File Coverage

Bio/SeqFeature/Lite.pm

Criterion	Covered	Total	%
statement	41	354	11.5
branch	19	190	10.0
condition	9	94	9.5
subroutine	5	71	7.0
pod	39	66	59.0
total	113	775	14.5

line	stmt	bran	cond	sub	pod	time	code
1							package Bio::SeqFeature::Lite;
2
3							=head1 NAME
4
5							Bio::SeqFeature::Lite - Lightweight Bio::SeqFeatureI class
6
7							=head1 SYNOPSIS
8
9							# create a simple feature with no internal structure
10							$f = Bio::SeqFeature::Lite->new(-start => 1000,
11							-stop => 2000,
12							-type => 'transcript',
13							-name => 'alpha-1 antitrypsin',
14							-desc => 'an enzyme inhibitor',
15							);
16
17							# create a feature composed of multiple segments, all of type "similarity"
18							$f = Bio::SeqFeature::Lite->new(-segments => [[1000,1100],[1500,1550],[1800,2000]],
19							-name => 'ABC-3',
20							-type => 'gapped_alignment',
21							-subtype => 'similarity');
22
23							# build up a gene exon by exon
24							$e1 = Bio::SeqFeature::Lite->new(-start=>1,-stop=>100,-type=>'exon');
25							$e2 = Bio::SeqFeature::Lite->new(-start=>150,-stop=>200,-type=>'exon');
26							$e3 = Bio::SeqFeature::Lite->new(-start=>300,-stop=>500,-type=>'exon');
27							$f = Bio::SeqFeature::Lite->new(-segments=>[$e1,$e2,$e3],-type=>'gene');
28
29							=head1 DESCRIPTION
30
31							This is a simple Bio::SeqFeatureI-compliant object that is compatible
32							with Bio::Graphics::Panel. With it you can create lightweight feature
33							objects for drawing.
34
35							All methods are as described in L with the following additions:
36
37							=head2 The new() Constructor
38
39							$feature = Bio::SeqFeature::Lite->new(@args);
40
41							This method creates a new feature object. You can create a simple
42							feature that contains no subfeatures, or a hierarchically nested object.
43
44							Arguments are as follows:
45
46							-seq_id the reference sequence
47							-start the start position of the feature
48							-end the stop position of the feature
49							-stop an alias for end
50							-name the feature name (returned by seqname())
51							-type the feature type (returned by primary_tag())
52							-primary_tag the same as -type
53							-source the source tag
54							-score the feature score (for GFF compatibility)
55							-desc a description of the feature
56							-segments a list of subfeatures (see below)
57							-subtype the type to use when creating subfeatures
58							-strand the strand of the feature (one of -1, 0 or +1)
59							-phase the phase of the feature (0..2)
60							-seq a dna or protein sequence string to attach to feature
61							-id an alias for -name
62							-seqname an alias for -name
63							-display_id an alias for -name
64							-display_name an alias for -name (do you get the idea the API has changed?)
65							-primary_id unique database ID
66							-url a URL to link to when rendered with Bio::Graphics
67							-attributes a hashref of tag value attributes, in which the key is the tag
68							and the value is an array reference of values
69							-factory a reference to a feature factory, used for compatibility with
70							more obscure parts of Bio::DB::GFF
71
72							The subfeatures passed in -segments may be an array of
73							Bio::SeqFeature::Lite objects, or an array of [$start,$stop]
74							pairs. Each pair should be a two-element array reference. In the
75							latter case, the feature type passed in -subtype will be used when
76							creating the subfeatures.
77
78							If no feature type is passed, then it defaults to "feature".
79
80							=head2 Non-SeqFeatureI methods
81
82							A number of new methods are provided for compatibility with
83							Ace::Sequence, which has a slightly different API from SeqFeatureI:
84
85							=over 4
86
87							=item url()
88
89							Get/set the URL that the graphical rendering of this feature will link to.
90
91							=item add_segment(@segments)
92
93							Add one or more segments (a subfeature). Segments can either be
94							Feature objects, or [start,stop] arrays, as in the -segments argument
95							to new(). The feature endpoints are automatically adjusted.
96
97							=item segments()
98
99							An alias for sub_SeqFeature().
100
101							=item get_SeqFeatures()
102
103							Alias for sub_SeqFeature()
104
105							=item get_all_SeqFeatures()
106
107							Alias for sub_SeqFeature()
108
109							=item merged_segments()
110
111							Another alias for sub_SeqFeature().
112
113							=item stop()
114
115							An alias for end().
116
117							=item name()
118
119							An alias for seqname().
120
121							=item exons()
122
123							An alias for sub_SeqFeature() (you don't want to know why!)
124
125							=back
126
127							=cut
128
129	1			1		954	use strict;
	1					1
	1					25
130
131	1			1		3	use base qw(Bio::Root::Root Bio::SeqFeatureI Bio::LocationI Bio::SeqI);
	1					1
	1					2906
132
133							*stop = \&end;
134							*info = \&name;
135							*seqname = \&name;
136							exons = sub_SeqFeature = *merged_segments = \&segments;
137							get_all_SeqFeatures = get_SeqFeatures = \&segments;
138							*method = \&primary_tag;
139							*source = \&source_tag;
140							*get_tag_values = \&each_tag_value;
141							*add_SeqFeature = \&add_segment;
142							*get_all_tags = \&all_tags;
143							*abs_ref = \&ref;
144
145							# implement Bio::SeqI and FeatureHolderI interface
146
147	0			0	1	0	sub primary_seq { return $_[0] }
148							sub annotation {
149	0			0	1	0	my ($obj,$value) = @_;
150	0	0				0	if( defined $value ) {
		0
151	0	0				0	$obj->throw("object of class ".ref($value)." does not implement ".
152							"Bio::AnnotationCollectionI. Too bad.")
153							unless $value->isa("Bio::AnnotationCollectionI");
154	0					0	$obj->{'_annotation'} = $value;
155							} elsif( ! defined $obj->{'_annotation'}) {
156	0					0	$obj->{'_annotation'} = Bio::Annotation::Collection->new();
157							}
158	0					0	return $obj->{'_annotation'};
159							}
160							sub species {
161	0			0	1	0	my ($self, $species) = @_;
162	0	0				0	if ($species) {
163	0					0	$self->{'species'} = $species;
164							} else {
165	0					0	return $self->{'species'};
166							}
167							}
168	0			0	1	0	sub is_remote { return }
169	0	0		0	1	0	sub feature_count { return scalar @{shift->{segments} \|\| []} }
	0					0
170
171	0			0	0	0	sub target { return; }
172	0			0	0	0	sub hit { shift->target }
173
174							sub type {
175	0			0	0	0	my $self = shift;
176	0					0	my $method = $self->primary_tag;
177	0					0	my $source = $self->source_tag;
178	0	0				0	return $source ne '' ? "$method:$source" : $method;
179							}
180
181							# usage:
182							# Bio::SeqFeature::Lite->new(
183							# -start => 1,
184							# -end => 100,
185							# -name => 'fred feature',
186							# -strand => +1);
187							#
188							# Alternatively, use -segments => [ [start,stop],[start,stop]...]
189							# to create a multisegmented feature.
190							sub new {
191	3			3	1	11	my $class= shift;
192	3	50				7	$class = ref($class) if ref $class;
193	3					7	my %arg = @_;
194
195	3					4	my $self = bless {},$class;
196
197	3		50			6	$arg{-strand} \|\|= 0;
198	3	50				12	if ($arg{-strand} =~ /^[\+\-\.]$/){
199	3	100				17	($arg{-strand} eq "+") && ($self->{strand} = '1');
200	3	100				6	($arg{-strand} eq "-") && ($self->{strand} = '-1');
201	3	100				7	($arg{-strand} eq ".") && ($self->{strand} = '0');
202							} else {
203	0	0				0	$self->{strand} = $arg{-strand} ? ($arg{-strand} >= 0 ? +1 : -1) : 0;
		0
204							}
205							$self->{name} = $arg{-name} \|\| $arg{-seqname} \|\| $arg{-display_id}
206	3		33			29	\|\| $arg{-display_name} \|\| $arg{-id};
207	3		50			18	$self->{type} = $arg{-type} \|\| $arg{-primary_tag} \|\| 'feature';
208	3	50				6	$self->{subtype} = $arg{-subtype} if exists $arg{-subtype};
209	3		50			14	$self->{source} = $arg{-source} \|\| $arg{-source_tag} \|\| '';
210	3	50				7	$self->{score} = $arg{-score} if exists $arg{-score};
211	3					4	$self->{start} = $arg{-start};
212	3	100				7	$self->{stop} = exists $arg{-end} ? $arg{-end} : $arg{-stop};
213	3		33			9	$self->{ref} = $arg{-seq_id} \|\| $arg{-ref};
214	3		33			10	$self->{attributes} = $arg{-attributes} \|\| $arg{-tag};
215	3					5	for my $option (qw(class url seq phase desc primary_id)) {
216	18	50				25	$self->{$option} = $arg{"-$option"} if exists $arg{"-$option"};
217							}
218
219							# is_circular is needed for Bio::PrimarySeqI compliance
220	3		50			10	$self->{is_circular} = $arg{-is_circular} \|\| 0;
221
222							# fix start, stop
223	3	50	33			14	if (defined $self->{stop} && defined $self->{start}
			33
224							&& $self->{stop} < $self->{start}) {
225	0					0	@{$self}{'start','stop'} = @{$self}{'stop','start'};
	0					0
	0					0
226	0					0	$self->{strand} *= -1;
227							}
228
229	3					3	my @segments;
230	3	50				5	if (my $s = $arg{-segments}) {
231							# NB: when $self ISA Bio::DB::SeqFeature the following invokes
232							# Bio::DB::SeqFeature::add_segment and not
233							# Bio::DB::SeqFeature::add_segment (as might be expected?)
234	0					0	$self->add_segment(@$s);
235							}
236
237	3					9	$self;
238							}
239
240							sub add_segment {
241	0			0	1	0	my $self = shift;
242	0		0			0	my $type = $self->{subtype} \|\| $self->{type};
243	0		0			0	$self->{segments} \|\|= [];
244	0					0	my $ref = $self->seq_id;
245	0					0	my $name = $self->name;
246	0					0	my $class = $self->class;
247	0					0	my $source_tag = $self->source_tag;
248
249	0		0			0	my $min_start = $self->start \|\| 999_999_999_999;
250	0		0			0	my $max_stop = $self->end \|\| -999_999_999_999;
251
252	0					0	my @segments = @{$self->{segments}};
	0					0
253
254	0					0	for my $seg (@_) {
255	0	0				0	if (ref($seg) eq 'ARRAY') {
		0
256	0					0	my ($start,$stop) = @{$seg};
	0					0
257	0	0	0			0	next unless defined $start && defined $stop; # fixes an obscure bug somewhere above us
258	0					0	my $strand = $self->{strand};
259
260	0	0				0	if ($start > $stop) {
261	0					0	($start,$stop) = ($stop,$start);
262	0					0	$strand = -1;
263							}
264
265							push @segments,$self->new(-start => $start,
266							-stop => $stop,
267							-strand => $strand,
268							-ref => $ref,
269							-type => $type,
270							-name => $name,
271							-class => $class,
272							-phase => $self->{phase},
273							-score => $self->{score},
274							-source_tag => $source_tag,
275							-attributes => $self->{attributes},
276	0					0	);
277	0	0				0	$min_start = $start if $start < $min_start;
278	0	0				0	$max_stop = $stop if $stop > $max_stop;
279
280							} elsif (ref $seg) {
281	0					0	push @segments,$seg;
282
283	0	0	0			0	$min_start = $seg->start if ($seg->start && $seg->start < $min_start);
284	0	0	0			0	$max_stop = $seg->end if ($seg->end && $seg->end > $max_stop);
285							}
286							}
287	0	0				0	if (@segments) {
288	0					0	local $^W = 0; # some warning of an uninitialized variable...
289	0					0	$self->{segments} = \@segments;
290	0		0			0	$self->{ref} \|\|= $self->{segments}[0]->seq_id;
291	0					0	$self->{start} = $min_start;
292	0					0	$self->{stop} = $max_stop;
293							}
294							}
295
296							sub segments {
297	0			0	1	0	my $self = shift;
298	0	0				0	my $s = $self->{segments} or return wantarray ? () : 0;
		0
299	0					0	@$s;
300							}
301							sub score {
302	0			0	0	0	my $self = shift;
303	0					0	my $d = $self->{score};
304	0	0				0	$self->{score} = shift if @_;
305	0					0	$d;
306							}
307							sub primary_tag {
308	0			0	1	0	my $self = shift;
309	0					0	my $d = $self->{type};
310	0	0				0	$self->{type} = shift if @_;
311	0					0	$d;
312							}
313							sub name {
314	0			0	1	0	my $self = shift;
315	0					0	my $d = $self->{name};
316	0	0				0	$self->{name} = shift if @_;
317	0					0	$d;
318							}
319	0			0	1	0	sub seq_id { shift->ref(@_) }
320							sub ref {
321	0			0	0	0	my $self = shift;
322	0					0	my $d = $self->{ref};
323	0	0				0	$self->{ref} = shift if @_;
324	0					0	$d;
325							}
326							sub start {
327	0			0	1	0	my $self = shift;
328	0					0	my $d = $self->{start};
329	0	0				0	$self->{start} = shift if @_;
330	0	0				0	if (my $rs = $self->{refseq}) {
331	0		0			0	my $strand = $rs->strand \|\| 1;
332	0	0				0	return $strand >= 0 ? ($d - $rs->start + 1) : ($rs->end - $d + 1);
333							} else {
334	0					0	return $d;
335							}
336							}
337							sub end {
338	2			2	1	3	my $self = shift;
339	2					3	my $d = $self->{stop};
340	2	50				6	$self->{stop} = shift if @_;
341	2	50				4	if (my $rs = $self->{refseq}) {
342	0		0			0	my $strand = $rs->strand \|\| 1;
343	0	0				0	return $strand >= 0 ? ($d - $rs->start + 1) : ($rs->end - $d + 1);
344							}
345	2					6	$d;
346							}
347							sub strand {
348	3			3	1	6	my $self = shift;
349	3					3	my $d = $self->{strand};
350	3	50				8	$self->{strand} = shift if @_;
351	3	50				7	if (my $rs = $self->{refseq}) {
352	0					0	my $rstrand = $rs->strand;
353	0	0				0	return 0 unless $d;
354	0	0				0	return 1 if $rstrand == $d;
355	0	0				0	return -1 if $rstrand != $d;
356							}
357	3					9	$d;
358							}
359
360							# this does nothing, but it is here for compatibility reasons
361							sub absolute {
362	0			0	0		my $self = shift;
363	0						my $d = $self->{absolute};
364	0	0					$self->{absolute} = shift if @_;
365	0						$d;
366							}
367
368							sub abs_start {
369	0			0	0		my $self = shift;
370	0						local $self->{refseq} = undef;
371	0						$self->start(@_);
372							}
373							sub abs_end {
374	0			0	0		my $self = shift;
375	0						local $self->{refseq} = undef;
376	0						$self->end(@_);
377							}
378							sub abs_strand {
379	0			0	0		my $self = shift;
380	0						local $self->{refseq} = undef;
381	0						$self->strand(@_);
382							}
383
384							sub length {
385	0			0	1		my $self = shift;
386	0						return $self->end - $self->start + 1;
387							}
388
389							#is_circular is needed for Bio::PrimarySeqI
390							sub is_circular {
391	0			0	1		my $self = shift;
392	0						my $d = $self->{is_circular};
393	0	0					$self->{is_circular} = shift if @_;
394	0						$d;
395							}
396
397
398							sub seq {
399	0			0	1		my $self = shift;
400	0	0					my $seq = exists $self->{seq} ? $self->{seq} : '';
401	0						return $seq;
402							}
403
404							sub dna {
405	0			0	0		my $seq = shift->seq;
406	0	0					$seq = $seq->seq if CORE::ref($seq);
407	0						return $seq;
408							}
409
410							=head2 display_name
411
412							Title : display_name
413							Usage : $id = $obj->display_name or $obj->display_name($newid);
414							Function: Gets or sets the display id, also known as the common name of
415							the Seq object.
416
417							The semantics of this is that it is the most likely string
418							to be used as an identifier of the sequence, and likely to
419							have "human" readability. The id is equivalent to the LOCUS
420							field of the GenBank/EMBL databanks and the ID field of the
421							Swissprot/sptrembl database. In fasta format, the >(\S+) is
422							presumed to be the id, though some people overload the id
423							to embed other information. Bioperl does not use any
424							embedded information in the ID field, and people are
425							encouraged to use other mechanisms (accession field for
426							example, or extending the sequence object) to solve this.
427
428							Notice that $seq->id() maps to this function, mainly for
429							legacy/convenience issues.
430							Returns : A string
431							Args : None or a new id
432
433
434							=cut
435
436	0			0	1		sub display_name { shift->name(@_) }
437
438							*display_id = \&display_name;
439
440							=head2 accession_number
441
442							Title : accession_number
443							Usage : $unique_biological_key = $obj->accession_number;
444							Function: Returns the unique biological id for a sequence, commonly
445							called the accession_number. For sequences from established
446							databases, the implementors should try to use the correct
447							accession number. Notice that primary_id() provides the
448							unique id for the implemetation, allowing multiple objects
449							to have the same accession number in a particular implementation.
450
451							For sequences with no accession number, this method should return
452							"unknown".
453							Returns : A string
454							Args : None
455
456
457							=cut
458
459							sub accession_number {
460	0			0	1		return 'unknown';
461							}
462
463							=head2 alphabet
464
465							Title : alphabet
466							Usage : if( $obj->alphabet eq 'dna' ) { /Do Something/ }
467							Function: Returns the type of sequence being one of
468							'dna', 'rna' or 'protein'. This is case sensitive.
469
470							This is not called because this would cause
471							upgrade problems from the 0.5 and earlier Seq objects.
472
473							Returns : a string either 'dna','rna','protein'. NB - the object must
474							make a call of the type - if there is no type specified it
475							has to guess.
476							Args : none
477							Status : Virtual
478
479
480							=cut
481
482							sub alphabet{
483	0			0	1		return 'dna'; # no way this will be anything other than dna!
484							}
485
486
487
488							=head2 desc
489
490							Title : desc
491							Usage : $seqobj->desc($string) or $seqobj->desc()
492							Function: Sets or gets the description of the sequence
493							Example :
494							Returns : The description
495							Args : The description or none
496
497
498							=cut
499
500							sub desc {
501	0			0	1		my $self = shift;
502	0						my ($d) = $self->notes;
503	0	0					$self->{desc} = shift if @_;
504	0						$d;
505							}
506
507							sub attributes {
508	0			0	0		my $self = shift;
509	0	0					if (@_) {
510	0						return $self->get_tag_values(@_);
511							} else {
512	0	0					return $self->{attributes} ? %{$self->{attributes}} : ();
	0
513							}
514							}
515
516							sub primary_id {
517	0			0	1		my $self = shift;
518	0						my $d = $self->{primary_id};
519	0	0					$self->{primary_id} = shift if @_;
520	0						return $d;
521							# return $d if defined $d;
522							# return (overload::StrVal($self) =~ /0x([a-f0-9]+)/)[0];
523							}
524
525							sub notes {
526	0			0	0		my $self = shift;
527	0						my $notes = $self->{desc};
528	0	0					return $notes if defined $notes;
529	0						return $self->attributes('Note');
530							}
531
532							sub aliases {
533	0			0	0		my $self = shift;
534	0						return $self->attributes('Alias');
535							}
536
537							sub low {
538	0			0	0		my $self = shift;
539	0	0					return $self->start < $self->end ? $self->start : $self->end;
540							}
541
542							sub high {
543	0			0	0		my $self = shift;
544	0	0					return $self->start > $self->end ? $self->start : $self->end;
545							}
546
547							=head2 location
548
549							Title : location
550							Usage : my $location = $seqfeature->location()
551							Function: returns a location object suitable for identifying location
552							of feature on sequence or parent feature
553							Returns : Bio::LocationI object
554							Args : none
555
556							=cut
557
558							sub location {
559	0			0	1		my $self = shift;
560	0	0					require Bio::Location::Split unless Bio::Location::Split->can('new');
561	0						my $location;
562	0	0					if (my @segments = $self->segments) {
563	0						$location = Bio::Location::Split->new();
564	0						foreach (@segments) {
565	0						$location->add_sub_Location($_);
566							}
567							} else {
568	0						$location = $self;
569							}
570	0						$location;
571							}
572
573							sub each_Location {
574	0			0	1		my $self = shift;
575	0	0					require Bio::Location::Simple unless Bio::Location::Simple->can('new');
576	0	0					if (my @segments = $self->segments) {
577							return map {
578	0						Bio::Location::Simple->new(-start => $_->start,
	0
579							-end => $_->end,
580							-strand => $_->strand);
581							} @segments;
582							} else {
583	0						return Bio::Location::Simple->new(-start => $self->start,
584							-end => $self->end,
585							-strand => $self->strand);
586							}
587							}
588
589							=head2 location_string
590
591							Title : location_string
592							Usage : my $string = $seqfeature->location_string()
593							Function: Returns a location string in a format recognized by gbrowse
594							Returns : a string
595							Args : none
596
597							This is a convenience function used by the generic genome browser. It
598							returns the location of the feature and its subfeatures in the compact
599							form "start1..end1,start2..end2,...". Use
600							$seqfeature-Elocation()-EtoFTString() to obtain a standard
601							GenBank/EMBL location representation.
602
603							=cut
604
605							sub location_string {
606	0			0	1		my $self = shift;
607	0	0					my @segments = $self->segments or return $self->to_FTstring;
608	0						join ',',map {$_->to_FTstring} @segments;
	0
609							}
610
611							sub coordinate_policy {
612	0	0		0	1		require Bio::Location::WidestCoordPolicy unless Bio::Location::WidestCoordPolicy->can('new');
613	0						return Bio::Location::WidestCoordPolicy->new();
614							}
615
616	0			0	1		sub min_start { shift->low }
617	0			0	1		sub max_start { shift->low }
618	0			0	1		sub min_end { shift->high }
619	0			0	1		sub max_end { shift->high}
620	0			0	1		sub start_pos_type { 'EXACT' }
621	0			0	1		sub end_pos_type { 'EXACT' }
622							sub to_FTstring {
623	0			0	1		my $self = shift;
624	0						my $low = $self->min_start;
625	0						my $high = $self->max_end;
626	0						my $strand = $self->strand;
627	0	0	0				my $str = defined $strand && $strand<0 ? "complement($low..$high)" : "$low..$high";
628	0	0					if (my $id = $self->seq_id()) {
629	0						$str = $id . ":" . $str;
630							}
631	0						$str;
632							}
633							sub phase {
634	0			0	1		my $self = shift;
635	0						my $d = $self->{phase};
636	0	0					$self->{phase} = shift if @_;
637	0						$d;
638							}
639
640							sub class {
641	0			0	0		my $self = shift;
642	0						my $d = $self->{class};
643	0	0					$self->{class} = shift if @_;
644	0	0					return defined($d) ? $d : 'Sequence'; # acedb is still haunting me - LS
645							}
646
647							# set GFF dumping version
648							sub version {
649	0			0	0		my $self = shift;
650	0		0				my $d = $self->{gff3_version} \|\| 2;
651	0	0					$self->{gff3_version} = shift if @_;
652	0						$d;
653							}
654
655							sub gff_string {
656	0			0	1		my $self = shift;
657
658	0	0					if ($self->version == 3) {
659	0						return $self->gff3_string(@_);
660							}
661
662	0						my $recurse = shift;
663	0						my $name = $self->name;
664	0						my $class = $self->class;
665	0	0					my $group = "$class $name" if $name;
666	0						my $strand = ('-','.','+')[$self->strand+1];
667	0						my $string;
668	0	0	0				$string .= join("\t",
		0	0
			0
			0
			0
			0
			0
669							$self->ref\|\|'.',$self->source\|\|'.',$self->method\|\|'.',
670							$self->start\|\|'.',$self->stop\|\|'.',
671							defined($self->score) ? $self->score : '.',
672							$strand\|\|'.',
673							defined($self->phase) ? $self->phase : '.',
674							$group\|\|''
675							);
676	0						$string .= "\n";
677	0	0					if ($recurse) {
678	0						foreach ($self->sub_SeqFeature) {
679	0						$string .= $_->gff_string($recurse);
680							}
681							}
682	0						$string;
683							}
684
685							# Suggested strategy for dealing with the multiple parentage issue.
686							# First recurse through object tree and record parent tree.
687							# Then recurse again, skipping objects we've seen before.
688							sub gff3_string {
689	0			0	0		my ($self,$recurse,$parent_tree,$seenit,$force_id) = @_;
690	0		0				$parent_tree \|\|= {};
691	0		0				$seenit \|\|= {};
692	0						my @rsf = ();
693	0						my @parent_ids;
694
695	0	0					if ($recurse) {
696	0	0					$self->_traverse($parent_tree) unless %$parent_tree; # this will record parents of all children
697	0	0					my $primary_id = defined $force_id ? $force_id : $self->_real_or_dummy_id;
698
699	0	0					return if $seenit->{$primary_id}++;
700
701	0						@rsf = $self->get_SeqFeatures;
702	0	0					if (@rsf) {
703							# Detect case in which we have a split location feature. In this case we
704							# skip to the grandchildren and trick them into thinking that our parent is theirs.
705	0						my %types = map {$_->primary_tag=>1} @rsf;
	0
706	0						my @types = keys %types;
707	0	0	0				if (@types == 1 && $types[0] eq $self->primary_tag) {
708	0						return join ("\n",map {$_->gff3_string(1,$parent_tree,{},$primary_id)} @rsf);
	0
709							}
710							}
711
712	0						@parent_ids = keys %{$parent_tree->{$primary_id}};
	0
713							}
714
715	0						my $group = $self->format_attributes(\@parent_ids,$force_id);
716	0						my $name = $self->name;
717
718	0						my $class = $self->class;
719	0						my $strand = ('-','.','+')[$self->strand+1];
720	0	0	0				my $p = join("\t",
		0	0
			0
			0
			0
			0
			0
721							$self->seq_id\|\|'.',
722							$self->source\|\|'.',
723							$self->method\|\|'.',
724							$self->start\|\|'.',
725							$self->stop\|\|'.',
726							defined($self->score) ? $self->score : '.',
727							$strand\|\|'.',
728							defined($self->phase) ? $self->phase : '.',
729							$group\|\|'');
730							return join("\n",
731							$p,
732	0						map {$_->gff3_string(1,$parent_tree,$seenit)} @rsf);
	0
733							}
734
735							sub _real_or_dummy_id {
736	0			0			my $self = shift;
737	0						my $id = $self->primary_id;
738	0	0					return $id if defined $id;
739	0						return return (overload::StrVal($self) =~ /0x([a-f0-9]+)/)[0];
740							}
741
742							sub _traverse {
743	0			0			my $self = shift;
744	0						my $tree = shift; # tree => {$child}{$parent} = 1
745	0						my $parent = shift;
746	0						my $id = $self->_real_or_dummy_id;
747	0	0					defined $id or return;
748	0	0					$tree->{$id}{$parent->_real_or_dummy_id}++ if $parent;
749	0						$_->_traverse($tree,$self) foreach $self->get_SeqFeatures;
750							}
751
752	0			0	0		sub db { return }
753
754							sub source_tag {
755	0			0	1		my $self = shift;
756	0						my $d = $self->{source};
757	0	0					$self->{source} = shift if @_;
758	0						$d;
759							}
760
761							# This probably should be deleted. Not sure why it's here, but might
762							# have been added for Ace::Sequence::Feature-compliance.
763							sub introns {
764	0			0	0		my $self = shift;
765	0						return;
766							}
767
768							sub has_tag {
769	0			0	1		my $self = shift;
770	0						my $tag = shift;
771	0						return exists $self->{attributes}{$tag};
772							}
773
774							sub escape {
775	0			0	0		my $self = shift;
776	0						my $toencode = shift;
777	0						$toencode =~ s/([^a-zA-Z0-9_.:?^*\[\]@!+-])/uc sprintf("%%%02x",ord($1))/eg;
	0
778	0						$toencode;
779							}
780
781							sub all_tags {
782	0			0	0		my $self = shift;
783	0						return keys %{$self->{attributes}};
	0
784							}
785
786							sub add_tag_value {
787	0			0	0		my $self = shift;
788	0						my ($tag_name,@tag_values) = @_;
789	0						push @{$self->{attributes}{$tag_name}},@tag_values;
	0
790							}
791
792							sub remove_tag {
793	0			0	0		my $self = shift;
794	0						my $tag_name = shift;
795	0						delete $self->{attributes}{$tag_name};
796							}
797
798							sub each_tag_value {
799	0			0	0		my $self = shift;
800	0						my $tag = shift;
801	0	0					my $value = $self->{attributes}{$tag} or return;
802	0						my $ref = CORE::ref $value;
803	0						return $ref && $ref eq 'ARRAY' ? @{$self->{attributes}{$tag}}
804	0	0	0				: $self->{attributes}{$tag};
805							}
806
807							sub get_Annotations {
808	0			0	0		my $self = shift;
809	0						my $tag = shift;
810	0						my @values = $self->get_tag_values($tag);
811	0	0					return $values[0] if @values == 1;
812	0						return @values;
813							}
814
815							sub format_attributes {
816	0			0	0		my $self = shift;
817	0						my $parent = shift;
818	0						my $fallback_id = shift;
819
820	0						my @tags = $self->get_all_tags;
821	0						my @result;
822	0						for my $t (@tags) {
823	0						my @values = $self->get_tag_values($t);
824	0	0					push @result,join '=',$self->escape($t),join(',', map {$self->escape($_)} @values) if @values;
	0
825							}
826							#my $id = $self->escape($self->_real_or_dummy_id) \|\| $fallback_id;
827	0		0				my $id = $fallback_id \|\| $self->escape($self->_real_or_dummy_id);
828
829	0						my $parent_id;
830	0	0					if (@$parent) {
831	0						$parent_id = join (',',map {$self->escape($_)} @$parent);
	0
832							}
833
834	0						my $name = $self->display_name;
835	0	0					unshift @result,"ID=".$id if defined $id;
836	0	0					unshift @result,"Parent=".$parent_id if defined $parent_id;
837	0	0					unshift @result,"Name=".$self->escape($name) if defined $name;
838	0						return join ';',@result;
839							}
840
841							=head2 clone
842
843							Title : clone
844							Usage : my $feature = $seqfeature->clone
845							Function: Create a deep copy of the feature
846							Returns : A copy of the feature
847							Args : none
848
849							=cut
850
851							sub clone {
852	0			0	1		my $self = shift;
853	0						my %clone = %$self;
854							# overwrite attributes
855	0						my $clone = bless \%clone,CORE::ref($self);
856	0						$clone{attributes} = {};
857	0						for my $k (keys %{$self->{attributes}}) {
	0
858	0						@{$clone{attributes}{$k}} = @{$self->{attributes}{$k}};
	0
	0
859							}
860	0						return $clone;
861							}
862
863							=head2 refseq
864
865							Title : refseq
866							Usage : $ref = $s->refseq([$newseq] [,$newseqclass])
867							Function: get/set reference sequence
868							Returns : current reference sequence
869							Args : new reference sequence and class (optional)
870							Status : Public
871
872							This method will get or set the reference sequence. Called with no
873							arguments, it returns the current reference sequence. Called with any
874							Bio::SeqFeatureI object that provides the seq_id(), start(), end() and
875							strand() methods.
876
877							The method will generate an exception if you attempt to set the
878							reference sequence to a sequence that has a different seq_id from the
879							current feature.
880
881							=cut
882
883							sub refseq {
884	0			0	1		my $self = shift;
885	0						my $d = $self->{refseq};
886	0	0					if (@_) {
887	0						my $newref = shift;
888	0	0					$self->throw("attempt to set refseq using a feature that does not share the same seq_id")
889							unless $newref->seq_id eq $self->seq_id;
890	0						$self->{refseq} = $newref;
891							}
892	0						return $d;
893							}
894
895				0			sub DESTROY { }
896
897							1;
898
899							__END__