_[0]->[ _f ] & _MULTI }
359 sub _is_HYPER { $_[0]->[ _f ] & _HYPER }
360 sub _is_UNORD { $_[0]->[ _f ] & _UNORD }
361 sub _is_UNIQ { $_[0]->[ _f ] & _UNIQ }
362 sub _is_REF { $_[0]->[ _f ] & _REF }
364 sub __arg {
365 my $m = shift;
366 my $f = $m->[ _f ];
367 my @a = @{$_[0]};
368 if ($f & _UNIQ) {
369 my %u;
370 if ($f & _UNORD) {
371 @u{ @a } = @a;
372 @a = values %u;
373 } else {
374 my @u;
375 for my $e (@a) {
376 push @u, $e if $u{$e}++ == 0;
378 @a = @u;
381 # Alphabetic or numeric sort, does not matter as long as it unifies.
382 @{$_[0]} = ($f & _UNORD) ? sort @a : @a;
385 sub _successors {
386 my $E = shift;
387 my $g = shift;
388 my $V = $g->[ _V ];
389 map { my @v = @{ $_->[ 1 ] };
390 shift @v;
391 map { $V->_get_id_path($_) } @v } $g->_edges_from( @_ );
394 sub _predecessors {
395 my $E = shift;
396 my $g = shift;
397 my $V = $g->[ _V ];
398 if (wantarray) {
399 map { my @v = @{ $_->[ 1 ] };
400 pop @v;
401 map { $V->_get_id_path($_) } @v } $g->_edges_to( @_ );
402 } else {
403 return $g->_edges_to( @_ );
408 __END__
409 =pod
411 =head1 NAME
413 Graph::AdjacencyMap - create and a map of graph vertices or edges
415 =head1 SYNOPSIS
417 Internal.
419 =head1 DESCRIPTION
421 B<This module is meant for internal use by the Graph module.>
423 =head2 Object Methods
425 =over 4
427 =item del_path(@id)
429 Delete a Map path by ids.
431 =item del_path_by_multi_id($id)
433 Delete a Map path by a multi(vertex) id.
435 =item get_multi_ids
437 Return the multi ids.
439 =item has_path(@id)
441 Return true if the Map has the path by ids, false if not.
443 =item has_paths
445 Return true if the Map has any paths, false if not.
447 =item has_path_by_multi_id($id)
449 Return true ifd the a Map has the path by a multi(vertex) id, false if not.
451 =item paths
453 Return all the paths of the Map.
455 =item set_path(@id)
457 Set the path by @ids.
459 =item set_path_by_multi_id
461 Set the path in the Map by the multi id.
463 =back
465 =head1 AUTHOR AND COPYRIGHT
467 Jarkko Hietaniemi F<jhi@iki.fi>
469 =head1 LICENSE
471 This module is licensed under the same terms as Perl itself.
473 =cut