# $Id: Segment.pm,v 1.13.4.2 2006/11/01 17:24:30 lstein Exp $
=head1 NAME
Bio::DB::SeqFeature::Segment -- Location-based access to genome annotation data
=head1 SYNOPSIS
use Bio::DB::SeqFeature::Store;
# Open the sequence database
my $db = Bio::DB::SeqFeature::Store->new( -adaptor => 'DBI::mysql',
-dsn => 'dbi:mysql:test');
my $segment = $db->segment('Chr1',5000=>6000);
my @features = $segment->features('mRNA','match');
=head1 DESCRIPTION
The segment object simplifies access to Bio::DB::SeqFeature store by
acting as a placeholder for a region of the genome. You can replace
this statement:
@features = $db->features(-seq_id=>'Chr1',
-start=>5000,
-end=>6000,
-types=>['mRNA','match','repeat_region']);
with these statements:
$segment = $db->segment('Chr1',5000=>6000);
@features = $segment->features('mRNA','match','repeat_region');
You can also initialize a segment from an existing SeqFeature
object. The range will be picked up from the SeqFeature boundaries:
$segment = Bio::DB::SeqFeature::Segment->new($feature); # for Bio::DB::SeqFeature
$segment = Bio::DB::SeqFeature::Segment->new($feature,$store); # for other Bio::SeqFeatureI objects
The segment object implements the full Bio::SeqFeature::CollectionI
interface, thereby allowing you to iterate over all features in the
range.
=cut
use strict;
use base 'Bio::SeqFeature::CollectionI','Bio::RangeI';
use overload '""' => \&as_string,
fallback => 1;
=head1 PUBLIC METHODS
The following are public methods intended for external use.
=head2 new
Title : new
Usage : $segment = Bio::DB::SeqFeature::Segment->new(@options)
Function: create a new Segment object
Returns : A Bio::DB::SeqFeature::Segment object
Args : several - see below
Status : public
This class method creates a Bio::DB::SeqFeature::Segment object. You
must provide a Bio::DB::SeqFeature::Store as well as the coordinates
of the segment. These arguments can be provided explicitly or
indirectly.
First form:
$segment = Bio::DB::SeqFeature::Segment->new($store,$seqid,$start,$end,$strand)
In this form a segment is defined by a Bio::DB::SeqFeature::Store, the
sequence ID, the start, end and strand. This is the form that is
invoked internally by Bio::DB::SeqFeature::Store when you call its
segment() method.
Second form:
$segment = Bio::DB::SeqFeature::Segment->new($seqfeature [,$store]);
In this form, you pass new() a Bio::SeqFeatureI object. The segment is
constructed from the seq_id and coordinates are taken from the
object. If you pass a store-aware seqfeature object
(e.g. Bio::DB::SeqFeature) then the store database is also derived
from the feature. Otherwise you will have to pass the store as a
second argument.
=cut
###
# new()
#
# Call as Bio::DB::SeqFeature::Segment->new($seqfeature,$store)
#
# or
# Bio::DB::SeqFeature::Segment->new(-seqid=>$seqid,-start=>$start,-end=>$end,-strand=>$strand,-store=>$store)
#
sub new {
my $class = shift;
my ($store,$seqid,$start,$end,$strand);
if (ref $_[0] && UNIVERSAL::isa($_[0],'Bio::SeqFeatureI')) {
my $seqfeature = shift;
$store = shift;
$store ||= eval {$seqfeature->object_store};
$class->throw("I could not derive the Bio::DB::SeqFeature::Store object from the arguments passed to Bio::DB::SeqFeature::Segment->new(). Please pass the Store object as the second argument") unless $store;
$seqid = $seqfeature->seq_id;
$start = $seqfeature->start;
$end = $seqfeature->end;
$strand= $seqfeature->strand;
}
else {
($store,$seqid,$start,$end,$strand) = @_;
}
return bless {
store => $store,
seqid => $seqid,
start => $start,
end => $end,
strand => $strand,
},ref($class) || $class;
}
=head2 features
Title : features
Usage : @features = $segment->features(@args)
Function: fetch seqfeatures that overlap the segment
Returns : list of features
Args : see below
Status : Public
This is the workhorse for feature query and retrieval. It takes a
series of -name=E<gt>$value arguments filter arguments. Features that
match all the filters are returned.
Argument Value
-------- -----
Location filters:
-strand Strand
-range_type Type of range match ('overlaps','contains','contained_in')
Name filters:
-name Name of feature (may be a glob expression)
-aliases If true, match aliases as well as display names
-class Archaic argument for backward compatibility.
(-class=>'Clone',-name=>'ABC123') is equivalent
to (-name=>'Clone:ABC123')
Type filters:
-types List of feature types (array reference) or one type (scalar)
-type Synonym for the above
-primary_tag Synonym for the above
-attributes Hashref of attribute=>value pairs as per
get_features_by_attribute(). Multiple alternative values
can be matched by providing an array reference.
-attribute synonym for -attributes
This is identical to the Bio::DB::SeqFeature::Store-E<gt>features()
method, except that the -seq_id, -start, and -end arguments are
provided by the segment object. If a simple list of arguments is
provided, then the list is taken to be the set of feature types
(primary tags) to filter on.
Examples:
All features that overlap the current segment:
@features = $segment->features;
All features of type mRNA that overlap the current segment:
@features = $segment->features('mRNA');
All features that are completely contained within the current segment:
@features = $segment->features(-range_type=>'contains');
All "confirmed" mRNAs that overlap the current segment:
@features = $segment->features(-attributes=>{confirmed=>1},-type=>'mRNA');
=cut
sub features {
my $self = shift;
my @args;
if (@_ == 0) {
@args = ();
}
elsif ($_[0] !~/^-/) {
my @types = @_;
@args = (-type=>\@types);
} else {
@args = @_;
}
$self->{store}->features(@args,-seqid=>$self->{seqid},-start=>$self->{start},-end=>$self->{end});
}
=head2 get_seq_stream
Title : get_seq_stream
Usage : $iterator = $segment->get_seq_stream(@args)
Function: return an iterator across all features in the database
Returns : a Bio::DB::SeqFeature::Store::Iterator object
Args : (optional) the feature() method
Status : public
This is identical to Bio::DB::SeqFeature::Store-E<gt>get_seq_stream()
except that the location filter is always automatically applied so
that the iterator you receive returns features that overlap the segment's region.
When called without any arguments this method will return an iterator
object that will traverse all indexed features in the database that
overlap the segment's region. Call the iterator's next_seq() method to
step through them (in no particular order):
my $iterator = $db->get_seq_stream;
while (my $feature = $iterator->next_seq) {
print $feature->primary_tag,' ',$feature->display_name,"\n";
}
You can select a subset of features by passing a series of filter
arguments. The arguments are identical to those accepted by
$segment-E<gt>features().
get_feature_stream() ican be used as a synonym for this method.
=cut
sub get_seq_stream {
my $self = shift;
$self->{store}->get_seq_stream(@_,-seqid=>$self->{seqid},-start=>$self->{start},-end=>$self->{end});
}
sub get_feature_stream { shift->get_seq_stream(@_) }
=head2 store
Title : store
Usage : $store = $segment->store
Function: return the Bio::DB::SeqFeature::Store object associated with the segment
Returns : a Bio::DB::SeqFeature::Store: object
Args : none
Status : public
=cut
sub factory { shift->{store} }
sub store { shift->{store} }
=head2 primary_tag, type,
Title : primary_tag,type
Usage : $primary_tag = $segment->primary_tag
Function: returns the string "region"
Returns : "region"
Args : none
Status : public
The primary_tag method returns the constant tag "region". type() is a
synonym for this method.
=cut
sub type { shift->primary_tag }
=head2 as_string
Title : as_string
Usage : $name = $segment->as_string
Function: expands the object into a human-readable string
Returns : "seq_id:start..end"
Args : none
Status : public
The as_string() method is overloaded into the "" operator so that the
object is represented as a human readable string in the form
"seq_id:start..end" when used in a string context.
=cut
sub as_string {
my $self = shift;
my $label = $self->seq_id;
my $start = $self->start || '';
my $end = $self->end || '';
return "$label:$start..$end";
}
=head2 rel2abs
Title : rel2abs
Usage : @coords = $s->rel2abs(@coords)
Function: convert relative coordinates into absolute coordinates
Returns : a list of absolute coordinates
Args : a list of relative coordinates
Status : Public
This function takes a list of positions in relative coordinates to the
segment, and converts them into absolute coordinates.
=cut
sub rel2abs {
my $self = shift;
my @result;
my ($start,$strand) = ($self->start,$self->strand);
@result = $strand < 0 ? map { $start - $_ + 1 } @_
: map { $_ + $start - 1 } @_;
# if called with a single argument, caller will expect a single scalar reply
# not the size of the returned array!
return $result[0] if @result == 1 and !wantarray;
@result;
}
=head2 abs2rel
Title : abs2rel
Usage : @rel_coords = $s->abs2rel(@abs_coords)
Function: convert absolute coordinates into relative coordinates
Returns : a list of relative coordinates
Args : a list of absolute coordinates
Status : Public
This function takes a list of positions in absolute coordinates
and returns a list expressed in relative coordinates.
=cut
sub abs2rel {
my $self = shift;
my @result;
my ($start,$strand) = ($self->start,$self->abs_strand);
@result = $strand < 0 ? map { $start - $_ + 1 } @_
: map { $_ - $start + 1 } @_;
# if called with a single argument, caller will expect a single scalar reply
# not the size of the returned array!
return $result[0] if @result == 1 and !wantarray;
@result;
}
=head2 Bio::SeqFeatureI compatibility methods
For convenience, segments are interchangeable with Bio::SeqFeature
objects in many cases. This means that segments can be passed to
BioPerl modules that expect Bio::SeqFeature objects and they should
work as expected. The primary tag of segment objects is "region"
(SO:0000001 "Continous sequence E<gt>=1 base pair").
All these methods are read-only except for the primary_id, which can
be get or set.
The following Bio::SeqFeatureI methods are supported:
=over 4
=item start
=item end
=item seq_id
=item strand
=item length
=item display_name
=item primary_id
=item primary_tag (always returns "region")
=item source_tag (always returns "Bio::DB::SeqFeature::Segment")
=item get_SeqFeatures (always returns an empty list)
=item seq
=item entire_seq
=item location
=item All Bio::RangeI methods
=back
=cut
sub start { shift->{start} }
sub end { shift->{end} }
sub seq_id { shift->{seqid} }
sub strand { shift->{strand} }
sub ref { shift->seq_id }
sub length { my $self = shift; return $self->end-$self->start+1; }
sub primary_tag { 'region' }
sub source_tag { __PACKAGE__ }
sub display_name { shift->as_string }
sub name { shift->display_name }
sub class { 'region' }
sub abs_ref { shift->ref}
sub abs_start { shift->start}
sub abs_end { shift->end}
sub abs_strand { shift->strand}
sub get_SeqFeatures { }
sub get_all_tags { }
sub get_tag_values { }
sub add_tag_value { }
sub remove_tag { }
sub has_tag { }
sub seq {
my $self = shift;
require Bio::PrimarySeq unless Bio::PrimarySeq->can('new');
my ($start,$end) = ($self->start,$self->end);
if ($self->strand < 0) {
($start,$end) = ($end,$start);
}
return Bio::PrimarySeq->new(
-seq => $self->store->fetch_sequence($self->seq_id,$start,$end),
-id => $self->display_name);
}
sub subseq {
my $self = shift;
my ($newstart,$newstop) = @_;
my $store = $self->store or return;
my $seq = $store->fetch_sequence($self->seq_id,$self->start+$newstart-1,$self->end+$newstop-1);
return Bio::PrimarySeq->new(-seq=>$seq);
}
sub dna {
my $seq = shift->seq;
$seq = $seq->seq if CORE::ref($seq);
return $seq;
}
sub entire_seq {
my $self = shift;
require Bio::PrimarySeq unless Bio::PrimarySeq->can('new');
return Bio::PrimarySeq->new(
-seq => $self->store->fetch_sequence($self->seq_id),
-id => $self->seq_id);
}
sub location {
my $self = shift;
require Bio::Location::Simple unless Bio::Location::Simple->can('new');
return Bio::Location::Simple->new(-start=>$self->start,-end=>$self->end);
}
sub primary_id {
my $self = shift;
my $d = $self->{primary_id};
$self->{primary_id} = shift if @_;
$d;
}
sub target { return }
sub score { return }
sub stop { shift->end }
sub absolute { return 1 }
sub desc { shift->as_string }
sub display_id { shift->display_name }
sub primary_seq { shift->seq }
sub accession_number { return undef } # intended return undef
sub alphabet { return undef } # intended return undef
1;
__END__
=head1 BUGS
This is an early version, so there are certainly some bugs. Please
use the BioPerl bug tracking system to report bugs.
=head1 SEE ALSO
L<bioperl>,
L<Bio::DB::SeqFeature::Store>,
L<Bio::DB::SeqFeature::GFF3Loader>,
L<Bio::DB::SeqFeature::Store::DBI::mysql>,
L<Bio::DB::SeqFeature::Store::bdb>
=head1 AUTHOR
Lincoln Stein E<lt>lstein@cshl.orgE<gt>.
Copyright (c) 2006 Cold Spring Harbor Laboratory.
This library is free software; you can redistribute it and/or modify
it under the same terms as Perl itself.
=cut