=item B<as_svg>
-print $graph->as_svg( $recalculate );
+print $collation->as_svg();
Returns an SVG string that represents the graph, via as_dot and graphviz.
return $svg;
}
+=item B<svg_subgraph>
+
+print $collation->svg_subgraph( $from, $to )
+
+Returns an SVG string that represents the portion of the graph given by the
+specified range. The $from and $to variables refer to ranks within the graph.
+
+=cut
+
+sub svg_subgraph {
+ my( $self, $from, $to ) = @_;
+
+ my $dot = $self->as_dot( $from, $to );
+ unless( $dot ) {
+ warn "Could not output a graph with range $from - $to";
+ return;
+ }
+
+ my @cmd = qw/dot -Tsvg/;
+ my( $svg, $err );
+ my $dotfile = File::Temp->new();
+ ## TODO REMOVE
+ # $dotfile->unlink_on_destroy(0);
+ binmode $dotfile, ':utf8';
+ print $dotfile $dot;
+ push( @cmd, $dotfile->filename );
+ run( \@cmd, ">", binary(), \$svg );
+ $svg = decode_utf8( $svg );
+ return $svg;
+}
+
+
=item B<as_dot>
-print $graph->as_dot( $view, $recalculate );
+print $collation->as_dot();
Returns a string that is the collation graph expressed in dot
(i.e. GraphViz) format. The 'view' argument determines what kind of
=cut
sub as_dot {
- my( $self, $view ) = @_;
- $view = 'sequence' unless $view;
+ my( $self, $startrank, $endrank ) = @_;
+
+ # Check the arguments
+ if( $startrank ) {
+ return if $endrank && $startrank > $endrank;
+ return if $startrank > $self->end->rank;
+ }
+ if( defined $endrank ) {
+ return if $endrank < 0;
+ }
+
# TODO consider making some of these things configurable
my $graph_name = $self->tradition->name;
$graph_name =~ s/[^\w\s]//g;
$dot .= sprintf( "\tnode [ fontsize=%d, fillcolor=%s, style=%s, shape=%s ];\n",
11, "white", "filled", "ellipse" );
+ # Output substitute start/end readings if necessary
+ if( $startrank ) {
+ $dot .= "\t\"#SUBSTART#\" [ label=\"...\" ];\n";
+ }
+ if( $endrank ) {
+ $dot .= "\t\"#SUBEND#\" [ label=\"...\" ];\n";
+ }
+ my %used; # Keep track of the readings that actually appear in the graph
+ my %subedges;
+ my %subend;
foreach my $reading ( $self->readings ) {
+ # Only output readings within our rank range.
+ next if $startrank && $reading->rank < $startrank;
+ next if $endrank && $reading->rank > $endrank;
+ $used{$reading->id} = 1;
+ $subedges{$reading->id} = '#SUBSTART#'
+ if $startrank && $startrank == $reading->rank;
+ $subedges{$reading->id} = '#SUBEND#'
+ if $endrank && $endrank == $reading->rank;
# Need not output nodes without separate labels
next if $reading->id eq $reading->text;
my $label = $reading->text;
$dot .= sprintf( "\t\"%s\" [ label=\"%s\" ];\n", $reading->id, $label );
}
- # TODO do something sensible for relationships
-
- my @edges = $self->paths;
- foreach my $edge ( @edges ) {
- my %variables = ( 'color' => '#000000',
+ # Add substitute start and end edges if necessary
+ foreach my $node ( keys %subedges ) {
+ my @vector = ( $subedges{$node}, $node );
+ @vector = reverse( @vector ) if $vector[0] =~ /END/;
+ my $witstr = join( ', ', sort $self->reading_witnesses( $self->reading( $node ) ) );
+ my %variables = ( 'color' => '#000000',
'fontcolor' => '#000000',
- 'label' => join( ', ', $self->path_display_label( $edge ) ),
+ 'label' => $witstr,
);
my $varopts = join( ', ', map { $_.'="'.$variables{$_}.'"' } sort keys %variables );
- # Account for the rank gap if necessary
- my $rankgap = $self->reading( $edge->[1] )->rank
- - $self->reading( $edge->[0] )->rank;
- $varopts .= ", minlen=$rankgap" if $rankgap > 1;
- $dot .= sprintf( "\t\"%s\" -> \"%s\" [ %s ];\n",
- $edge->[0], $edge->[1], $varopts );
+ $dot .= sprintf( "\t\"%s\" -> \"%s\" [ %s ];\n", @vector, $varopts );
+ }
+
+ # Add the real edges
+ my @edges = $self->paths;
+ foreach my $edge ( @edges ) {
+ # Do we need to output this edge?
+ if( $used{$edge->[0]} && $used{$edge->[1]} ) {;
+ my %variables = ( 'color' => '#000000',
+ 'fontcolor' => '#000000',
+ 'label' => join( ', ', $self->path_display_label( $edge ) ),
+ );
+ my $varopts = join( ', ', map { $_.'="'.$variables{$_}.'"' } sort keys %variables );
+ # Account for the rank gap if necessary
+ my $rankgap = $self->reading( $edge->[1] )->rank
+ - $self->reading( $edge->[0] )->rank;
+ $varopts .= ", minlen=$rankgap" if $rankgap > 1;
+ $dot .= sprintf( "\t\"%s\" -> \"%s\" [ %s ];\n",
+ $edge->[0], $edge->[1], $varopts );
+ }
}
+
$dot .= "}\n";
return $dot;
}
=item B<as_graphml>
-print $graph->as_graphml( $recalculate )
+print $collation->as_graphml( $recalculate )
Returns a GraphML representation of the collation graph, with
transposition information and position information. Unless
=item B<as_csv>
-print $graph->as_csv( $recalculate )
+print $collation->as_csv( $recalculate )
Returns a CSV alignment table representation of the collation graph, one
row per witness (or witness uncorrected.)
=item B<make_alignment_table>
-my $table = $graph->make_alignment_table( $use_refs, \@wits_to_include )
+my $table = $collation->make_alignment_table( $use_refs, \@wits_to_include )
Return a reference to an alignment table, in a slightly enhanced CollateX
format which looks like this:
=item B<reading_sequence>
-my @readings = $graph->reading_sequence( $first, $last, $path[, $alt_path] );
+my @readings = $collation->reading_sequence( $first, $last, $path[, $alt_path] );
Returns the ordered list of readings, starting with $first and ending
with $last, along the given witness path. If no path is specified,
=item B<next_reading>
-my $next_reading = $graph->next_reading( $reading, $witpath );
+my $next_reading = $collation->next_reading( $reading, $witpath );
Returns the reading that follows the given reading along the given witness
path.
=item B<prior_reading>
-my $prior_reading = $graph->prior_reading( $reading, $witpath );
+my $prior_reading = $collation->prior_reading( $reading, $witpath );
Returns the reading that precedes the given reading along the given witness
path.
#!/usr/bin/perl
use strict; use warnings;
-use Test::More skip_all => "lemmatization disabled for now";
+use Test::More;
use lib 'lib';
use Text::Tradition;
use XML::LibXML;
my @svg_edges = $svg_xpc->findnodes( '//svg:g[@class="edge"]' );
is( scalar @svg_edges, 32, "Correct number of edges in the graph" );
-# Test for the correct common nodes
-my @common_nodes = ( '#START#' );
-push( @common_nodes, qw/ n1 n5 n6 n7 n12 n16 n19 n20 n27 / );
-my @expected_nodes = map { [ $_, 1 ] } @common_nodes;
-foreach my $idx ( qw/2 3 4 8 10 11 13 16 17 18/ ) {
- splice( @expected_nodes, $idx, 0, [ "node_null", undef ] );
-}
-my @active_nodes = $collation->lemma_readings();
-subtest 'Initial common points' => \&compare_active;
-my $string = '# when ... ... ... showers sweet with ... fruit ... ... of ... has pierced ... ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right starting text" );
-
-sub compare_active {
- is( scalar( @active_nodes ), scalar ( @expected_nodes ),
- "Arrays are same length" );
-
- foreach ( 0 .. scalar(@active_nodes)-1 ) {
- is( $active_nodes[$_]->[1], $expected_nodes[$_]->[1],
- "Element has same toggle value" );
- if( defined $active_nodes[$_]->[1] ) {
- is( $active_nodes[$_]->[0], $expected_nodes[$_]->[0],
- "Active or toggled element has same node name "
- . $active_nodes[$_]->[0] );
+# Test svg creation for a subgraph
+my $part_svg = $parser->parse_string( $collation->svg_subgraph( 15 ) ); # start, no end
+is( $part_svg->documentElement->nodeName(), 'svg', "Got an svg subgraph to end" );
+my $part_xpc = XML::LibXML::XPathContext->new( $part_svg->documentElement() );
+$part_xpc->registerNs( 'svg', 'http://www.w3.org/2000/svg' );
+@svg_nodes = $part_xpc->findnodes( '//svg:g[@class="node"]' );
+is( scalar( @svg_nodes ), 9,
+ "Correct number of nodes in the subgraph" );
+@svg_edges = $part_xpc->findnodes( '//svg:g[@class="edge"]' );
+is( scalar( @svg_edges ), 10,
+ "Correct number of edges in the subgraph" );
+open( OUT, ">test.svg" );
+print OUT $part_svg->toString();
+close OUT;
+
+$part_svg = $parser->parse_string( $collation->svg_subgraph( 10, 13 ) ); # start, no end
+is( $part_svg->documentElement->nodeName(), 'svg', "Got an svg subgraph in the middle" );
+$part_xpc = XML::LibXML::XPathContext->new( $part_svg->documentElement() );
+$part_xpc->registerNs( 'svg', 'http://www.w3.org/2000/svg' );
+@svg_nodes = $part_xpc->findnodes( '//svg:g[@class="node"]' );
+is( scalar( @svg_nodes ), 9,
+ "Correct number of nodes in the subgraph" );
+@svg_edges = $part_xpc->findnodes( '//svg:g[@class="edge"]' );
+is( scalar( @svg_edges ), 11,
+ "Correct number of edges in the subgraph" );
+
+
+$part_svg = $parser->parse_string( $collation->svg_subgraph( 0, 5 ) ); # start, no end
+is( $part_svg->documentElement->nodeName(), 'svg', "Got an svg subgraph from start" );
+$part_xpc = XML::LibXML::XPathContext->new( $part_svg->documentElement() );
+$part_xpc->registerNs( 'svg', 'http://www.w3.org/2000/svg' );
+@svg_nodes = $part_xpc->findnodes( '//svg:g[@class="node"]' );
+is( scalar( @svg_nodes ), 7,
+ "Correct number of nodes in the subgraph" );
+@svg_edges = $part_xpc->findnodes( '//svg:g[@class="edge"]' );
+is( scalar( @svg_edges ), 7,
+ "Correct number of edges in the subgraph" );
+
+SKIP: {
+ skip "lemmatization disabled for now", 1;
+ # Test for the correct common nodes
+ my @common_nodes = ( '#START#' );
+ push( @common_nodes, qw/ n1 n5 n6 n7 n12 n16 n19 n20 n27 / );
+ my @expected_nodes = map { [ $_, 1 ] } @common_nodes;
+ foreach my $idx ( qw/2 3 4 8 10 11 13 16 17 18/ ) {
+ splice( @expected_nodes, $idx, 0, [ "node_null", undef ] );
}
- }
-}
-
-sub make_text {
- my @words;
- foreach my $n ( @_ ) {
- if( $n->[1] ) {
- push( @words, $collation->reading( $n->[0] )->text );
- } elsif ( !defined $n->[1] ) {
- push( @words, '...' );
+ my @active_nodes = $collation->lemma_readings();
+ subtest 'Initial common points' => \&compare_active;
+ my $string = '# when ... ... ... showers sweet with ... fruit ... ... of ... has pierced ... ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right starting text" );
+
+ sub compare_active {
+ is( scalar( @active_nodes ), scalar ( @expected_nodes ),
+ "Arrays are same length" );
+
+ foreach ( 0 .. scalar(@active_nodes)-1 ) {
+ is( $active_nodes[$_]->[1], $expected_nodes[$_]->[1],
+ "Element has same toggle value" );
+ if( defined $active_nodes[$_]->[1] ) {
+ is( $active_nodes[$_]->[0], $expected_nodes[$_]->[0],
+ "Active or toggled element has same node name "
+ . $active_nodes[$_]->[0] );
+ }
+ }
}
- }
- return join( ' ', @words );
-}
-
-# Test that the common nodes are marked common
-foreach my $cn ( @common_nodes ) {
- ok( $collation->reading( $cn )->is_common, "Node $cn is marked common" );
-}
-
-# Test the manuscript paths
-my $wit_a = '# when april with his showers sweet with fruit the drought of march has pierced unto the root #';
-my $wit_b = '# when showers sweet with april fruit the march of drought has pierced to the root #';
-my $wit_c = '# when showers sweet with april fruit teh drought of march has pierced teh rood #';
-is( join( ' ', @{$tradition->witness( "A" )->text} ), $wit_a, "Correct path for witness A" );
-is( join( ' ', @{$tradition->witness( "B" )->text} ), $wit_b, "Correct path for witness B" );
-is( join( ' ', @{$tradition->witness( "C" )->text} ), $wit_c, "Correct path for witness C" );
-
-# Test the transposition identifiers
-my $transposition_pools = [ [ 'n2', 'n11' ], [ 'n14', 'n18' ],
- [ 'n17', 'n15' ] ];
-my $transposed_nodes = { 'n2' => $transposition_pools->[0],
- 'n11' => $transposition_pools->[0],
- 'n14' => $transposition_pools->[1],
- 'n15' => $transposition_pools->[2],
- 'n17' => $transposition_pools->[2],
- 'n18' => $transposition_pools->[1],
-};
-
-my $real_transposed_nodes = {};
-foreach my $r ( $collation->readings ) {
- my @same = map { $_->name } @{$r->same_as};
- $real_transposed_nodes->{ $r->name } = \@same if @same > 1;
-}
-
-is_deeply( $real_transposed_nodes, $transposed_nodes, "Found the right transpositions" );
-
-# Test turning on a node
-my @off = $collation->toggle_reading( 'n21' );
-$expected_nodes[ 16 ] = [ "n21", 1 ];
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on node for new location' => \&compare_active;
-$string = '# when ... ... ... showers sweet with ... fruit ... ... of ... has pierced unto ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-# Test the toggling effects of same-column
-@off = $collation->toggle_reading( 'n22' );
-splice( @expected_nodes, 16, 1, ( [ "n21", 0 ], [ "n22", 1 ] ) );
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on other node in that location' => \&compare_active;
-$string = '# when ... ... ... showers sweet with ... fruit ... ... of ... has pierced to ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-# Test the toggling effects of transposition
-@off = $collation->toggle_reading( 'n14' );
-# Add the turned on node
-$expected_nodes[ 11 ] = [ "n14", 1 ];
-# Remove the 'off' for the previous node
-splice( @expected_nodes, 16, 1 );
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on transposition node' => \&compare_active;
-$string = '# when ... ... ... showers sweet with ... fruit ... drought of ... has pierced to ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-@off = $collation->toggle_reading( 'n18' );
-# Toggle on the new node
-$expected_nodes[ 13 ] = [ "n18", 1 ];
-# Toggle off the transposed node
-$expected_nodes[ 11 ] = [ "n14", undef ];
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on that node\'s partner' => \&compare_active;
-$string = '# when ... ... ... showers sweet with ... fruit ... ... of drought has pierced to ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-@off = $collation->toggle_reading( 'n14' );
-# Toggle on the new node
-$expected_nodes[ 11 ] = [ "n14", 1 ];
-# Toggle off the transposed node
-$expected_nodes[ 13 ] = [ "n18", undef ];
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on the original node' => \&compare_active;
-$string = '# when ... ... ... showers sweet with ... fruit ... drought of ... has pierced to ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-@off = $collation->toggle_reading( 'n15' );
-# Toggle on the new node, and off with the old
-splice( @expected_nodes, 11, 1, [ "n14", 0 ], [ "n15", 1 ] );
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on the colocated node' => \&compare_active;
-$string = '# when ... ... ... showers sweet with ... fruit ... march of ... has pierced to ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-@off = $collation->toggle_reading( 'n3' );
-# Toggle on the new node
-splice( @expected_nodes, 3, 1, [ "n3", 1 ] );
-# Remove the old toggle-off
-splice( @expected_nodes, 11, 1 );
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on a singleton node' => \&compare_active;
-$string = '# when ... with ... showers sweet with ... fruit ... march of ... has pierced to ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-@off = $collation->toggle_reading( 'n3' );
-# Toggle off this node
-splice( @expected_nodes, 3, 1, [ "n3", 0 ] );
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned off a singleton node' => \&compare_active;
-$string = '# when ... ... showers sweet with ... fruit ... march of ... has pierced to ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-@off = $collation->toggle_reading( 'n21' );
-splice( @expected_nodes, 16, 1, ["n22", 0 ], [ "n21", 1 ] );
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on another node after singleton switchoff' => \&compare_active;
-$string = '# when ... ... showers sweet with ... fruit ... march of ... has pierced unto ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-# Now start testing some position identifiers
-# 2. 'april with his' have no colocated
-# 3. 'april' 2 has no colocated
-# 4. 'teh' and 'the'
-# 5. 'drought' & 'march'
-# 6. 'march' & 'drought'
-# 7. 'unto' 'the' 'root'...
-# 'unto can match 'to' or 'teh'
-# 'the' can match 'teh' or 'rood'
-# 'root' can mach 'rood'
-
-foreach my $cn ( @common_nodes ) {
- my $cnr = $collation->reading( $cn );
- is( scalar( $collation->same_position_as( $cnr ) ), 0, "Node $cn has no colocations" );
-}
-
-my %expected_colocations = (
- 'n2' => [], # april
- 'n3' => [], # with
- 'n4' => [], # his
- 'n11' => [], # april
- 'n8' => [ 'n13' ], # teh -> the
- 'n13' => [ 'n8' ], # the -> teh
- 'n14' => [ 'n15' ], # drought -> march
- 'n18' => [ 'n17' ], # drought -> march
- 'n17' => [ 'n18' ], # march -> drought
- 'n15' => [ 'n14' ], # march -> drought
- 'n21' => [ 'n22', 'n9' ], # unto -> to, teh
- 'n22' => [ 'n21', 'n9' ], # to -> unto, teh
- 'n9' => [ 'n21', 'n22', 'n23' ], # teh -> unto, to, the
- 'n23' => [ 'n25', 'n9' ], # the -> teh, rood
- 'n25' => [ 'n23', 'n26' ], # rood -> the, root
- 'n26' => [ 'n25' ], # root -> rood
-);
-
-foreach my $n ( keys %expected_colocations ) {
- my $nr = $collation->reading( $n );
- my @colocated = sort( map { $_->name } $collation->same_position_as( $nr ) );
- is_deeply( \@colocated, $expected_colocations{$n}, "Colocated nodes for $n correct" );
-}
-
-# Test strict colocations
-$expected_colocations{'n9'} = [];
-$expected_colocations{'n21'} = ['n22'];
-$expected_colocations{'n22'} = ['n21'];
-$expected_colocations{'n23'} = [];
-$expected_colocations{'n25'} = [];
-$expected_colocations{'n26'} = [];
-
-foreach my $n ( keys %expected_colocations ) {
- my $nr = $collation->reading( $n );
- my @colocated = sort( map { $_->name } $collation->same_position_as( $nr, 1 ) );
- is_deeply( \@colocated, $expected_colocations{$n}, "Strictly colocated nodes for $n correct" );
+
+ sub make_text {
+ my @words;
+ foreach my $n ( @_ ) {
+ if( $n->[1] ) {
+ push( @words, $collation->reading( $n->[0] )->text );
+ } elsif ( !defined $n->[1] ) {
+ push( @words, '...' );
+ }
+ }
+ return join( ' ', @words );
+ }
+
+ # Test that the common nodes are marked common
+ foreach my $cn ( @common_nodes ) {
+ ok( $collation->reading( $cn )->is_common, "Node $cn is marked common" );
+ }
+
+ # Test the manuscript paths
+ my $wit_a = '# when april with his showers sweet with fruit the drought of march has pierced unto the root #';
+ my $wit_b = '# when showers sweet with april fruit the march of drought has pierced to the root #';
+ my $wit_c = '# when showers sweet with april fruit teh drought of march has pierced teh rood #';
+ is( join( ' ', @{$tradition->witness( "A" )->text} ), $wit_a, "Correct path for witness A" );
+ is( join( ' ', @{$tradition->witness( "B" )->text} ), $wit_b, "Correct path for witness B" );
+ is( join( ' ', @{$tradition->witness( "C" )->text} ), $wit_c, "Correct path for witness C" );
+
+ # Test the transposition identifiers
+ my $transposition_pools = [ [ 'n2', 'n11' ], [ 'n14', 'n18' ],
+ [ 'n17', 'n15' ] ];
+ my $transposed_nodes = { 'n2' => $transposition_pools->[0],
+ 'n11' => $transposition_pools->[0],
+ 'n14' => $transposition_pools->[1],
+ 'n15' => $transposition_pools->[2],
+ 'n17' => $transposition_pools->[2],
+ 'n18' => $transposition_pools->[1],
+ };
+
+ my $real_transposed_nodes = {};
+ foreach my $r ( $collation->readings ) {
+ my @same = map { $_->name } @{$r->same_as};
+ $real_transposed_nodes->{ $r->name } = \@same if @same > 1;
+ }
+
+ is_deeply( $real_transposed_nodes, $transposed_nodes, "Found the right transpositions" );
+
+ # Test turning on a node
+ my @off = $collation->toggle_reading( 'n21' );
+ $expected_nodes[ 16 ] = [ "n21", 1 ];
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on node for new location' => \&compare_active;
+ $string = '# when ... ... ... showers sweet with ... fruit ... ... of ... has pierced unto ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ # Test the toggling effects of same-column
+ @off = $collation->toggle_reading( 'n22' );
+ splice( @expected_nodes, 16, 1, ( [ "n21", 0 ], [ "n22", 1 ] ) );
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on other node in that location' => \&compare_active;
+ $string = '# when ... ... ... showers sweet with ... fruit ... ... of ... has pierced to ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ # Test the toggling effects of transposition
+ @off = $collation->toggle_reading( 'n14' );
+ # Add the turned on node
+ $expected_nodes[ 11 ] = [ "n14", 1 ];
+ # Remove the 'off' for the previous node
+ splice( @expected_nodes, 16, 1 );
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on transposition node' => \&compare_active;
+ $string = '# when ... ... ... showers sweet with ... fruit ... drought of ... has pierced to ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ @off = $collation->toggle_reading( 'n18' );
+ # Toggle on the new node
+ $expected_nodes[ 13 ] = [ "n18", 1 ];
+ # Toggle off the transposed node
+ $expected_nodes[ 11 ] = [ "n14", undef ];
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on that node\'s partner' => \&compare_active;
+ $string = '# when ... ... ... showers sweet with ... fruit ... ... of drought has pierced to ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ @off = $collation->toggle_reading( 'n14' );
+ # Toggle on the new node
+ $expected_nodes[ 11 ] = [ "n14", 1 ];
+ # Toggle off the transposed node
+ $expected_nodes[ 13 ] = [ "n18", undef ];
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on the original node' => \&compare_active;
+ $string = '# when ... ... ... showers sweet with ... fruit ... drought of ... has pierced to ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ @off = $collation->toggle_reading( 'n15' );
+ # Toggle on the new node, and off with the old
+ splice( @expected_nodes, 11, 1, [ "n14", 0 ], [ "n15", 1 ] );
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on the colocated node' => \&compare_active;
+ $string = '# when ... ... ... showers sweet with ... fruit ... march of ... has pierced to ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ @off = $collation->toggle_reading( 'n3' );
+ # Toggle on the new node
+ splice( @expected_nodes, 3, 1, [ "n3", 1 ] );
+ # Remove the old toggle-off
+ splice( @expected_nodes, 11, 1 );
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on a singleton node' => \&compare_active;
+ $string = '# when ... with ... showers sweet with ... fruit ... march of ... has pierced to ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ @off = $collation->toggle_reading( 'n3' );
+ # Toggle off this node
+ splice( @expected_nodes, 3, 1, [ "n3", 0 ] );
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned off a singleton node' => \&compare_active;
+ $string = '# when ... ... showers sweet with ... fruit ... march of ... has pierced to ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ @off = $collation->toggle_reading( 'n21' );
+ splice( @expected_nodes, 16, 1, ["n22", 0 ], [ "n21", 1 ] );
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on another node after singleton switchoff' => \&compare_active;
+ $string = '# when ... ... showers sweet with ... fruit ... march of ... has pierced unto ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ # Now start testing some position identifiers
+ # 2. 'april with his' have no colocated
+ # 3. 'april' 2 has no colocated
+ # 4. 'teh' and 'the'
+ # 5. 'drought' & 'march'
+ # 6. 'march' & 'drought'
+ # 7. 'unto' 'the' 'root'...
+ # 'unto can match 'to' or 'teh'
+ # 'the' can match 'teh' or 'rood'
+ # 'root' can mach 'rood'
+
+ foreach my $cn ( @common_nodes ) {
+ my $cnr = $collation->reading( $cn );
+ is( scalar( $collation->same_position_as( $cnr ) ), 0, "Node $cn has no colocations" );
+ }
+
+ my %expected_colocations = (
+ 'n2' => [], # april
+ 'n3' => [], # with
+ 'n4' => [], # his
+ 'n11' => [], # april
+ 'n8' => [ 'n13' ], # teh -> the
+ 'n13' => [ 'n8' ], # the -> teh
+ 'n14' => [ 'n15' ], # drought -> march
+ 'n18' => [ 'n17' ], # drought -> march
+ 'n17' => [ 'n18' ], # march -> drought
+ 'n15' => [ 'n14' ], # march -> drought
+ 'n21' => [ 'n22', 'n9' ], # unto -> to, teh
+ 'n22' => [ 'n21', 'n9' ], # to -> unto, teh
+ 'n9' => [ 'n21', 'n22', 'n23' ], # teh -> unto, to, the
+ 'n23' => [ 'n25', 'n9' ], # the -> teh, rood
+ 'n25' => [ 'n23', 'n26' ], # rood -> the, root
+ 'n26' => [ 'n25' ], # root -> rood
+ );
+
+ foreach my $n ( keys %expected_colocations ) {
+ my $nr = $collation->reading( $n );
+ my @colocated = sort( map { $_->name } $collation->same_position_as( $nr ) );
+ is_deeply( \@colocated, $expected_colocations{$n}, "Colocated nodes for $n correct" );
+ }
+
+ # Test strict colocations
+ $expected_colocations{'n9'} = [];
+ $expected_colocations{'n21'} = ['n22'];
+ $expected_colocations{'n22'} = ['n21'];
+ $expected_colocations{'n23'} = [];
+ $expected_colocations{'n25'} = [];
+ $expected_colocations{'n26'} = [];
+
+ foreach my $n ( keys %expected_colocations ) {
+ my $nr = $collation->reading( $n );
+ my @colocated = sort( map { $_->name } $collation->same_position_as( $nr, 1 ) );
+ is_deeply( \@colocated, $expected_colocations{$n}, "Strictly colocated nodes for $n correct" );
+ }
+
+ # Test turning on, then off, an annoyingly overlapping node
+
+ @off = $collation->toggle_reading( 'n9' );
+ # Remove the old toggle-off
+ splice( @expected_nodes, 16, 1 );
+ splice( @expected_nodes, 17, 0, [ "n9", 1 ] );
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on a node without fixed position' => \&compare_active;
+ $string = '# when ... ... showers sweet with ... fruit ... march of ... has pierced unto teh ... ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ @off = $collation->toggle_reading( 'n23' );
+ splice( @expected_nodes, 18, 1, [ "n23", 1 ] );
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on a node colocated to one without fixed position' => \&compare_active;
+ $string = '# when ... ... showers sweet with ... fruit ... march of ... has pierced unto teh the ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ @off = $collation->toggle_reading( 'n9' );
+ splice( @expected_nodes, 17, 1, [ "n9", 0 ] );
+ @active_nodes = $collation->lemma_readings( @off );
+ subtest 'Turned on a node colocated to one without fixed position' => \&compare_active;
+ $string = '# when ... ... showers sweet with ... fruit ... march of ... has pierced unto the ... #';
+ is( make_text( @active_nodes ), $string, "Got the right text" );
+
+ ### Now test relationship madness.
+
+ my( $result, @relations ) = $collation->add_relationship( 'n25', 'n23', {'type' => 'lexical'} ); # rood -> the
+ ok( $result, "Added relationship between nodes" );
+ is( scalar @relations, 1, "Returned only the one collapse" );
+ is_deeply( $relations[0], [ 'n25', 'n23' ], "Returned the correct collapse" );
+ is( $collation->reading( 'n25' )->position->reference, '9,3', "Harmonized position for n25 correct" );
+ is( $collation->reading( 'n23' )->position->reference, '9,3', "Harmonized position for n23 correct" );
+ is( $collation->reading( 'n9' )->position->reference, '9,2', "Adjusted position for n9 correct" );
+
+ # Do some yucky hardcoded cleanup to undo this relationship.
+ $collation->reading('n25')->position->max( 4 );
+ $collation->reading('n9')->position->max( 3 );
+ $collation->graph->del_edge( $collation->reading('n25')->edges_to( $collation->reading('n23')) );
+
+ ( $result, @relations ) = $collation->add_relationship( 'n26', 'n25', {'type' => 'spelling'} ); # root -> rood
+ ok( $result, "Added relationship between nodes" );
+ is( scalar @relations, 1, "Returned only the one collapse" );
+ is_deeply( $relations[0], [ 'n26', 'n25' ], "Returned the correct collapse" );
+ is( $collation->reading( 'n26' )->position->reference, '9,4', "Harmonized position for n26 correct" );
+ is( $collation->reading( 'n25' )->position->reference, '9,4', "Harmonized position for n25 correct" );
+ is( $collation->reading( 'n9' )->position->reference, '9,2-3', "Adjusted position for n9 correct" );
+
+ ( $result, @relations ) = $collation->add_relationship( 'n15', 'n9', {'type' => 'lexical'} ); # bogus march -> teh
+ ok( !$result, "Refused to add skewed relationship: " . $relations[0] );
+
+ ( $result, @relations ) = $collation->add_relationship( 'n25', 'n26', {'type' => 'spelling'} ); # root -> rood
+ ok( !$result, "Refused to add dupe relationship: " . $relations[0] );
+
+ ( $result, @relations ) = $collation->add_relationship( 'n8', 'n13', {'type' => 'spelling', 'global' => 1 } ); # teh -> the
+ ok( $result, "Added global relationship between nodes" );
+ is( scalar @relations, 2, "Returned two relationship creations" );
+ is_deeply( $relations[0], [ 'n8', 'n13' ], "Returned the original collapse" );
+ is_deeply( $relations[1], [ 'n9', 'n23' ], "Returned the other collapse" );
+ is( $collation->reading( 'n8' )->position->reference, '6,2', "Harmonized position for n8 correct" );
+ is( $collation->reading( 'n9' )->position->reference, '9,3', "Harmonized position for n9 correct" );
}
-# Test turning on, then off, an annoyingly overlapping node
-
-@off = $collation->toggle_reading( 'n9' );
-# Remove the old toggle-off
-splice( @expected_nodes, 16, 1 );
-splice( @expected_nodes, 17, 0, [ "n9", 1 ] );
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on a node without fixed position' => \&compare_active;
-$string = '# when ... ... showers sweet with ... fruit ... march of ... has pierced unto teh ... ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-@off = $collation->toggle_reading( 'n23' );
-splice( @expected_nodes, 18, 1, [ "n23", 1 ] );
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on a node colocated to one without fixed position' => \&compare_active;
-$string = '# when ... ... showers sweet with ... fruit ... march of ... has pierced unto teh the ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-@off = $collation->toggle_reading( 'n9' );
-splice( @expected_nodes, 17, 1, [ "n9", 0 ] );
-@active_nodes = $collation->lemma_readings( @off );
-subtest 'Turned on a node colocated to one without fixed position' => \&compare_active;
-$string = '# when ... ... showers sweet with ... fruit ... march of ... has pierced unto the ... #';
-is( make_text( @active_nodes ), $string, "Got the right text" );
-
-### Now test relationship madness.
-
-my( $result, @relations ) = $collation->add_relationship( 'n25', 'n23', {'type' => 'lexical'} ); # rood -> the
-ok( $result, "Added relationship between nodes" );
-is( scalar @relations, 1, "Returned only the one collapse" );
-is_deeply( $relations[0], [ 'n25', 'n23' ], "Returned the correct collapse" );
-is( $collation->reading( 'n25' )->position->reference, '9,3', "Harmonized position for n25 correct" );
-is( $collation->reading( 'n23' )->position->reference, '9,3', "Harmonized position for n23 correct" );
-is( $collation->reading( 'n9' )->position->reference, '9,2', "Adjusted position for n9 correct" );
-
-# Do some yucky hardcoded cleanup to undo this relationship.
-$collation->reading('n25')->position->max( 4 );
-$collation->reading('n9')->position->max( 3 );
-$collation->graph->del_edge( $collation->reading('n25')->edges_to( $collation->reading('n23')) );
-
-( $result, @relations ) = $collation->add_relationship( 'n26', 'n25', {'type' => 'spelling'} ); # root -> rood
-ok( $result, "Added relationship between nodes" );
-is( scalar @relations, 1, "Returned only the one collapse" );
-is_deeply( $relations[0], [ 'n26', 'n25' ], "Returned the correct collapse" );
-is( $collation->reading( 'n26' )->position->reference, '9,4', "Harmonized position for n26 correct" );
-is( $collation->reading( 'n25' )->position->reference, '9,4', "Harmonized position for n25 correct" );
-is( $collation->reading( 'n9' )->position->reference, '9,2-3', "Adjusted position for n9 correct" );
-
-( $result, @relations ) = $collation->add_relationship( 'n15', 'n9', {'type' => 'lexical'} ); # bogus march -> teh
-ok( !$result, "Refused to add skewed relationship: " . $relations[0] );
-
-( $result, @relations ) = $collation->add_relationship( 'n25', 'n26', {'type' => 'spelling'} ); # root -> rood
-ok( !$result, "Refused to add dupe relationship: " . $relations[0] );
-
-( $result, @relations ) = $collation->add_relationship( 'n8', 'n13', {'type' => 'spelling', 'global' => 1 } ); # teh -> the
-ok( $result, "Added global relationship between nodes" );
-is( scalar @relations, 2, "Returned two relationship creations" );
-is_deeply( $relations[0], [ 'n8', 'n13' ], "Returned the original collapse" );
-is_deeply( $relations[1], [ 'n9', 'n23' ], "Returned the other collapse" );
-is( $collation->reading( 'n8' )->position->reference, '6,2', "Harmonized position for n8 correct" );
-is( $collation->reading( 'n9' )->position->reference, '9,3', "Harmonized position for n9 correct" );
-
done_testing();
projects / scpubgit/stemmatology.git / commitdiff