Bio::Tree
Node
Summary
Bio::Tree::Node - A Simple Tree Node
Package variables
No package variables defined.
Included modules
Inherit
Synopsis
use Bio::Tree::Node;
my $nodeA = new Bio::Tree::Node();
my $nodeL = new Bio::Tree::Node();
my $nodeR = new Bio::Tree::Node();
my $node = new Bio::Tree::Node();
$node->add_Descendent($nodeL);
$node->add_Descendent($nodeR);
print "node is not a leaf \n" if( $node->is_leaf);
Description
Makes a Tree Node suitable for building a Tree.
Methods
Methods description
Title : new
Usage : my $obj = new Bio::Tree::Node();
Function: Builds a new Bio::Tree::Node object
Returns : Bio::Tree::Node
Args : -descendents => arrayref of descendents (they will be
updated s.t. their ancestor point is this
node)
-branch_length => branch length [integer] (optional)
-bootstrap => value bootstrap value (string)
-description => description of node
-id => human readable id for node |
Title : add_Descendent
Usage : $node->add_Descendant($node);
Function: Adds a descendent to a node
Returns : number of current descendents for this node
Args : Bio::Node::NodeI
boolean flag, true if you want to ignore the fact that you are
adding a second node with the same unique id (typically memory
location reference in this implementation). default is false and
will throw an error if you try and overwrite an existing node. |
Title : each_Descendent($sortby)
Usage : my @nodes = $node->each_Descendent;
Function: all the descendents for this Node (but not their descendents
i.e. not a recursive fetchall)
Returns : Array of Bio::Tree::NodeI objects
Args : $sortby [optional] "height", "creation" or coderef to be used
to sort the order of children nodes. |
Title : remove_Descendent
Usage : $node->remove_Descedent($node_foo);
Function: Removes a specific node from being a Descendent of this node
Returns : nothing
Args : An array of Bio::Node::NodeI objects which have be previously
passed to the add_Descendent call of this object. |
Title : remove_all_Descendents
Usage : $node->remove_All_Descendents()
Function: Cleanup the node's reference to descendents and reset
their ancestor pointers to undef, if you don't have a reference
to these objects after this call they will be cleaned up - so
a get_nodes from the Tree object would be a safe thing to do first
Returns : nothing
Args : none |
Title : ancestor
Usage : $obj->ancestor($newval)
Function: Set the Ancestor
Returns : value of ancestor
Args : newvalue (optional) |
Title : branch_length
Usage : $obj->branch_length()
Function: Get/Set the branch length
Returns : value of branch_length
Args : newvalue (optional) |
Title : bootstrap
Usage : $obj->bootstrap($newval)
Function: Get/Set the bootstrap value
Returns : value of bootstrap
Args : newvalue (optional) |
Title : description
Usage : $obj->description($newval)
Function: Get/Set the description string
Returns : value of description
Args : newvalue (optional) |
Title : id
Usage : $obj->id($newval)
Function: The human readable identifier for the node
Returns : value of human readable id
Args : newvalue (optional)
Note : id cannot contain the chracters '();:'
"A name can be any string of printable characters except blanks,
colons, semicolons, parentheses, and square brackets. Because you may
want to include a blank in a name, it is assumed that an underscore
character ("_") stands for a blank; any of these in a name will be
converted to a blank when it is read in."
from http://evolution.genetics.washington.edu/phylip/newicktree.html |
Title : internal_id
Usage : my $internalid = $node->internal_id
Function: Returns the internal unique id for this Node
(a monotonically increasing number for this in-memory implementation
but could be a database determined unique id in other
implementations)
Returns : unique id
Args : none |
Title : _creation_id
Usage : $obj->_creation_id($newval)
Function: a private method signifying the internal creation order
Returns : value of _creation_id
Args : newvalue (optional) |
Title : is_Leaf
Usage : if( $node->is_Leaf )
Function: Get Leaf status
Returns : boolean
Args : none |
Title : height
Usage : my $len = $node->height
Function: Returns the height of the tree starting at this
node. Height is the maximum branchlength.
Returns : The longest length (weighting branches with branch_length) to a leaf
Args : none |
Title : invalidate_height
Usage : private helper method
Function: Invalidate our cached value of the node's height in the tree
Returns : nothing
Args : none |
Title : add_tag_value
Usage : $node->add_tag_value($tag,$value)
Function: Adds a tag value to a node
Returns : number of values stored for this tag
Args : $tag - tag name
$value - value to store for the tag |
Title : remove_tag
Usage : $node->remove_tag($tag)
Function: Remove the tag and all values for this tag
Returns : boolean representing success (0 if tag does not exist)
Args : $tag - tagname to remove |
Title : remove_all_tags
Usage : $node->remove_all_tags()
Function: Removes all tags
Returns : None
Args : None |
Title : get_all_tags
Usage : my @tags = $node->get_all_tags()
Function: Gets all the tag names for this Node
Returns : Array of tagnames
Args : None |
Title : get_tag_values
Usage : my @values = $node->get_tag_value($tag)
Function: Gets the values for given tag ($tag)
Returns : Array of values or empty list if tag does not exist
Args : $tag - tag name |
Title : has_tag
Usage : $node->has_tag($tag)
Function: Boolean test if tag exists in the Node
Returns : Boolean
Args : $tag - tagname |
Methods code
BEGIN { $CREATIONORDER = 0; } | sub new
{ my($class,@args) = @_;
my $self = $class->SUPER::new(@args);
my ($children, $branchlen,$id,
$bootstrap, $desc,$d) = $self->_rearrange([qw(
DESCENDENTS
BRANCH_LENGTH
ID
BOOTSTRAP
DESC
DESCRIPTION
)],
@args);
$self->_register_for_cleanup(\&node_cleanup);
$self->{'_desc'} = {};
if( defined $d && defined $desc ) {
$self->warn("can only accept -desc or -description, not both, accepting -description");
$desc = $d;
} elsif( defined $d && ! defined $desc ) {
$desc = $d;
}
defined $desc && $self->description($desc);
defined $bootstrap && $self->bootstrap($bootstrap);
defined $id && $self->id($id);
defined $branchlen && $self->branch_length($branchlen);
if( defined $children ) {
if( ref($children) !~ /ARRAY/i ) {
$self->warn("Must specify a valid ARRAY reference to initialize a Node's Descendents");
}
foreach my $c ( @$children ) {
$self->add_Descendent($c);
}
}
$self->_creation_id($CREATIONORDER++);
return $self;} | sub add_Descendent
{ my ($self,$node,$ignoreoverwrite) = @_;
return -1 if( ! defined $node );
if( ! ref($node) ||
ref($node) =~ /HASH/ ||
! $node->isa('Bio::Tree::NodeI') ) {
$self->throw("Trying to add a Descendent who is not a Bio::Tree::NodeI");
return -1;
}
$node->ancestor($self);
if( $self->{'_desc'}->{$node->internal_id} && ! $ignoreoverwrite ) {
$self->throw("Going to overwrite a node which is $node that is already stored here, set the ignore overwrite flag (parameter 2) to true to ignore this in the future");
}
$self->{'_desc'}->{$node->internal_id} = $node;
$self->invalidate_height();
return scalar keys %{$self->{'_desc'}};} | sub each_Descendent
{ my ($self, $sortby) = @_;
$sortby ||= 'height';
if (ref $sortby eq 'CODE') {
return sort $sortby values %{$self->{'_desc'}};
} else {
if ($sortby eq 'height') {
return map { $_->[0] }
sort { $a->[1] <=> $b->[1] ||
$a->[2] <=> $b->[2] }
map { [$_, $_->height, $_->internal_id ] }
values %{$self->{'_desc'}};
} else {
return map { $_->[0] }
sort { $a->[1] <=> $b->[1] }
map { [$_, $_->internal_id ] }
values %{$self->{'_desc'}};
}
} } | sub remove_Descendent
{ my ($self,@nodes) = @_;
my $c= 0;
foreach my $n ( @nodes ) {
if( $self->{'_desc'}->{$n->internal_id} ) {
$n->ancestor(undef);
$self->{'_desc'}->{$n->internal_id}->ancestor(undef);
delete $self->{'_desc'}->{$n->internal_id};
my $a1 = $self->ancestor;
$c++;
} else {
if( $self->verbose ) {
$self->debug(sprintf("no node %s (%s) listed as a descendent in this node %s (%s)\n",$n->id, $n,$self->id,$self));
$self->debug("Descendents are " . join(',', keys %{$self->{'_desc'}})."\n");
}
}
}
$c;} | sub remove_all_Descendents
{ my ($self) = @_;
while( my ($node,$val) = each %{ $self->{'_desc'} } ) {
$val->ancestor(undef);
}
$self->{'_desc'} = {};
1; } | sub ancestor
{ my $self = shift;
$self->{'_ancestor'} = shift @_ if @_;
return $self->{'_ancestor'};} | sub branch_length
{ my $self = shift;
if( @_ ) {
my $bl = shift;
if( defined $bl &&
$bl =~ s/\[(\d+)\]// ) {
$self->bootstrap($1);
}
$self->{'_branch_length'} = $bl;
}
return $self->{'_branch_length'};} | sub bootstrap
{ my $self = shift;
if( @_ ) {
if( $self->has_tag('B') ) {
$self->remove_tag('B');
}
$self->add_tag_value('B',shift);
}
return ($self->get_tag_values('B'))[0];} | sub description
{ my $self = shift;
$self->{'_description'} = shift @_ if @_;
return $self->{'_description'};} | sub id
{ my ($self, $value) = @_;
if ($value) {
$self->warn("Illegal characters ();: and space in the id [$value], converting to _ ")
if $value =~ /\(\);:/ and $self->verbose >= 0;
$value =~ s/[\(\);:\s]/_/g;
$self->{'_id'} = $value;
}
return $self->{'_id'};} | sub internal_id
{ return $_[0]->_creation_id; } | sub _creation_id
{ my $self = shift @_;
$self->{'_creation_id'} = shift @_ if( @_);
return $self->{'_creation_id'} || 0;} | sub is_Leaf
{ my ($self) = @_;
my $isleaf = ! (defined $self->{'_desc'} &&
(keys %{$self->{'_desc'}} > 0) );
return $isleaf;} | sub height
{ my ($self) = @_;
return $self->{'_height'} if( defined $self->{'_height'} );
if( $self->is_Leaf ) {
if( !defined $self->branch_length ) {
$self->debug(sprintf("Trying to calculate height of a node when a Node (%s) has an undefined branch_length\n",$self->id || '?' ));
return 0;
}
return $self->branch_length;
}
my $max = 0;
foreach my $subnode ( $self->each_Descendent ) {
my $s = $subnode->height;
if( $s > $max ) { $max = $s; }
}
return ($self->{'_height'} = $max + ($self->branch_length || 1));} | sub invalidate_height
{ my ($self) = @_;
$self->{'_height'} = undef;
if( defined $self->ancestor ) {
$self->ancestor->invalidate_height;
}} | sub add_tag_value
{ my ($self,$tag,$value) = @_;
if( ! defined $tag || ! defined $value ) {
$self->warn("cannot call add_tag_value with an undefined value");
}
push @{$self->{'_tags'}->{$tag}}, $value;
return scalar @{$self->{'_tags'}->{$tag}};} | sub remove_tag
{ my ($self,$tag) = @_;
if( exists $self->{'_tags'}->{$tag} ) {
$self->{'_tags'}->{$tag} = undef;
delete $self->{'_tags'}->{$tag};
return 1;
}
return 0;} | sub remove_all_tags
{ my ($self) = @_;
$self->{'_tags'} = {};
return;} | sub get_all_tags
{ my ($self) = @_;
return sort keys %{$self->{'_tags'} || {}};} | sub get_tag_values
{ my ($self,$tag) = @_;
return @{$self->{'_tags'}->{$tag} || []};} | sub has_tag
{ my ($self,$tag) = @_;
return exists $self->{'_tags'}->{$tag};} | sub node_cleanup
{ my $self = shift;
if( defined $self->{'_desc'} &&
ref($self->{'_desc'}) =~ /ARRAY/i ) {
while( my ($nodeid,$node) = each %{ $self->{'_desc'} } ) {
$node->ancestor(undef);
$node = undef;
}
}
$self->{'_desc'} = {};} | General documentation
User feedback is an integral part of the evolution of this and other
Bioperl modules. Send your comments and suggestions preferably to
the Bioperl mailing list. Your participation is much appreciated.
bioperl-l@bioperl.org - General discussion
http://bioperl.org/MailList.shtml - About the mailing lists
Report bugs to the Bioperl bug tracking system to help us keep track
of the bugs and their resolution. Bug reports can be submitted via
the web:
http://bugzilla.bioperl.org/
| AUTHOR - Jason Stajich | Top |
The rest of the documentation details each of the object methods.
Internal methods are usually preceded with a _
Title : get_all_Descendents
Usage : my @nodes = $node->get_all_Descendents;
Function: Recursively fetch all the nodes and their descendents
*NOTE* This is different from each_Descendent
Returns : Array or Bio::Tree::NodeI objects
Args : none| Bio::Node::NodeI decorated interface implemented | Top |
Title : to_string
Usage : my $str = $node->to_string()
Function: For debugging, provide a node as a string
Returns : string
Args : none