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############################################################################# # An edge connecting two nodes in Graph::Easy. # ############################################################################# package Graph::Easy::Edge; use Graph::Easy::Node; @ISA = qw/Graph::Easy::Node/; # an edge is just a special node $VERSION = '0.76'; use strict; use warnings; use constant isa_cell => 1; ############################################################################# sub _init { # generic init, override in subclasses my ($self,$args) = @_; $self->{class} = 'edge'; # leave this unitialized until we need it # $self->{cells} = [ ]; foreach my $k (sort keys %$args) { if ($k !~ /^(label|name|style)\z/) { require Carp; Carp::confess ("Invalid argument '$k' passed to Graph::Easy::Node->new()"); } my $n = $k; $n = 'label' if $k eq 'name'; $self->{att}->{$n} = $args->{$k}; } $self; } ############################################################################# # accessor methods sub bidirectional { my $self = shift; if (@_ > 0) { my $old = $self->{bidirectional} || 0; $self->{bidirectional} = $_[0] ? 1 : 0; # invalidate layout? $self->{graph}->{score} = undef if $old != $self->{bidirectional} && ref($self->{graph}); } $self->{bidirectional}; } sub undirected { my $self = shift; if (@_ > 0) { my $old = $self->{undirected} || 0; $self->{undirected} = $_[0] ? 1 : 0; # invalidate layout? $self->{graph}->{score} = undef if $old != $self->{undirected} && ref($self->{graph}); } $self->{undirected}; } sub has_ports { my $self = shift; my $s_port = $self->{att}->{start} || $self->attribute('start'); return 1 if $s_port ne ''; my $e_port = $self->{att}->{end} || $self->attribute('end'); return 1 if $e_port ne ''; 0; } sub start_port { # return the side and portnumber if the edge has a shared source port # undef for none my $self = shift; my $s = $self->{att}->{start} || $self->attribute('start'); return undef if !defined $s || $s !~ /,/; # "south, 0" => ok, "south" => no return (split /\s*,\s*/, $s) if wantarray; $s =~ s/\s+//g; # remove spaces to normalize "south, 0" to "south,0" $s; } sub end_port { # return the side and portnumber if the edge has a shared source port # undef for none my $self = shift; my $s = $self->{att}->{end} || $self->attribute('end'); return undef if !defined $s || $s !~ /,/; # "south, 0" => ok, "south" => no return split /\s*,\s*/, $s if wantarray; $s =~ s/\s+//g; # remove spaces to normalize "south, 0" to "south,0" $s; } sub style { my $self = shift; $self->{att}->{style} || $self->attribute('style'); } sub name { # returns actually the label my $self = shift; $self->{att}->{label} || ''; } ############################################################################# # cell management - used by the cell-based layouter sub _cells { # return all the cells this edge currently occupies my $self = shift; $self->{cells} = [] unless defined $self->{cells}; @{$self->{cells}}; } sub _clear_cells { # remove all belonging cells my $self = shift; $self->{cells} = []; $self; } sub _unplace { # Take an edge, and remove all the cells it covers from the cells area my ($self, $cells) = @_; print STDERR "# clearing path from $self->{from}->{name} to $self->{to}->{name}\n" if $self->{debug}; for my $key (@{$self->{cells}}) { # XXX TODO: handle crossed edges differently (from CROSS => HOR or VER) # free in our cells area delete $cells->{$key}; } $self->clear_cells(); $self; } sub _distance { # estimate the distance from SRC to DST node my ($self) = @_; my $src = $self->{from}; my $dst = $self->{to}; # one of them not yet placed? return 100000 unless defined $src->{x} && defined $dst->{x}; my $cells = $self->{graph}->{cells}; # get all the starting positions # distance = 1: slots, generate starting types, the direction is shifted # by 90° counter-clockwise my @start = $src->_near_places($cells, 1, undef, undef, $src->_shift(-90) ); # potential stop positions my @stop = $dst->_near_places($cells, 1); # distance = 1: slots my ($s_p,@ss_p) = $self->port('start'); my ($e_p,@ee_p) = $self->port('end'); # the edge has a port description, limiting the start places @start = $src->_allowed_places( \@start, $src->_allow( $s_p, @ss_p ), 3) if defined $s_p; # the edge has a port description, limiting the stop places @stop = $dst->_allowed_places( \@stop, $dst->_allow( $e_p, @ee_p ), 3) if defined $e_p; my $stop = scalar @stop; return 0 unless @stop > 0 && @start > 0; # no free slots on one node? my $lowest; my $i = 0; while ($i < scalar @start) { my $sx = $start[$i]; my $sy = $start[$i+1]; $i += 2; # for each start point, calculate the distance to each stop point, then use # the smallest as value for (my $u = 0; $u < $stop; $u += 2) { my $dist = Graph::Easy::_astar_distance($sx,$sy, $stop[$u], $stop[$u+1]); $lowest = $dist if !defined $lowest || $dist < $lowest; } } $lowest; } sub _add_cell { # add a cell to the list of cells this edge covers. If $after is a ref # to a cell, then the new cell will be inserted right after this cell. # if after is defined, but not a ref, the new cell will be inserted # at the specified position. my ($self, $cell, $after, $before) = @_; $self->{cells} = [] unless defined $self->{cells}; my $cells = $self->{cells}; # if both are defined, but belong to different edges, just ignore $before: $before = undef if ref($before) && $before->{edge} != $self; $after = undef if ref($after) && $after->{edge} != $self; if (!defined $after && ref($before)) { $after = $before; $before = undef; } if (defined $after) { # insert the new cell right after $after my $ofs = $after; if (ref($after) && !ref($before)) { # insert after $after $ofs = 1; for my $cell (@$cells) { last if $cell == $after; $ofs++; } } elsif (ref($after) && ref($before)) { # insert between after and before (or before/after for "reversed edges) $ofs = 0; my $found = 0; while ($ofs < scalar @$cells - 1) # 0,1,2,3 => 0 .. 2 { my $c1 = $cells->[$ofs]; my $c2 = $cells->[$ofs+1]; $ofs++; $found++, last if (($c1 == $after && $c2 == $before) || ($c1 == $before && $c2 == $after)); } if (!$found) { # XXX TODO: last effort # insert after $after $ofs = 1; for my $cell (@$cells) { last if $cell == $after; $ofs++; } $found++; } $self->_croak("Could not find $after and $before") unless $found; } splice (@$cells, $ofs, 0, $cell); } else { # insert new cell at the end push @$cells, $cell; } $cell->_update_boundaries(); $self; } ############################################################################# sub from { my $self = shift; $self->{from}; } sub to { my $self = shift; $self->{to}; } sub nodes { my $self = shift; ($self->{from}, $self->{to}); } sub start_at { # move the edge's start point from the current node to the given node my ($self, $node) = @_; # if not a node yet, or not part of this graph, make into one proper node $node = $self->{graph}->add_node($node); $self->_croak("start_at() needs a node object, but got $node") unless ref($node) && $node->isa('Graph::Easy::Node'); # A => A => nothing to do return $node if $self->{from} == $node; # delete self at A delete $self->{from}->{edges}->{ $self->{id} }; # set "from" to B $self->{from} = $node; # add to B $self->{from}->{edges}->{ $self->{id} } = $self; # invalidate layout $self->{graph}->{score} = undef if ref($self->{graph}); # return new start point $node; } sub end_at { # move the edge's end point from the current node to the given node my ($self, $node) = @_; # if not a node yet, or not part of this graph, make into one proper node $node = $self->{graph}->add_node($node); $self->_croak("start_at() needs a node object, but got $node") unless ref($node) && $node->isa('Graph::Easy::Node'); # A => A => nothing to do return $node if $self->{to} == $node; # delete self at A delete $self->{to}->{edges}->{ $self->{id} }; # set "to" to B $self->{to} = $node; # add to node B $self->{to}->{edges}->{ $self->{id} } = $self; # invalidate layout $self->{graph}->{score} = undef if ref($self->{graph}); # return new end point $node; } sub edge_flow { # return the flow at this edge or '' if the edge itself doesn't have a flow my $self = shift; # our flow comes from ourselves my $flow = $self->{att}->{flow}; $flow = $self->raw_attribute('flow') unless defined $flow; $flow; } sub flow { # return the flow at this edge (including inheriting flow from node) my ($self) = @_; # print STDERR "# flow from $self->{from}->{name} to $self->{to}->{name}\n"; # our flow comes from ourselves my $flow = $self->{att}->{flow}; # or maybe our class $flow = $self->raw_attribute('flow') unless defined $flow; # if the edge doesn't have a flow, maybe the node has a default out flow $flow = $self->{from}->{att}->{flow} if !defined $flow; # if that didn't work out either, use the parents flows $flow = $self->parent()->attribute('flow') if !defined $flow; # or finally, the default "east": $flow = 90 if !defined $flow; # absolute flow does not depend on the in-flow, so can return early return $flow if $flow =~ /^(0|90|180|270)\z/; # in-flow comes from our "from" node my $in = $self->{from}->flow(); # print STDERR "# in: $self->{from}->{name} = $in\n"; my $out = $self->{graph}->_flow_as_direction($in,$flow); $out; } sub port { my ($self, $which) = @_; $self->_croak("'$which' must be one of 'start' or 'end' in port()") unless $which =~ /^(start|end)/; # our flow comes from ourselves my $sp = $self->attribute($which); return (undef,undef) unless defined $sp && $sp ne ''; my ($side, $port) = split /\s*,\s*/, $sp; # if absolut direction, return as is my $s = Graph::Easy->_direction_as_side($side); if (defined $s) { my @rc = ($s); push @rc, $port if defined $port; return @rc; } # in_flow comes from our "from" node my $in = 90; $in = $self->{from}->flow() if ref($self->{from}); # turn left in "south" etc: $s = Graph::Easy->_flow_as_side($in,$side); my @rc = ($s); push @rc, $port if defined $port; @rc; } sub flip { # swap from and to for this edge my ($self) = @_; ($self->{from}, $self->{to}) = ($self->{to}, $self->{from}); # invalidate layout $self->{graph}->{score} = undef if ref($self->{graph}); $self; } sub as_ascii { my ($self, $x,$y) = @_; # invisible nodes, or very small ones return '' if $self->{w} == 0 || $self->{h} == 0; my $fb = $self->_framebuffer($self->{w}, $self->{h}); ########################################################################### # "draw" the label into the framebuffer (e.g. the edge and the text) $self->_draw_label($fb, $x, $y, ''); join ("\n", @$fb); } sub as_txt { require Graph::Easy::As_ascii; _as_txt(@_); } 1; __END__ =head1 NAME Graph::Easy::Edge - An edge (a path connecting one ore more nodes) =head1 SYNOPSIS use Graph::Easy; my $ssl = Graph::Easy::Edge->new( label => 'encrypted connection', style => 'solid', ); $ssl->set_attribute('color', 'red'); my $src = Graph::Easy::Node->new('source'); my $dst = Graph::Easy::Node->new('destination'); $graph = Graph::Easy->new(); $graph->add_edge($src, $dst, $ssl); print $graph->as_ascii(); =head1 DESCRIPTION A C<Graph::Easy::Edge> represents an edge between two (or more) nodes in a simple graph. Each edge has a direction (from source to destination, or back and forth), plus a style (line width and style), colors etc. It can also have a label, e.g. a text associated with it. During the layout phase, each edge also contains a list of path-elements (also called cells), which make up the path from source to destination. =head1 METHODS =head2 error() $last_error = $edge->error(); $cvt->error($error); # set new messages $cvt->error(''); # clear error Returns the last error message, or '' for no error. =head2 as_ascii() my $ascii = $edge->as_ascii(); Returns the edge as a little ascii representation. =head2 as_txt() my $txt = $edge->as_txt(); Returns the edge as a little Graph::Easy textual representation. =head2 label() my $label = $edge->label(); Returns the label (also known as 'name') of the edge. =head2 name() my $label = $edge->name(); To make the interface more consistent, the C<name()> method of an edge can also be called, and it will returned either the edge label, or the empty string if the edge doesn't have a label. =head2 style() my $style = $edge->style(); Returns the style of the edge, like 'solid', 'dotted', 'double', etc. =head2 nodes() my @nodes = $edge->nodes(); Returns the source and target node that this edges connects as objects. =head2 bidirectional() $edge->bidirectional(1); if ($edge->bidirectional()) { } Returns true if the edge is bidirectional, aka has arrow heads on both ends. An optional parameter will set the bidirectional status of the edge. =head2 undirected() $edge->undirected(1); if ($edge->undirected()) { } Returns true if the edge is undirected, aka has now arrow at all. An optional parameter will set the undirected status of the edge. =head2 has_ports() if ($edge->has_ports()) { ... } Return true if the edge has restriction on the starting or ending port, e.g. either the C<start> or C<end> attribute is set on this edge. =head2 start_port() my $port = $edge->start_port(); Return undef if the edge does not have a fixed start port, otherwise returns the port as "side, number", for example "south, 0". =head2 end_port() my $port = $edge->end_port(); Return undef if the edge does not have a fixed end port, otherwise returns the port as "side, number", for example "south, 0". =head2 from() my $from = $edge->from(); Returns the node that this edge starts at. See also C<to()>. =head2 to() my $to = $edge->to(); Returns the node that this edge leads to. See also C<from()>. =head2 start_at() $edge->start_at($other); my $other = $edge->start_at('some node'); Set the edge's start point to the given node. If given a node name, will add that node to the graph first. Returns the new edge start point node. =head2 end_at() $edge->end_at($other); my $other = $edge->end_at('some other node'); Set the edge's end point to the given node. If given a node name, will add that node to the graph first. Returns the new edge end point node. =head2 flip() $edge->flip(); Swaps the C<start> and C<end> nodes on this edge, e.g. reverses the direction of the edge. X<transpose> =head2 flow() my $flow = $edge->flow(); Returns the flow for this edge, honoring inheritance. An edge without a specific flow set will inherit the flow from the node it comes from. =head2 edge_flow() my $flow = $edge->edge_flow(); Returns the flow for this edge, or undef if it has none set on either the object itself or its class. =head2 port() my ($side, $number) = $edge->port('start'); my ($side, $number) = $edge->port('end'); Return the side and port number where this edge starts or ends. Returns undef for $side if the edge has no port restriction. The returned side will be one absolute direction of C<east>, C<west>, C<north> or C<south>, depending on the port restriction and flow at that edge. =head2 get_attributes() my $att = $object->get_attributes(); Return all effective attributes on this object (graph/node/group/edge) as an anonymous hash ref. This respects inheritance and default values. See also L<raw_attributes()>. =head2 raw_attributes() my $att = $object->get_attributes(); Return all set attributes on this object (graph/node/group/edge) as an anonymous hash ref. This respects inheritance, but does not include default values for unset attributes. See also L<get_attributes()>. =head2 attribute related methods You can call all the various attribute related methods like C<set_attribute()>, C<get_attribute()>, etc. on an edge, too. For example: $edge->set_attribute('label', 'by train'); my $attr = $edge->get_attributes(); my $raw_attr = $edge->raw_attributes(); You can find more documentation in L<Graph::Easy>. =head1 EXPORT None by default. =head1 SEE ALSO L<Graph::Easy>. =head1 AUTHOR Copyright (C) 2004 - 2008 by Tels L<http://bloodgate.com>. See the LICENSE file for more details. =cut