use Graph::Undirected;
-my $dists= Graph::Undirected->new();
-my $archs= Graph::Undirected->new();
-my @arch_labels;
-my %islandname;
+use CommodsDatabase;
-open PO, ">/dev/null" or die $!;
+my $widists= Graph::Undirected->new();
+my $wiarchs= Graph::Undirected->new();
+my @wiarchlabels;
+my %wiisland2node;
+my %winode2island;
+my %wiisland2arch;
+my %winode2lines;
+my %wiccix2arch;
-sub nn_xy ($$) { return "n$_[0]x$_[1]"; }
+my $dbdists= Graph::Undirected->new();
+my %dbisland2arch;
+
+my %msgcount;
+sub perr ($$) { print STDERR "$_[0]: $_[1]\n"; $msgcount{$_[0]}++; }
+sub warning ($) { perr("warning",$_[0]); }
+sub error ($) { perr("error", $_[0]); }
+sub change ($) { perr("change", $_[0]); }
+
+if ($ARGV[0] eq '--debug') {
+ shift @ARGV;
+ open DEBUG, ">&STDOUT" or die $!;
+ select(DEBUG); $|=1;
+} else {
+ open DEBUG, ">/dev/null" or die $!;
+}
+select(STDOUT); $|=1;
+
+my $parity;
+sub nn_xy ($$) {
+ my ($x,$y) = @_;
+ my $tp= (0+$x ^ 0+$y) & 1;
+ defined $parity or $parity=$tp;
+ $tp==$parity or warning("line $.: parity error $x,$y is $tp not $parity");
+ my $n= "$_[0],$_[1]";
+ $winode2lines{$n}{$.}++;
+ return $n;
+}
sub parse_yppedia_map () {
# We don't even bother with tag soup; instead we do line-oriented parsing.
if (($x,$y,$arch) =
m/^\{\{ chart\ label \|(\d+)\|(\d+)\| .*
\'\[\[ [^][\']* \| (\S+)\ archipelago \]\]\'*\}\}$/xi) {
- printf PO "%d,%d arch %s\n", $x,$y,$arch;
- push @arch_labels, [ $x,$y,$arch ];
+ printf DEBUG "%2d,%-2d arch %s\n", $x,$y,$arch;
+ push @wiarchlabels, [ $x,$y,$arch ];
} elsif (($x,$y,$island) =
m/^\{\{ chart\ island\ icon \|(\d+)\|(\d+)\|
- (\S.*\S) \| .*\}\}$/xi) {
- $islandname{$nn->()}= $island;
- $dists->add_vertex($nn->());
- $archs->add_vertex($nn->());
- printf PO "%d,%d island %s\n", $x,$y,$island;
+ ([^| ][^|]*[^| ]) \| .*\}\}$/xi) {
+ my $n= $nn->();
+ $wiisland2node{$island}= $n;
+ $winode2island{$n}= $island;
+ $widists->add_vertex($n);
+ $wiarchs->add_vertex($n);
+#print "\$g->add_vertex('$n');\n";
+ printf DEBUG "%2d,%-2d island %s\n", $x,$y,$island;
} elsif (($solid,$x,$y,$dirn) =
m/^\{\{ chart\ league((?:\ solid)?) \|(\d+)\|(\d+)\|
([-\/\\o]) \| .*\}\}$/xi) {
my ($bx,$by) = ($x,$y);
if ($dirn eq '-') { $bx+=2; }
elsif ($dirn eq '\\') { $bx++; $by++; }
- elsif ($dirn eq '/') { $bx--; $by++; }
+ elsif ($dirn eq '/') { $x++; $by++; }
else { die; }
- $dists->add_edge($nn->(), nn_xy($bx,$by));
- $archs->add_edge($nn->(), nn_xy($bx,$by)) if $solid;
+ $widists->add_weighted_edge($nn->(), nn_xy($bx,$by), 1);
+ $wiarchs->add_edge($nn->(), nn_xy($bx,$by)) if $solid;
+ $wiarchs->add_edge($nn->(), nn_xy($bx,$by)) if $solid;
+#print "\$g->add_edge('".$nn->()."','".nn_xy($bx,$by)."');\n" if $solid;
- printf PO "%d,%d league %s %s \n", $x,$y,
+ printf DEBUG "%2d,%-2d league %-6s %s\n", $x,$y,
$solid?'solid':'dotted', $dirn;
} elsif (
m/^\{\{ chart\ head \}\}$/xi
) {
next;
} else {
- warn "line $.: ignoring incomprehensible: $_\n";
+ warning("line $.: ignoring incomprehensible: $_");
+ }
+ }
+}
+
+sub parse_database_map () {
+ my ($row,$sth);
+ $sth= $dbh->prepare('SELECT islandname, archipelago FROM islands');
+ $sth->execute();
+ while ($row= $sth->fetchrow_hashref) {
+ print DEBUG "database-island $row->{'islandname'}".
+ " $row->{'archipelago'}\n";
+ $dbisland2arch{$row->{'islandname'}}= $row->{'archipelago'};
+ }
+ $sth= $dbh->prepare('SELECT dist, a.islandname a, b.islandname b
+ FROM dists
+ JOIN islands AS a ON dists.aiid==a.islandid
+ JOIN islands AS b ON dists.biid==b.islandid');
+ $sth->execute();
+ while ($row= $sth->fetchrow_hashref) {
+ $dbdists->add_weighted_edge($row->{'a'}, $row->{'b'}, $row->{'dist'});
+ }
+}
+
+sub process_yppedia_graphs () {
+ # Prune the LP database by eliminating boring intermediate vertices
+ foreach my $delete ($widists->vertices()) {
+ next if exists $winode2island{$delete};
+ my @neigh= $widists->neighbours($delete);
+ next unless @neigh==2;
+# my @aneigh= $wiarchs->has_vertex($delete)
+# ? $wiarchs->neighbours($delete) : ();
+# next unless @aneigh==0 || @aneigh==2;
+ my $weight= 0;
+ map { $weight += $widists->get_edge_weight($delete, $_) } @neigh;
+ $widists->add_weighted_edge(@neigh, $weight);
+ $widists->delete_vertex($delete);
+ printf DEBUG "%-5s elide %5s %-5s %2d\n", $delete, @neigh, $weight;
+ }
+
+ # Check that it's connected.
+ foreach my $cc ($widists->connected_components()) {
+ next if 2*@$cc > $widists->vertices();
+ my $m= "disconnected league point(s):";
+ foreach my $n (@$cc) {
+ $m .= "\n LP $n, def. yppedia line(s): ".
+ join(',', sort keys %{ $winode2lines{$n} });
+ }
+ warning($m);
+ }
+
+ # Compute all-pairs-shortest-paths on dist, which is the
+ # actual distances between all LPs.
+ my $wialldists= $widists->APSP_Floyd_Warshall();
+
+ # Assign archipelago labels to groups of islands
+ foreach my $label (@wiarchlabels) {
+ my ($ax,$ay,$arch) = @$label;
+ my $best_ccmulti= -1;
+ my $best_d2= 0;
+ my $best_n;
+# print DEBUG "$ax,$ay arch-island-search $arch\n";
+ $ay += 1; $ax += 2; # coords are rather to the top left of label
+ foreach my $vertex ($wiarchs->vertices()) {
+ next unless exists $winode2island{$vertex};
+ my $ccix= $wiarchs->connected_component_by_vertex($vertex);
+ my @cc= $wiarchs->connected_component_by_index($ccix);
+ my $ccmulti= @cc > 1;
+ my ($vx,$vy) = split /,/, $vertex;
+ my $d2= ($vx-$ax)*($vx-$ax) + ($vy-$ay)*($vy-$ay);
+ my $cmp= $ccmulti <=> $best_ccmulti
+ || $best_d2 <=> $d2;
+ printf DEBUG "%2d,%-2d arch-island-search %5s d2=%4d ccix=%-2d".
+ " cc=%2d ccmulti=%d cmp=%-2d %s\n",
+ $ax,$ay, $vertex, $d2, $ccix, scalar(@cc), $ccmulti, $cmp,
+ $winode2island{$vertex};
+ next unless $cmp > 0;
+ $best_n= $vertex;
+ $best_d2= $d2;
+ $best_ccmulti= $ccmulti;
+ }
+ die 'no island vertices?!' unless defined $best_n;
+ printf DEBUG "%2d,%-2d arch-island-select %-5s d2=%-2d %-10s %s\n",
+ $ax,$ay, $best_n, $best_d2, $arch, $winode2island{$best_n};
+ my $ccix= $wiarchs->connected_component_by_vertex($best_n);
+ my $desc= join "\n", map {
+ my $in= $winode2island{$_};
+ " LP $_". (defined $in ? ", $in" : "");
+ } sort $wiarchs->connected_component_by_index($ccix);
+
+ if (exists $wiccix2arch{$ccix}) {
+ error("archipelago determination failed, wrongly merged:\n".
+ " archipelago $arch\n".
+ " archipelago $wiccix2arch{$ccix}\n".
+ $desc);
+ next;
+ }
+ $wiccix2arch{$ccix}= $arch;
+# print "$ccix $arch ::\n$desc\n";
+ }
+
+ # Assign islands not labelled above to archipelagoes.
+ #
+ # We do this by, for each connected component (set of islands
+ # linked by purchaseable charts), searching for the nearest other
+ # connected component which has already been assigned an arch.
+ # `Nearest' means shortest distance of unpurchaseable charts, in
+ # leagues.
+
+ # fixme need some hints
+
+ # we need only consider vertices which weren't `boring intermediate
+ # vertices' (removed during optimisation as being of order 2)
+ my @ccs_useful= map {
+ [ grep { $widists->has_vertex($_) } @$_ ]
+ } $wiarchs->connected_components();
+
+ foreach my $sourceccix (0..$#ccs_useful) {
+ next if defined $wiccix2arch{$sourceccix};
+
+ my $sourcecc= $ccs_useful[$sourceccix];
+ my @islandnodes= grep { $winode2island{$_} } @$sourcecc;
+ next unless @islandnodes; # don't care, then
+
+ my $best_dist= 9999999;
+ my $best_target;
+ foreach my $targetccix (0..$#ccs_useful) {
+ next unless defined $wiccix2arch{$targetccix}; # not helpful
+ my $targetcc= $ccs_useful[$targetccix];
+ foreach my $target (@$targetcc) {
+ foreach my $source (@$sourcecc) {
+ my $target_dist= $wialldists->path_length($target,$source);
+ next if $target_dist >= $best_dist;
+ $best_dist= $target_dist;
+ $best_target= $target;
+ }
+ }
+ }
+# die "no possible target ?!" unless defined $best_target;
+#
+# printf DEBUG "
+#
+# foreach my $node (sort keys %winode2island) {
+# my $island= $winode2island{$node};
+# my $arch= winode2arch($node);
+# next if defined $arch;
+# my $ccix= $wiarchs->connected_component_by_vertex($node);
+# my @cc= $wiarchs->connected_component_by_index($ccix);
+# @cc= grep { defined $winode2island{$_} } @cc;
+# # We search for the best:
+# # - member of this connected component
+ }
+}
+
+sub winode2arch ($) {
+ my ($node) = @_;
+ my $ccix= $wiarchs->connected_component_by_vertex($node);
+ return $wiccix2arch{$ccix};
+}
+sub wiisland2arch ($) {
+ my ($island) = @_;
+ my $node= $wiisland2node{$island};
+ die "$island ?" unless defined $node;
+ return winode2arch($node);
+}
+
+sub compare_island_lists () {
+ foreach my $island (sort keys %dbisland2arch) {
+ my $node= $wiisland2node{$island};
+ if (!defined $node) {
+ error("would delete island: $island");
+ next;
+ }
+ my $wiarch= winode2arch($node);
+ if (!defined $wiarch) {
+ error("island has no arch: $island");
+ next;
+ }
+ my $dbarch= $dbisland2arch{$island};
+ if ($wiarch ne $dbarch) {
+ change("change archipelago from $dbarch to $wiarch".
+ " for island $island");
+ }
+ }
+ foreach my $island (sort keys %wiisland2node) {
+ my $dbarch= $dbisland2arch{$island};
+ if (!defined $dbarch) {
+ my $wiarch= wiisland2arch($island);
+ if (!defined $wiarch) {
+ error("new island has no arch: $island");
+ next;
+ # We check arches of non-new islands above
+ }
+ change("new island in $wiarch: $island");
}
}
}
+db_setocean('Midnight');
+db_connect();
parse_yppedia_map();
+parse_database_map();
+process_yppedia_graphs();
+compare_island_lists();