Bio::SeqFeature
Collection
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Summary
Bio::SeqFeature::Collection - A container class for SeqFeatures
suitable for performing operations such as finding features within a
range, that match a certain feature type, etc.
Package variables
No package variables defined.
Included modules
Inherit
Synopsis
use Bio::SeqFeature::Collection;
use Bio::Location::Simple;
use Bio::Tools::GFF;
use Bio::Root::IO;
# let's first input some features
my $gffio = Bio::Tools::GFF->new(-file => Bio::Root::IO->catfile
("t","data","myco_sites.gff"),
-gff_version => 2);
my @features = ();
# loop over the input stream
while(my $feature = $gffio->next_feature()) {
# do something with feature
push @features, $feature;
}
$gffio->close();
# build the Collection object
my $col = new Bio::SeqFeature::Collection();
# add these features to the object
my $totaladded = $col->add_features(\@features);
my @subset = $col->features_in_range(-start => 1,
-end => 25000,
-strand => 1,
-contain => 0);
# subset should have 18 entries for this dataset
print "size is ", scalar @subset, "\n";
@subset = $col->features_in_range(-range => Bio::Location::Simple->new
(-start => 70000,
-end => 150000,
-strand => -1),
-contain => 1,
-strandmatch => 'strong');
# subset should have 22 entries for this dataset
print "size is ", scalar @subset, "\n";
print "total number of features in collection is ",
$col->feature_count(),"\n";
Description
This object will efficiently allow one for query subsets of ranges
within a large collection of sequence features (in fact the objects
just have to be Bio::RangeI compliant). This is done by the creation
of bins which are stored in order in a B-Tree data structure as
provided by the DB_File interface to the Berkeley DB.
This is based on work done by Lincoln for storage in a mysql instance
- this is intended to be an embedded in-memory implementation for
easily quering for subsets of a large range set. All features are
held in memory even if the -usefile flag is provided.
Methods
Methods description
Title : add_features
Usage : $collection->add_features(\@features);
Function:
Returns : number of features added
Args : arrayref of Bio::SeqFeatureI objects to index |
Title : feature_count
Usage : my $c = $col->feature_count()
Function: Retrieve the total number of features in the collection
Returns : integer
Args : none |
Title : features_in_range
Usage : my @features = $collection->features_in_range($range)
Function: Retrieves a list of features which were contained or overlap the
the requested range (see Args for way to specify overlap or
only those containe)d
Returns : List of Bio::SeqFeatureI objects
Args : -range => Bio::RangeI object defining range to search,
OR
-start => start,
-end => end,
-strand => strand
-contain => boolean - true if feature must be completely
contained with range
OR false if should include features that simply overlap
the range. Default: true.
-strandmatch => 'strong', ranges must have the same strand
'weak', ranges must have the same
strand or no strand
'ignore', ignore strand information
Default. 'ignore'. |
Title : get_all_features
Usage : my @f = $col->get_all_features()
Function: Return all the features stored in this collection (Could be large)
Returns : Array of Bio::RangeI objects
Args : None |
Title : max_bin
Usage : my $maxbin= $self->max_bin;
Function: Get/Set the maximum value to use for binning
Returns : integer
Args : [optional] maximum bin value |
Title : min_bin
Usage : my $minbin= $self->min_bin;
Function: Get/Set the minimum value to use for binning
Returns : integer
Args : [optional] minimum bin value |
Title : new
Usage : my $obj = new Bio::SeqFeature::Collection();
Function: Builds a new Bio::SeqFeature::Collection object
Returns : Bio::SeqFeature::Collection
Args :
-minbin minimum value to use for binning
(default is 100,000,000)
-maxbin maximum value to use for binning
(default is 1,000)
-usefile boolean to use a file to store
BTREE rather than an in-memory structure
(default is false or in-memory).
-features Array ref of features to add initially |
Title : remove_features
Usage : $collection->remove_features(\@array)
Function: Removes the requested sequence features (based on features
which have the same location)
Returns : Number of features removed
Args : Arrayref of Bio::RangeI objects |
Methods code
sub DESTROY
{ my $self = shift;
$self->SUPER::DESTROY();
if( defined $self->{'_io'} ) {
$self->{'_io'}->_io_cleanup();
$self->{'_io'} = undef;
}
$self->{'_btree'} = undef;
}
1;} | sub _comparepack
{ unpack("d", $_[0]) <=> unpack("d", $_[1]) ;} | sub add_features
{ my ($self,$feats) = @_;
if( ref($feats) !~ /ARRAY/i ) {
$self->warn("Must provide a valid Array reference to add_features");
return 0;
}
my $count = 0;
foreach my $f ( @$feats ) {
if( ! $f || ! ref($f) || ! $f->isa('Bio::RangeI') ) {
$self->warn("Must provide valid Bio::RangeI objects to add_features, skipping object '$f'\n");
next;
}
my $bin = bin($f->start,$f->end,$self->min_bin);
push @{$self->{'_features'}}, $f;
$self->{'_btreehash'}->{$bin} = $#{$self->{'_features'}};
$self->debug( "$bin for ". $f->location->to_FTstring(). " matches ".$#{$self->{'_features'}}. "\n");
$count++;
}
return $count;} | sub feature_count
{ my ($self) = @_;
return scalar ( grep {defined $_} @{ $self->{'_features'} });} | sub features_in_range
{ my $self = shift;
my (@args) = @_;
my ($range, $contain, $strandmatch,$start,$end,$strand);
if( @args == 1 ) {
$range = shift @args;
} else {
($start,$end,$strand,$range,
$contain,$strandmatch) = $self->_rearrange([qw(START END
STRAND
RANGE CONTAIN
STRANDMATCH)],
@args);
$contain = 1 unless defined $contain;
}
$strand = 1 unless defined $strand;
if( $strand !~ /^([\-\+])$/ &&
$strand !~ /^[\-\+]?1$/ ) {
$self->warn("must provide a valid numeric or +/- for strand");
return ();
}
if( defined $1 ) { $strand .= 1; }
if( !defined $start && !defined $end ) {
if( ! defined $range || !ref($range) || ! $range->isa("Bio::RangeI") )
{
$self->warn("Must defined a valid Range for the method feature_in_range");
return ();
}
($start,$end,$strand) = ($range->start,$range->end,$range->strand);
}
my $r = new Bio::Location::Simple(-start => $start,
-end => $end,
-strand => $strand);
my @features;
my $maxbin = $self->max_bin;
my $minbin = $self->min_bin;
my $tier = $maxbin;
my ($k,$v,@bins) = ("",undef);
while ($tier >= $minbin) {
my ($tier_start,$tier_stop) = (bin_bot($tier,$start),
bin_top($tier,$end));
if( $tier_start == $tier_stop ) {
my @vals = $self->{'_btree'}->get_dup($tier_start);
if( scalar @vals > 0 ) {
push @bins, map { $self->{'_features'}->[$_] } @vals;
}
} else {
$k = $tier_start;
my @vals;
for( my $rc = $self->{'_btree'}->seq($k,$v,R_CURSOR);
$rc == 0;
$rc = $self->{'_btree'}->seq($k,$v, R_NEXT) ) {
last if( $k > $tier_stop || $k < $tier_start);
push @vals, $v;
}
foreach my $v ( @vals ) {
if( defined $self->{'_features'}->[$v] ) {
push @bins, $self->{'_features'}->[$v] ;
} else {
}
}
}
$tier /= 10;
}
$strandmatch = 'ignore' unless defined $strandmatch;
return ( $contain ) ? grep { $r->contains($_,$strandmatch) } @bins :
grep { $r->overlaps($_,$strandmatch)} @bins;} | sub get_all_features
{ my ($self) = @_;
return grep {defined $_} @{ $self->{'_features'} };} | sub max_bin
{ my ($self,$max) = @_;
if( defined $max ) {
$self->{'_max_bin'} = $max;
}
return $self->{'max_bin'} || MAX_BIN;} | sub min_bin
{ my ($self,$min) = @_;
if( defined $min ) {
$self->{'_min_bin'} = $min;
}
return $self->{'_min_bin'} || MIN_BIN;} | sub new
{ my($class,@args) = @_;
my $self = $class->SUPER::new(@args);
my ($maxbin,$minbin,$usefile,$features) = $self->_rearrange([qw(MAXBIN MINBIN
USEFILE
FEATURES)],@args);
defined $maxbin && $self->max_bin($maxbin);
defined $minbin && $self->min_bin($minbin);
defined $features && $self->add_features($features);
$DB_BTREE->{'flags'} = R_DUP ;
$DB_BTREE->{'compare'} =\& _compare;
$self->{'_btreehash'} = {};
my $tmpname = undef;
if( $usefile ) {
$self->{'_io'} = new Bio::Root::IO;
(undef,$tmpname) = $self->{'_io'}->tempfile();
unlink($tmpname);
$self->debug("tmpfile is $tmpname");
}
$self->{'_btree'} = tie %{$self->{'_btreehash'}},
'DB_File', $tmpname, O_RDWR|O_CREAT, 0640, $DB_BTREE;
$self->{'_features'} = [];
return $self;} | sub remove_features
{ my ($self,$feats) = @_;
if( ref($feats) !~ /ARRAY/i ) {
$self->warn("Must provide a valid Array reference to remove_features");
return 0;
}
my $countprocessed = 0;
foreach my $f ( @$feats ) {
next if ! ref($f) || ! $f->isa('Bio::RangeI');
my $bin = bin($f->start,$f->end,$self->min_bin);
my @vals = $self->{'_btree'}->get_dup($bin);
my $vcount = scalar @vals;
foreach my $v ( @vals ) {
if( $self->{'_features'}->[$v] == $f ) {
$self->{'_features'}->[$v] = undef;
$self->{'_btree'}->del_dup($bin,$v);
$vcount--;
}
}
if( $vcount == 0 ) {
$self->{'_btree'}->del($bin);
}
}} | 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
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bioperl-bugs@bioperl.org
http://bugzilla.bioperl.org/
| AUTHOR - Jason Stajich | Top |
Using code and strategy developed by Lincoln Stein (
lstein@cshl.org)
in Bio::DB::GFF implementation.
The rest of the documentation details each of the object methods.
Internal methods are usually preceded with a _