Bio::Annotation::TagTree - AnnotationI with tree-like hierarchal key-value
relationships ('structured tags') that can be represented as simple text.
use Bio::Annotation::TagTree;
use Bio::Annotation::Collection;
my $col = Bio::Annotation::Collection->new();
# data structure can be an array reference with a data structure
# corresponding to that defined by Data::Stag:
my $sv = Bio::Annotation::TagTree->new(-tagname => 'mytag1',
-value => $data_structure);
$col->add_Annotation($sv);
# regular text passed is parsed based on the tagformat().
my $sv2 = Bio::Annotation::TagTree->new(-tagname => 'mytag2',
-tagformat => 'xml',
-value => $xmltext);
$col->add_Annotation($sv2);
This takes tagged data values and stores them in a hierarchal structured
element-value hierarchy (complements of Chris Mungall's Data::Stag module).
Data can then be represented as text using a variety of output formats
(indention, itext, xml, spxr). Furthermore, the data structure can be queried
using various means. See Data::Stag for details.
Data passed in using
value() or the '-value' parameter upon instantiation
can either be:
1) an array reference corresponding to the data structure for Data::Stag;
2) a text string in 'xml', 'itext', 'spxr', or 'indent' format. The default
format is 'xml'; this can be changed using
tagformat() prior to using
value() or by passing in the proper format using '-tagformat' upon
instantiation;
3) another Bio::Annotation::TagTree or Data::Stag node instance. In both cases a
deep copy (duplicate) of the instance is generated.
Beyond checking for an array reference no format guessing occurs (so, for
roundtrip tests ensure that the IO formats correspond). For now, we recommend
when using text input to set
tagformat() to one of these formats prior
to data loading to ensure the proper Data::Stag parser is selected. After data
loading, the
tagformat() can be changed to change the text string
format returned by
value(). (this may be rectified in the future)
This Annotation type is fully BioSQL compatible and could be considered a
temporary replacement for nested Bio::Annotation::Collections, at least until
BioSQL and bioperl-db can support nested annotation collections.
User feedback is an integral part of the evolution of this and other Bioperl
modules. Send your comments and suggestions preferably to one of the Bioperl
mailing lists. Your participation is much appreciated.
[email protected] - General discussion
http://bioperl.org/wiki/Mailing_lists - About the mailing lists
Please direct usage questions or support issues to the mailing list:
[email protected]
rather than to the module maintainer directly. Many experienced and reponsive
experts will be able look at the problem and quickly address it. Please
include a thorough description of the problem with code and data examples if
at all possible.
Report bugs to the Bioperl bug tracking system to help us keep track the bugs
and their resolution. Bug reports can be submitted via or the web:
https://github.com/bioperl/bioperl-live/issues
Chris Fields
The rest of the documentation details each of the object methods. Internal
methods are usually preceded with a _
Title : new
Usage : my $sv = Bio::Annotation::TagTree->new();
Function: Instantiate a new TagTree object
Returns : Bio::Annotation::TagTree object
Args : -value => $value to initialize the object data field [optional]
-tagname => $tag to initialize the tagname [optional]
-tagformat => format for output [optional]
(types 'xml', 'itext', 'sxpr', 'indent', default = 'itext')
-node => Data::Stag node or Bio::Annotation::TagTree instance
Title : as_text
Usage : my $text = $obj->as_text
Function: return the string "Value: $v" where $v is the value
Returns : string
Args : none
Title : display_text
Usage : my $str = $ann->display_text();
Function: returns a string. Unlike as_text(), this method returns a string
formatted as would be expected for the specific implementation.
One can pass a callback as an argument which allows custom text
generation; the callback is passed the current instance and any text
returned
Example :
Returns : a string
Args : [optional] callback
Title : hash_tree
Usage : my $hashtree = $value->hash_tree
Function: For supporting the AnnotationI interface just returns the value
as a hashref with the key 'value' pointing to the value
Maybe reimplement using Data::Stag::hash()?
Returns : hashrf
Args : none
Title : tagname
Usage : $obj->tagname($newval)
Function: Get/set the tagname for this annotation value.
Setting this is optional. If set, it obviates the need to provide
a tag to AnnotationCollection when adding this object.
Example :
Returns : value of tagname (a scalar)
Args : new value (a scalar, optional)
Title : value
Usage : $obj->value($newval)
Function: Get/set the value for this annotation.
Returns : value of value
Args : newvalue (optional)
Title : tagformat
Usage : $obj->tagformat($newval)
Function: Get/set the output tag format for this annotation.
Returns : value of tagformat
Args : newvalue (optional) - format for the data passed into value
must be of values 'xml', 'indent', 'sxpr', 'itext', 'perl'
Title : node
Usage : $obj->node()
Function: Get/set the topmost Data::Stag node used for this annotation.
Returns : Data::Stag node implementation
(default is Data::Stag::StagImpl)
Args : (optional) Data::Stag node implementation
(optional)'copy' => flag to create a copy of the node
Because Data::Stag uses blessed arrays and the core Bioperl class uses blessed
hashes, TagTree uses an internal instance of a Data::Stag node for data
storage. Therefore the following methods actually delegate to the Data:::Stag
internal instance.
For consistency (since one could recursively check child nodes), methods retain
the same names as Data::Stag. Also, no 'magic' (AUTOLOAD'ed) methods are
employed, simply b/c full-fledged Data::Stag functionality can be attained by
grabbing the Data::Stag instance using
node().
Title : element
Usage :
Function: Returns the element name (key name) for this node
Example :
Returns : scalar
Args : none
Title : data
Usage :
Function: Returns the data structure (array ref) for this node
Example :
Returns : array ref
Args : none
Title : children
Usage :
Function: Get the top-level array of Data::Stag nodes or (if the top level is
a terminal node) a scalar value.
This is similar to StructuredValue's get_values() method, with the
key difference being instead of array refs and scalars you get either
Data::Stag nodes or the value for this particular node.
For consistency (since one could recursively check nodes),
we use the same method name as Data::Stag children().
Example :
Returns : an array
Args : none
Title : subnodes
Usage :
Function: Get the top-level array of Data::Stag nodes. Unlike children(),
this only returns an array of nodes (if this is a terminal node,
no value is returned)
Example :
Returns : an array of nodes
Args : none
Title : get
Usage :
Function: Returns the nodes or value for the named element or path
Example :
Returns : returns array of nodes or a scalar (if node is terminal)
dependent on wantarray
Args : none
Title : find
Usage :
Function: Recursively searches for and returns the nodes or values for the
named element or path
Example :
Returns : returns array of nodes or scalars (for terminal nodes)
Args : none
Title : findnode
Usage :
Function: Recursively searches for and returns a list of nodes
of the given element path
Example :
Returns : returns array of nodes
Args : none
Title : findval
Usage :
Function:
Example :
Returns : returns array of nodes or values
Args : none
Title : addchild
Usage : $struct->addchild(['name' => [['foo'=> 'bar1']]]);
Function: add new child node to the current node. One can pass in a node, TagTree,
or data structure; for instance, in the above, this would translate
to (in XML):
<name>
<foo>bar1</foo>
</name>
Returns : node
Args : first arg = element name
all other args are added as tag-value pairs
Title : add
Usage : $struct->add('foo', 'bar1', 'bar2', 'bar3');
Function: add tag-value nodes to the current node. In the above, this would
translate to (in XML):
<foo>bar1</foo>
<foo>bar2</foo>
<foo>bar3</foo>
Returns :
Args : first arg = element name
all other args are added as tag-value pairs
Title : set
Usage : $struct->set('foo','bar');
Function: sets a single tag-value pair in the current node. Note this
differs from add() in that this replaces any data already present
Returns : node
Args : first arg = element name
all other args are added as tag-value pairs
Title : unset
Usage : $struct->unset('foo');
Function: unsets all key-value pairs of the passed element from the
current node
Returns : node
Args : element name
Title : free
Usage : $struct->free
Function: removes all data from the current node
Returns :
Args :
Title : hash
Usage : $struct->hash;
Function: turns the tag-value tree into a hash, all data values are array refs
Returns : hash
Args : first arg = element name
all other args are added as tag-value pairs
Title : pairs
Usage : $struct->pairs;
Function: turns the tag-value tree into a hash, all data values are scalar
Returns : hash
Args : first arg = element name
all other args are added as tag-value pairs, note that duplicates
will be lost
Title : qmatch
Usage : @persons = $s->qmatch('person', ('name'=>'fred'));
Function : returns all elements in the node tree which match the
element name and the key-value pair
Returns : Array of nodes
Args : return-element str, match-element str, match-value str
Title : tnodes
Usage : @termini = $s->tnodes;
Function : returns all terminal nodes below this node
Returns : Array of nodes
Args : return-element str, match-element str, match-value str
Title : ntnodes
Usage : @termini = $s->ntnodes;
Function : returns all nonterminal nodes below this node
Returns : Array of nodes
Args : return-element str, match-element str, match-value str
Title : get_all_values
Usage : @termini = $s->get_all_values;
Function : returns all terminal node values
Returns : Array of values
Args : return-element str, match-element str, match-value str
This is meant to emulate the values one would get from StructureValue's
get_all_values() method. Note, however, using this method dissociates
the tag-value relationship (i.e. you only get the value list, no
elements)