package Text::Tradition::Collation::Reading;
use Moose;
-use Moose::Util::TypeConstraints;
use MooseX::NonMoose;
+use Text::Tradition::Collation::Position;
extends 'Graph::Easy::Node';
-subtype 'Position'
- => as 'Str',
- => where { $_ =~ /^\d+\,\d+$/ },
- message { 'Position must be of the form x,y' };
-
has 'position' => (
is => 'rw',
- isa => 'Position',
+ isa => 'Text::Tradition::Collation::Position',
+ predicate => 'has_position',
);
# This contains an array of reading objects; the array is a pool,
isa => 'ArrayRef[Text::Tradition::Collation::Reading]',
);
-# This is a hash mapping of 'relationship => reading'.
-# TODO we should validate the relationships sometime.
-has 'relationships' => (
- is => 'ro',
- isa => 'HashRef[Text::Tradition::Collation::Reading]',
- default => sub { {} },
- );
+# Deal with the non-arg option for Graph::Easy's constructor.
+around BUILDARGS => sub {
+ my $orig = shift;
+ my $class = shift;
+
+ my %args;
+ if( @_ == 1 && ref( $_[0] ) ne 'HASH' ) {
+ return $class->$orig( 'name' => $_[0] );
+ } else {
+ return $class->$orig( @_ );
+ }
+};
+
+# Take constructor args as well as a Position argument.
+around position => sub {
+ my $orig = shift;
+ my $self = shift;
+ return $self->$orig() unless @_;
+
+ my @args = @_;
+ unless( @_ == 1 && ref( $_[0] ) eq 'Text::Tradition::Collation::Position' ) {
+ # We have constructor arguments; pass them to Position.
+ @args = ( Text::Tradition::Collation::Position->new( @_ ) );
+ }
+ $self->$orig( @args );
+};
# Initialize the identity pool.
sub BUILD {
my( $self, $args ) = @_;
-# $self->same_as( [ $self ] );
+ $self->same_as( [ $self ] );
+}
+
+sub text {
+ # Wrapper function around 'label' attribute.
+ my $self = shift;
+ if( @_ ) {
+ $self->set_attribute( 'label', $_[0] );
+ }
+ return $self->label;
}
sub merge_from {
my $new_pool = _merge_array_pool( \@now_identical, $self->same_as )
if @now_identical;
- # Adopt the relationship attributes of the other node.
- my $now_rel = $merged_node->relationships;
- foreach my $key ( %$now_rel ) {
- if( $self->has_relationship( $key ) ) {
- my $related = $self->get_relationship( $key );
- if( $now_rel->{$key} ne $related ) {
- warn( sprintf( "Merged reading %s has relationship %s to reading %s instead of %s; skipping",
- $merged_node->name, $key,
- $now_rel->{$key},
- $related) );
- } # else no action needed
- } else {
- $self->set_relationship( $key, $now_rel->{$key} );
- }
- }
+ # TODO Adopt the relationship attributes of the other node.
}
+## Dealing with transposed readings. These methods are only really
+## applicable if we have a linear collation graph.
+
sub set_identical {
my( $self, $other_node ) = @_;
my $enlarged_pool = _merge_array_pool( $self->same_as,
$other_node->same_as );
# ...and set this node to point to the enlarged pool.
- $self->set_same_as( $enlarged_pool );
+ $self->same_as( $enlarged_pool );
}
+sub identical_readings {
+ my $self = shift;
+ my @same = grep { $_ ne $self } @{$self->same_as};
+ return @same;
+}
+
sub _merge_array_pool {
my( $pool, $main_pool ) = @_;
my %poolhash;
return $main_pool;
}
-# Much easier to do this with a hash than with an array of Relationship objects,
-# which would be the proper OO method.
+sub has_primary {
+ my $self = shift;
+ my $pool = $self->same_as;
+ return $pool->[0]->name ne $self->name;
+}
-sub has_relationship {
- my( $self, $rel ) = @_;
- return exists( $self->relationships->{ $rel } );
+sub primary {
+ my $self = shift;
+ return $self->same_as->[0];
}
-sub get_relationship {
- my( $self, $rel ) = @_;
- if( $self->has_relationship( $rel ) ) {
- return $self->relationships->{ $rel };
+sub is_at_position {
+ my $self = shift;
+ return undef unless $self->has_position;
+ return $self->position->is_colocated( @_ );
+}
+
+# Returns all readings that adjoin this one on any path.
+sub neighbor_readings {
+ my( $self, $direction ) = @_;
+ $direction = 'both' unless $direction;
+ my @paths = grep { $_->isa( 'Text::Tradition::Collation::Path' ) } $self->edges;
+ my %connected;
+ foreach my $p ( @paths ) {
+ if( $p->to eq $self ) {
+ next if $direction eq 'forward';
+ $connected{$p->from->name} = $p->from;
+ } else { # $p->from eq $self
+ next if $direction =~ /^back/;
+ $connected{$p->to->name} = $p->to;
+ }
}
- return undef;
+ return values( %connected );
}
-sub set_relationship {
- my( $self, $rel, $value ) = @_;
- $self->relationships->{ $rel } = $value;
+sub adjust_neighbor_position {
+ my $self = shift;
+ return unless $self->position->fixed;
+
+ # TODO This is a naive and repetitive implementation and
+ # I don't like it.
+ foreach my $neighbor ( $self->neighbor_readings('forward') ) {
+ next unless !$neighbor->is_common &&
+ $neighbor->position->common == $self->position->common;
+ if( $neighbor->position->fixed &&
+ $neighbor->position->min == $self->position->min ) {
+ warn sprintf( "Readings %s and %s are at the same position!",
+ $neighbor->name, $self->name );
+ }
+ next if $neighbor->position->fixed || $neighbor->position->matched;
+ $neighbor->position->min( $self->position->min + 1 );
+ # Recurse if necessary.
+ $neighbor->adjust_neighbor_position()
+ unless $neighbor->position->fixed;
+ }
+ foreach my $neighbor ( $self->neighbor_readings('back') ) {
+ next unless !$neighbor->is_common &&
+ $neighbor->position->common == $self->position->common;
+ if( $neighbor->position->fixed &&
+ $neighbor->position->min == $self->position->min ) {
+ warn sprintf( "Readings %s and %s are at the same position!",
+ $neighbor->name, $self->name );
+ }
+ next if $neighbor->position->fixed || $neighbor->position->matched;
+ $neighbor->position->max( $self->position->max - 1 );
+ # Recurse if necessary.
+ $neighbor->adjust_neighbor_position()
+ unless $neighbor->position->fixed;
+ }
+ return;
+}
+
+sub match_position {
+ my( $self, $other ) = @_;
+ # Adjust the position of both these nodes to be as restrictive as possible.
+ unless( $self->position->is_colocated( $other->position ) ) {
+ warn "Cannot match positions of non-colocated readings";
+ return;
+ }
+ my $sp = $self->position;
+ my $op = $other->position;
+ my $newmin = $sp->min > $op->min ? $sp->min : $op->min;
+ my $newmax = $sp->max < $op->max ? $sp->max : $op->max;
+ my $newpos = Text::Tradition::Collation::Position->new(
+ 'common' => $sp->common,
+ 'min' => $newmin,
+ 'max' => $newmax,
+ 'matched' => 1,
+ );
+ # We are setting the positions to be the same object. I don't
+ # think that actually matters. We may eventually want unique
+ # objects for each position.
+ $self->position( $newpos );
+ $other->position( $newpos );
+ $self->adjust_neighbor_position();
+ $other->adjust_neighbor_position();
+}
+
+## Keep track of which readings are unchanged across witnesses.
+
+sub is_common {
+ my( $self ) = shift;
+ return $self->get_attribute( 'class' ) eq 'common';
+}
+
+sub make_common {
+ my( $self ) = shift;
+ $self->set_attribute( 'class', 'common' );
+}
+
+sub make_variant {
+ my( $self ) = shift;
+ $self->set_attribute( 'class', 'variant' );
}
no Moose;
# when overriding nodes, we also need ::Anon
package Text::Tradition::Collation::Reading::Anon;
+use Moose;
+use MooseX::NonMoose;
+extends 'Text::Tradition::Collation::Reading';
+extends 'Graph::Easy::Node::Anon';
+no Moose;
+__PACKAGE__->meta->make_immutable;
-use base qw/Text::Tradition::Collation::Reading/;
-use base qw/Graph::Easy::Node::Anon/;
+1;
+# use base qw/Text::Tradition::Collation::Reading/;
+# use base qw/Graph::Easy::Node::Anon/;
######################################################
# and :::Empty
package Text::Tradition::Collation::Reading::Empty;
+use Moose;
+use MooseX::NonMoose;
+extends 'Graph::Easy::Node::Empty';
+no Moose;
+__PACKAGE__->meta->make_immutable;
-use base qw/Text::Tradition::Collation::Reading/;
+1;
+# use base qw/Text::Tradition::Collation::Reading/;
######################################################