package Bio::DB::SeqFeature::Store::berkeleydb;
use strict;
use base 'Bio::DB::SeqFeature::Store';
use Bio::DB::GFF::Util::Rearrange 'rearrange';
use DB_File;
use Fcntl qw(O_RDWR O_CREAT :flock);
use IO::File;
use File::Temp 'tempdir';
use File::Path 'rmtree','mkpath';
use File::Basename;
use File::Spec;
use Carp 'carp','croak';
use constant BINSIZE => 10_000;
use constant MININT => -999_999_999_999;
use constant MAXINT => 999_999_999_999;
=head1 NAME
Bio::DB::SeqFeature::Store::berkeleydb -- Storage and retrieval of sequence annotation data in Berkeleydb files
=head1 SYNOPSIS
use Bio::DB::SeqFeature::Store;
# Create a database from the feature files located in /home/fly4.3 and store
# the database index in the same directory:
my $db = Bio::DB::SeqFeature::Store->new( -adaptor => 'berkeleydb',
-dir => '/home/fly4.3');
# Create a database that will monitor the files in /home/fly4.3, but store
# the indexes in /var/databases/fly4.3
$db = Bio::DB::SeqFeature::Store->new( -adaptor => 'berkeleydb',
-dir => '/home/fly4.3',
-dsn => '/var/databases/fly4.3');
# Create a feature database from scratch
$db = Bio::DB::SeqFeature::Store->new( -adaptor => 'berkeleydb',
-dsn => '/var/databases/fly4.3',
-create => 1);
# get a feature from somewhere
my $feature = Bio::SeqFeature::Generic->new(...);
# store it
$db->store($feature) or die "Couldn't store!";
# primary ID of the feature is changed to indicate its primary ID
# in the database...
my $id = $feature->primary_id;
# get the feature back out
my $f = $db->fetch($id);
# change the feature and update it
$f->start(100);
$db->update($f) or $self->throw("Couldn't update!");
# use the GFF3 loader to do a bulk write:
my $loader = Bio::DB::SeqFeature::Store::GFF3Loader->new(-store => $db,
-verbose => 0,
-fast => 1);
$loader->load('/home/fly4.3/dmel-all.gff');
# searching...
# ...by id
my @features = $db->fetch_many(@list_of_ids);
# ...by name
@features = $db->get_features_by_name('ZK909');
# ...by alias
@features = $db->get_features_by_alias('sma-3');
# ...by type
@features = $db->get_features_by_type('gene');
# ...by location
@features = $db->get_features_by_location(-seq_id=>'Chr1',-start=>4000,-end=>600000);
# ...by attribute
@features = $db->get_features_by_attribute({description => 'protein kinase'})
# ...by the GFF "Note" field
@result_list = $db->search_notes('kinase');
# ...by arbitrary combinations of selectors
@features = $db->features(-name => $name,
-type => $types,
-seq_id => $seqid,
-start => $start,
-end => $end,
-attributes => $attributes);
# ...using an iterator
my $iterator = $db->get_seq_stream(-name => $name,
-type => $types,
-seq_id => $seqid,
-start => $start,
-end => $end,
-attributes => $attributes);
while (my $feature = $iterator->next_seq) {
# do something with the feature
}
# ...limiting the search to a particular region
my $segment = $db->segment('Chr1',5000=>6000);
my @features = $segment->features(-type=>['mRNA','match']);
# what feature types are defined in the database?
my @types = $db->types;
# getting & storing sequence information
# Warning: this returns a string, and not a PrimarySeq object
$db->insert_sequence('Chr1','GATCCCCCGGGATTCCAAAA...');
my $sequence = $db->fetch_sequence('Chr1',5000=>6000);
# create a new feature in the database
my $feature = $db->new_feature(-primary_tag => 'mRNA',
-seq_id => 'chr3',
-start => 10000,
-end => 11000);
=head1 DESCRIPTION
Bio::DB::SeqFeature::Store::berkeleydb is the Berkeleydb adaptor for
Bio::DB::SeqFeature::Store. You will not create it directly, but
instead use Bio::DB::SeqFeature::Store-E<gt>new() to do so.
See L<Bio::DB::SeqFeature::Store> for complete usage instructions.
=head2 Using the berkeleydb adaptor
The Berkeley database consists of a series of Berkeleydb index files,
and a couple of special purpose indexes. You can create the index
files from scratch by creating a new database and calling
new_feature() repeatedly, you can create the database and then bulk
populate it using the GFF3 loader, or you can monitor a directory of
preexisting GFF3 and FASTA files and rebuild the indexes whenever one
or more of the fields changes. The last mode is probably the most
convenient. Note that the indexer will only pay attention to files
that end with .gff3, .wig and .fa.
=over 4
=item The new() constructor
The new() constructor method all the arguments recognized by
Bio::DB::SeqFeature::Store, and a few additional ones.
Standard arguments:
Name Value
---- -----
-adaptor The name of the Adaptor class (default DBI::mysql)
-serializer The name of the serializer class (default Storable)
-index_subfeatures Whether or not to make subfeatures searchable
(default true)
-cache Activate LRU caching feature -- size of cache
-compress Compresses features before storing them in database
using Compress::Zlib
Adaptor-specific arguments
Name Value
---- -----
-dsn Where the index files are stored
-dir Where the source (GFF3, FASTA) files are stored
-autoindex An alias for -dir.
-write Pass true to open the index files for writing.
-create Pass true to create the index files if they don't exist
(implies -write=>1)
-locking Use advisory locking to avoid one process trying to read
from the database while another is updating it (may not
work properly over NFS).
-temp Pass true to create temporary index files that will
be deleted once the script exits.
-verbose Pass true to report autoindexing operations on STDERR.
(default is true).
Examples:
To create an empty database which will be populated using calls to
store() or new_feature(), or which will be bulk-loaded using the GFF3
loader:
$db = Bio::DB::SeqFeature::Store->new( -adaptor => 'berkeleydb',
-dsn => '/var/databases/fly4.3',
-create => 1);
To open a preexisting database in read-only mode:
$db = Bio::DB::SeqFeature::Store->new( -adaptor => 'berkeleydb',
-dsn => '/var/databases/fly4.3');
To open a preexisting database in read/write (update) mode:
$db = Bio::DB::SeqFeature::Store->new( -adaptor => 'berkeleydb',
-dsn => '/var/databases/fly4.3',
-write => 1);
To monitor a set of GFF3 and FASTA files located in a directory and
create/update the database indexes as needed. The indexes will be
stored in a new subdirectory named "indexes":
$db = Bio::DB::SeqFeature::Store->new( -adaptor => 'berkeleydb',
-dir => '/var/databases/fly4.3');
As above, but store the source files and index files in separate directories:
$db = Bio::DB::SeqFeature::Store->new( -adaptor => 'berkeleydb',
-dsn => '/var/databases/fly4.3',
-dir => '/home/gff3_files/fly4.3');
To be indexed, files must end with one of .gff3 (GFF3 format), .fa
(FASTA format) or .wig (WIG format).
B<-autoindex> is an alias for B<-dir>.
You should specify B<-locking> in a multiuser environment, including
the case in which the database is being used by a web server at the
same time another user might be updating it.
=back
See L<Bio::DB::SeqFeature::Store> for all the access methods supported
by this adaptor. The various methods for storing and updating features
and sequences into the database are supported, but there is no
locking. If two processes try to update the same database
simultaneously, the database will likely become corrupted.
=cut
###
# object initialization
#
sub init {
my $self = shift;
my ($directory,
$autoindex,
$is_temporary,
$write,
$create,
$verbose,
$locking,
) = rearrange([['DSN','DB'],
[qw(DIR AUTOINDEX)],
['TMP','TEMP','TEMPORARY'],
[qw(WRITE WRITABLE)],
'CREATE',
'VERBOSE',
[qw(LOCK LOCKING)],
],@_);
$verbose = 1 unless defined $verbose;
if ($autoindex) {
-d $autoindex or $self->throw("Invalid directory $autoindex");
$directory ||= "$autoindex/indexes";
}
$directory ||= $is_temporary ? File::Spec->tmpdir : '.';
#
my $pacname = __PACKAGE__;
if ($^O =~ /mswin/i) {
$pacname =~ s/:+/_/g;
}
$directory = tempdir($pacname.'_XXXXXX',
TMPDIR => 1,
CLEANUP => 1,
DIR => $directory) if $is_temporary;
mkpath($directory);
-d $directory or $self->throw("Invalid directory $directory");
$create++ if $is_temporary;
$write ||= $create;
$self->throw("Can't write into the directory $directory")
if $write && !-w $directory;
$self->default_settings;
$self->directory($directory);
$self->temporary($is_temporary);
$self->verbose($verbose);
$self->locking($locking);
$self->_delete_databases() if $create;
if ($autoindex && -d $autoindex) {
$self->auto_reindex($autoindex);
}
$self->lock('shared');
# this step may rebless $self into a subclass
# to preserve backward compatibility with older
# databases while providing better performance for
# new databases.
$self->possibly_rebless($create);
$self->_open_databases($write,$create,$autoindex);
$self->_permissions($write,$create);
return $self;
}
sub version { return 2.0 };
sub possibly_rebless {
my $self = shift;
my $create = shift;
my $do_rebless;
if ($create) {
$do_rebless++;
} else { # probe database
my %h;
tie (%h,'DB_File',$self->_features_path,O_RDONLY,0666,$DB_HASH) or return;
$do_rebless = $h{'.version'} >= 3.0;
}
if ($do_rebless) {
eval "require Bio::DB::SeqFeature::Store::berkeleydb3";
bless $self,'Bio::DB::SeqFeature::Store::berkeleydb3';
}
}
sub can_store_parentage { 1 }
sub auto_reindex {
my $self = shift;
my $autodir = shift;
my $result = $self->needs_auto_reindexing($autodir);
if ($result && %$result) {
$self->flag_autoindexing(1);
$self->lock('exclusive');
$self->reindex_wigfiles($result->{wig},$autodir) if $result->{wig};
$self->reindex_ffffiles($result->{fff},$autodir) if $result->{fff};
$self->reindex_gfffiles($result->{gff},$autodir) if $result->{gff};
$self->dna_db(Bio::DB::Fasta::Subdir->new($autodir));
$self->unlock;
$self->flag_autoindexing(0);
}
else {
$self->dna_db(Bio::DB::Fasta::Subdir->new($autodir));
}
}
sub autoindex_flagfile {
return File::Spec->catfile(shift->directory,'autoindex.pid');
}
sub auto_index_in_process {
my $self = shift;
my $flag_file = $self->autoindex_flagfile;
return unless -e $flag_file;
# if flagfile exists, then check that PID still exists
open my $fh, '<', $flag_file or $self->throw("Could not read file '$flag_file': $!");
my $pid = <$fh>;
close $fh;
return 1 if kill 0=>$pid;
warn "Autoindexing seems to be running in another process, but the process has gone away. Trying to override...";
if (unlink $flag_file) {
warn "Successfully removed stale PID file." if $self->verbose;
warn "Assuming partial reindexing process. Rebuilding indexes from scratch..." if $self->verbose;
my $glob = File::Spec->catfile($self->directory,'*');
unlink glob($glob);
return;
} else {
croak ("Cannot recover from apparent aborted autoindex process. Please remove files in ",
$self->directory,
" and allow the adaptor to reindex");
return 1;
}
}
sub flag_autoindexing {
my $self = shift;
my $doit = shift;
my $flag_file = $self->autoindex_flagfile;
if ($doit) {
open my $fh, '>', $flag_file or $self->throw("Could not write file '$flag_file': $!");
print $fh $$;
close $fh;
} else {
unlink $flag_file;
}
}
sub reindex_gfffiles {
my $self = shift;
my $files = shift;
my $autodir = shift;
warn "Reindexing GFF files...\n" if $self->verbose;
my $exists = -e $self->_features_path;
$self->_permissions(1,1);
$self->_close_databases();
$self->_open_databases(1,!$exists);
require Bio::DB::SeqFeature::Store::GFF3Loader
unless Bio::DB::SeqFeature::Store::GFF3Loader->can('new');
my $loader = Bio::DB::SeqFeature::Store::GFF3Loader->new(-store => $self,
-sf_class => $self->seqfeature_class,
-verbose => $self->verbose,
)
or $self->throw("Couldn't create GFF3Loader");
my %seen;
$loader->load(grep {!$seen{$_}++} @$files);
$self->_touch_timestamp;
}
sub reindex_ffffiles {
my $self = shift;
my $files = shift;
my $autodir = shift;
warn "Reindexing FFF files...\n" if $self->verbose;
$self->_permissions(1,1);
$self->_close_databases();
$self->_open_databases(1,1);
require Bio::DB::SeqFeature::Store::FeatureFileLoader
unless Bio::DB::SeqFeature::Store::FeatureFileLoader->can('new');
my $loader = Bio::DB::SeqFeature::Store::FeatureFileLoader->new(-store => $self,
-sf_class => $self->seqfeature_class,
-verbose => $self->verbose,
)
or $self->throw("Couldn't create FeatureFileLoader");
my %seen;
$loader->load(grep {!$seen{$_}++} @$files);
$self->_touch_timestamp;
}
sub reindex_wigfiles {
my $self = shift;
my $files = shift;
my $autodir = shift;
warn "Reindexing wig files...\n" if $self->verbose;
unless (Bio::Graphics::Wiggle::Loader->can('new')) {
eval "require Bio::Graphics::Wiggle::Loader; 1"
or return;
}
for my $wig (@$files) {
warn "Reindexing $wig...\n" if $self->verbose;
my ($wib_name) = fileparse($wig,qr/\.[^.]*/);
my $gff3_name = "$wib_name.gff3";
# unlink all wib files that share the basename
my $wib_glob = File::Spec->catfile($self->directory,"$wib_name*.wib");
unlink glob($wib_glob);
my $loader = Bio::Graphics::Wiggle::Loader->new($self->directory,$wib_name);
my $fh = IO::File->new($wig) or die "Can't open $wig: $!";
$loader->load($fh); # will create one or more .wib files
$fh->close;
my $gff3_data = $loader->featurefile('gff3','microarray_oligo',$wib_name);
my $gff3_path = File::Spec->catfile($autodir,$gff3_name);
$fh = IO::File->new($gff3_path,'>')
or die "Can't open $gff3_path for writing: $!";
$fh->print($gff3_data);
$fh->close;
my $conf_path = File::Spec->catfile($autodir,"$wib_name.conf");
$fh = IO::File->new($conf_path,'>');
$fh->print($loader->conf_stanzas('microarray_oligo',$wib_name));
$fh->close;
}
}
# returns the following hashref
# empty hash if nothing needs reindexing
# {fasta => 1} if DNA database needs reindexing
# {gff => [list,of,gff,paths]} if gff3 files need reindexing
# {wig => [list,of,wig,paths]} if wig files need reindexing
sub needs_auto_reindexing {
my $self = shift;
my $autodir = shift;
my $result = {};
# don't allow two processes to reindex simultaneously
$self->auto_index_in_process and croak "Autoindexing in process. Try again later";
# first interrogate the GFF3 files, using the timestamp file
# as modification comparison
my (@gff3,@fff,@wig,$fasta,$fasta_index_time);
opendir (my $D,$autodir)
or $self->throw("Couldn't open directory $autodir for reading: $!");
my $maxtime = 0;
my $timestamp_time = _mtime($self->_mtime_path) || 0;
while (defined (my $node = readdir($D))) {
next if $node =~ /^\./;
my $path = File::Spec->catfile($autodir,$node);
next unless -f $path;
if ($path =~ /\.gff\d?$/i) {
my $mtime = _mtime(\*_); # not a typo
$maxtime = $mtime if $mtime > $maxtime;
push @gff3,$path;
}
elsif ($path =~ /\.fff?$/i) {
my $mtime = _mtime(\*_); # not a typo
$maxtime = $mtime if $mtime > $maxtime;
push @fff,$path;
}
elsif ($path =~ /\.wig$/i) {
my $wig = $path;
(my $gff_file = $wig) =~ s/\.wig$/\.gff3/i;
next if -e $gff_file && _mtime($gff_file) > _mtime($path);
push @wig,$wig;
push @gff3,$gff_file;
$maxtime = time();
}
elsif ($path =~ /\.(fa|fasta|dna)$/i) {
$fasta_index_time =
_mtime(File::Spec->catfile($self->directory,'fasta.index'))||0
unless defined $fasta_index_time;
$fasta++ if _mtime($path) > $fasta_index_time;
}
}
closedir $D;
$result->{gff} = \@gff3 if $maxtime > $timestamp_time;
$result->{wig} = \@wig if @wig;
$result->{fff} = \@fff if @fff;
$result->{fasta}++ if $fasta;
return $result;
}
sub verbose {
my $self = shift;
my $d = $self->{verbose};
$self->{verbose} = shift if @_;
return $d;
}
sub locking {
my $self = shift;
my $d = $self->{locking};
$self->{locking} = shift if @_;
return $d;
}
sub lockfile {
my $self = shift;
return File::Spec->catfile($self->directory,'lock');
}
sub lock {
my $self = shift;
my $mode = shift;
return unless $self->locking;
my $flag = $mode eq 'exclusive' ? LOCK_EX : LOCK_SH;
my $lockfile = $self->lockfile;
my $fh = $self->_flock_fh;
unless ($fh) {
my $open = -e $lockfile ? '<' : '>';
$fh = IO::File->new($lockfile,$open) or die "Cannot open $lockfile: $!";
}
flock($fh,$flag);
$self->_flock_fh($fh);
}
sub unlock {
my $self = shift;
return unless $self->locking;
my $fh = $self->_flock_fh or return;
flock($fh,LOCK_UN);
undef $self->{flock_fh};
}
sub _flock_fh {
my $self = shift;
my $d = $self->{flock_fh};
$self->{flock_fh} = shift if @_;
$d;
}
sub _open_databases {
my $self = shift;
my ($write,$create,$ignore_errors) = @_;
return if $self->db; # already open - don't reopen
my $directory = $self->directory;
unless (-d $directory) { # directory does not exist
$create or $self->throw("Directory $directory does not exist and you did not specify the -create flag");
mkpath($directory) or $self->throw("Couldn't create database directory $directory: $!");
}
my $flags = O_RDONLY;
$flags |= O_RDWR if $write;
$flags |= O_CREAT if $create;
# Create the main database; this is a DB_HASH implementation
my %h;
my $result = tie (%h,'DB_File',$self->_features_path,$flags,0666,$DB_HASH);
unless ($result) {
return if $ignore_errors; # autoindex set, so defer this
$self->throw("Couldn't tie: ".$self->_features_path . " $!");
}
if ($create) {
%h = ();
$h{'.next_id'} = 1;
$h{'.version'} = $self->version;
}
$self->db(\%h);
$self->open_index_dbs($flags,$create);
$self->open_parentage_db($flags,$create);
$self->open_notes_db($write,$create);
$self->open_seq_db($flags,$create) if -e $self->_fasta_path;
}
sub open_index_dbs {
my $self = shift;
my ($flags,$create) = @_;
# Create the index databases; these are DB_BTREE implementations with duplicates allowed.
$DB_BTREE->{flags} = R_DUP;
$DB_BTREE->{compare} = sub { lc($_[0]) cmp lc($_[1]) };
for my $idx ($self->_index_files) {
my $path = $self->_qualify("$idx.idx");
my %db;
my $result = tie(%db,'DB_File',$path,$flags,0666,$DB_BTREE);
# for backward compatibility, allow a failure when trying to open the is_indexed index.
$self->throw("Couldn't tie $path: $!") unless $result || $idx eq 'is_indexed';
%db = () if $create;
$self->index_db($idx=>\%db);
}
}
sub open_parentage_db {
my $self = shift;
my ($flags,$create) = @_;
# Create the parentage database
my %p;
tie (%p,'DB_File',$self->_parentage_path,$flags,0666,$DB_BTREE)
or $self->throw("Couldn't tie: ".$self->_parentage_path . $!);
%p = () if $create;
$self->parentage_db(\%p);
}
sub open_notes_db {
my $self = shift;
my ($write,$create) = @_;
my $mode = $write ? "+>>"
: $create ? "+>"
: "<";
my $notes_file = $self->_notes_path;
open my $F, $mode, $notes_file or $self->throw("Could not open file '$notes_file': $!");
$self->notes_db($F);
}
sub open_seq_db {
my $self = shift;
if (-e $self->_fasta_path) {
my $dna_db = Bio::DB::Fasta::Subdir->new($self->_fasta_path)
or $self->throw("Can't reindex sequence file: $@");
$self->dna_db($dna_db);
}
}
sub commit { # reindex fasta files
my $self = shift;
if (my $fh = $self->{fasta_fh}) {
$fh->close;
$self->dna_db(Bio::DB::Fasta::Subdir->new($self->{fasta_file}));
} elsif (-d $self->directory) {
$self->dna_db(Bio::DB::Fasta::Subdir->new($self->directory));
}
}
sub _close_databases {
my $self = shift;
$self->db(undef);
$self->dna_db(undef);
$self->notes_db(undef);
$self->parentage_db(undef);
$self->index_db($_=>undef) foreach $self->_index_files;
}
# do nothing -- new() with -create=>1 will do the trick
sub _init_database { }
sub _delete_databases {
my $self = shift;
for my $idx ($self->_index_files) {
my $path = $self->_qualify("$idx.idx");
unlink $path;
}
unlink $self->_parentage_path;
unlink $self->_fasta_path;
unlink $self->_features_path;
unlink $self->_mtime_path;
}
sub _touch_timestamp {
my $self = shift;
my $tsf = $self->_mtime_path;
open my $F, '>', $tsf or $self->throw("Could not write file '$tsf': $!");
print $F scalar(localtime);
close $F;
}
sub _store {
my $self = shift;
my $indexed = shift;
my $db = $self->db;
my $is_indexed = $self->index_db('is_indexed');
my $count = 0;
for my $obj (@_) {
my $primary_id = $obj->primary_id;
$self->_delete_indexes($obj,$primary_id) if $indexed && $primary_id;
$primary_id = $db->{'.next_id'}++ unless defined $primary_id;
$db->{$primary_id} = $self->freeze($obj);
$is_indexed->{$primary_id} = $indexed if $is_indexed;
$obj->primary_id($primary_id);
$self->_update_indexes($obj) if $indexed;
$count++;
}
$count;
}
sub _delete_indexes {
my $self = shift;
my ($obj,$id) = @_;
# the additional "1" causes the index to be deleted
$self->_update_name_index($obj,$id,1);
$self->_update_type_index($obj,$id,1);
$self->_update_location_index($obj,$id,1);
$self->_update_attribute_index($obj,$id,1);
$self->_update_note_index($obj,$id,1);
}
sub _fetch {
my $self = shift;
my $id = shift;
my $db = $self->db;
my $obj = $self->thaw($db->{$id},$id);
$obj;
}
sub _add_SeqFeature {
my $self = shift;
my $parent = shift;
my @children = @_;
my $parent_id = (ref $parent ? $parent->primary_id : $parent)
or $self->throw("$parent should have a primary_id");
my $p = $self->parentage_db;
for my $child (@children) {
my $child_id = ref $child ? $child->primary_id : $child;
defined $child_id or $self->throw("no primary ID known for $child");
$p->{$parent_id} = $child_id if tied(%$p)->find_dup($parent_id,$child_id);
}
return scalar @children;
}
sub _fetch_SeqFeatures {
my $self = shift;
my $parent = shift;
my @types = @_;
my $parent_id = $parent->primary_id or $self->throw("$parent should have a primary_id");
my $index = $self->parentage_db;
my $db = tied %$index;
my @children_ids = $db->get_dup($parent_id);
my @children = map {$self->fetch($_)} @children_ids;
if (@types) {
foreach (@types) {
my ($a,$b) = split ':',$_,2;
$_ = quotemeta($a);
if (length $b) {
$_ .= ":".quotemeta($b).'$';
} else {
$_ .= ':';
}
}
my $regexp = join '|', @types;
return grep {($_->primary_tag.':'.$_->source_tag) =~ /^($regexp)/i} @children;
} else {
return @children;
}
}
sub _update_indexes {
my $self = shift;
my $obj = shift;
defined (my $id = $obj->primary_id) or return;
$self->_update_name_index($obj,$id);
$self->_update_type_index($obj,$id);
$self->_update_location_index($obj,$id);
$self->_update_attribute_index($obj,$id);
$self->_update_note_index($obj,$id);
}
sub _update_name_index {
my $self = shift;
my ($obj,$id,$delete) = @_;
my $db = $self->index_db('names') or $self->throw("Couldn't find 'names' index file");
my ($names,$aliases) = $self->feature_names($obj);
# little stinky - needs minor refactoring
foreach (@$names) {
my $key = lc $_;
$self->update_or_delete($delete,$db,$key,$id);
}
foreach (@$aliases) {
my $key = lc($_)."_2"; # the _2 indicates a secondary (alias) ID
$self->update_or_delete($delete,$db,$key,$id);
}
}
sub _update_type_index {
my $self = shift;
my ($obj,$id,$delete) = @_;
my $db = $self->index_db('types')
or $self->throw("Couldn't find 'types' index file");
my $primary_tag = $obj->primary_tag;
my $source_tag = $obj->source_tag || '';
return unless defined $primary_tag;
$primary_tag .= ":$source_tag";
my $key = lc $primary_tag;
$self->update_or_delete($delete,$db,$key,$id);
}
# Note: this indexing scheme is space-inefficient because it stores the
# denormalized sequence ID followed by the bin in XXXXXX zero-leading
# format. It should be replaced with a binary numeric encoding and the
# BTREE {compare} attribute changed accordingly.
sub _update_location_index {
my $self = shift;
my ($obj,$id,$delete) = @_;
my $db = $self->index_db('locations')
or $self->throw("Couldn't find 'locations' index file");
my $seq_id = $obj->seq_id || '';
my $start = $obj->start || '';
my $end = $obj->end || '';
my $strand = $obj->strand;
my $bin_min = int $start/BINSIZE;
my $bin_max = int $end/BINSIZE;
for (my $bin = $bin_min; $bin <= $bin_max; $bin++ ) {
my $key = sprintf("%s.%06d",lc($seq_id),$bin);
$self->update_or_delete($delete,$db,$key,pack("i4",$id,$start,$end,$strand));
}
}
sub _update_attribute_index {
my $self = shift;
my ($obj,$id,$delete) = @_;
my $db = $self->index_db('attributes')
or $self->throw("Couldn't find 'attributes' index file");
for my $tag ($obj->get_all_tags) {
for my $value ($obj->get_tag_values($tag)) {
my $key = "${tag}:${value}";
$self->update_or_delete($delete,$db,$key,$id);
}
}
}
sub _update_note_index {
my $self = shift;
my ($obj,$id,$delete) = @_;
return if $delete; # we don't know how to do this
my $fh = $self->notes_db;
my @notes = $obj->get_tag_values('Note') if $obj->has_tag('Note');
print $fh $_,"\t",pack("u*",$id) or $self->throw("An error occurred while updating note index: $!")
foreach @notes;
}
sub update_or_delete {
my $self = shift;
my ($delete,$db,$key,$id) = @_;
if ($delete) {
tied(%$db)->del_dup($key,$id);
} else {
$db->{$key} = $id;
}
}
# these methods return pointers to....
# the database that stores serialized objects
sub db {
my $self = shift;
my $d = $self->setting('db');
$self->setting(db=>shift) if @_;
$d;
}
sub parentage_db {
my $self = shift;
my $d = $self->setting('parentage_db');
$self->setting(parentage_db=>shift) if @_;
$d;
}
# the Bio::DB::Fasta object
sub dna_db {
my $self = shift;
my $d = $self->setting('dna_db');
$self->setting(dna_db=>shift) if @_;
$d;
}
# the specialized notes database
sub notes_db {
my $self = shift;
my $d = $self->setting('notes_db');
$self->setting(notes_db=>shift) if @_;
$d;
}
# the is_indexed_db
sub is_indexed_db {
my $self = shift;
my $d = $self->setting('is_indexed_db');
$self->setting(is_indexed_db=>shift) if @_;
$d;
}
# The indicated index berkeley db
sub index_db {
my $self = shift;
my $index_name = shift;
my $d = $self->setting($index_name);
$self->setting($index_name=>shift) if @_;
$d;
}
sub _mtime {
my $file = shift;
my @stat = stat($file);
return $stat[9];
}
# return names of all the indexes
sub _index_files {
return qw(names types locations attributes is_indexed);
}
# the directory in which we store our indexes
sub directory {
my $self = shift;
my $d = $self->setting('directory');
$self->setting(directory=>shift) if @_;
$d;
}
# flag indicating that we are a temporary database
sub temporary {
my $self = shift;
my $d = $self->setting('temporary');
$self->setting(temporary=>shift) if @_;
$d;
}
sub _permissions {
my $self = shift;
my $d = $self->setting('permissions') or return;
if (@_) {
my ($write,$create) = @_;
$self->setting(permissions=>[$write,$create]);
}
@$d;
}
# file name utilities...
sub _qualify {
my $self = shift;
my $file = shift;
return $self->directory .'/' . $file;
}
sub _features_path {
shift->_qualify('features.bdb');
}
sub _parentage_path {
shift->_qualify('parentage.bdb');
}
sub _type_path {
shift->_qualify('types.idx');
}
sub _location_path {
shift->_qualify('locations.idx');
}
sub _attribute_path {
shift->_qualify('attributes.idx');
}
sub _notes_path {
shift->_qualify('notes.idx');
}
sub _fasta_path {
shift->_qualify('sequence.fa');
}
sub _mtime_path {
shift->_qualify('mtime.stamp');
}
###########################################
# searching
###########################################
sub _features {
my $self = shift;
my ($seq_id,$start,$end,$strand,
$name,$class,$allow_aliases,
$types,
$attributes,
$range_type,
$iterator
) = rearrange([['SEQID','SEQ_ID','REF'],'START',['STOP','END'],'STRAND',
'NAME','CLASS','ALIASES',
['TYPES','TYPE','PRIMARY_TAG'],
['ATTRIBUTES','ATTRIBUTE'],
'RANGE_TYPE',
'ITERATOR',
],@_);
my (@from,@where,@args,@group);
$range_type ||= 'overlaps';
my @result;
unless (defined $name or defined $seq_id or defined $types or defined $attributes) {
my $is_indexed = $self->index_db('is_indexed');
@result = $is_indexed ? grep {$is_indexed->{$_}} keys %{$self->db}
: grep { !/^\./ }keys %{$self->db};
}
my %found = ();
my $result = 1;
if (defined($name)) {
# hacky backward compatibility workaround
undef $class if $class && $class eq 'Sequence';
$name = "$class:$name" if defined $class && length $class > 0;
$result &&= $self->filter_by_name($name,$allow_aliases,\%found);
}
if (defined $seq_id) {
$result &&= $self->filter_by_location($seq_id,$start,$end,$strand,$range_type,\%found);
}
if (defined $types) {
$result &&= $self->filter_by_type($types,\%found);
}
if (defined $attributes) {
$result &&= $self->filter_by_attribute($attributes,\%found);
}
push @result,keys %found if $result;
return $iterator ? Bio::DB::SeqFeature::Store::berkeleydb::Iterator->new($self,\@result)
: map {$self->fetch($_)} @result;
}
sub filter_by_name {
my $self = shift;
my ($name,$allow_aliases,$filter) = @_;
my $index = $self->index_db('names');
my $db = tied(%$index);
my ($stem,$regexp) = $self->glob_match($name);
$stem ||= $name;
$regexp ||= $name;
$regexp .= "(?:_2)?" if $allow_aliases;
my $key = $stem;
my $value;
my @results;
for (my $status = $db->seq($key,$value,R_CURSOR);
$status == 0 and $key =~ /^$regexp$/i;
$status = $db->seq($key,$value,R_NEXT)) {
next if %$filter && !$filter->{$value}; # don't bother
push @results,$value;
}
$self->update_filter($filter,\@results);
}
sub filter_by_type {
my $self = shift;
my ($types,$filter) = @_;
my @types = ref $types eq 'ARRAY' ? @$types : $types;
my $index = $self->index_db('types');
my $db = tied(%$index);
my @results;
for my $type (@types) {
my ($primary_tag,$source_tag);
if (ref $type && $type->isa('Bio::DB::GFF::Typename')) {
$primary_tag = $type->method;
$source_tag = $type->source;
} else {
($primary_tag,$source_tag) = split ':',$type,2;
}
my $match = defined $source_tag ? "^$primary_tag:$source_tag\$" : "^$primary_tag:";
$source_tag ||= '';
my $key = lc "$primary_tag:$source_tag";
my $value;
# If filter is already provided, then it is usually faster to
# fetch each object.
if (%$filter) {
for my $id (keys %$filter) {
my $obj = $self->_fetch($id) or next;
push @results,$id if $obj->type =~ /$match/i;
}
}
else {
for (my $status = $db->seq($key,$value,R_CURSOR);
$status == 0 && $key =~ /$match/i;
$status = $db->seq($key,$value,R_NEXT)) {
next if %$filter && !$filter->{$value}; # don't even bother
push @results,$value;
}
}
}
$self->update_filter($filter,\@results);
}
sub filter_by_location {
my $self = shift;
my ($seq_id,$start,$end,$strand,$range_type,$filter) = @_;
$strand ||= 0;
my $index = $self->index_db('locations');
my $db = tied(%$index);
my $binstart = defined $start ? sprintf("%06d",int $start/BINSIZE) : '';
my $binend = defined $end ? sprintf("%06d",int $end/BINSIZE) : 'z'; # beyond a number
my %seenit;
my @results;
$start = MININT if !defined $start;
$end = MAXINT if !defined $end;
my $version_2 = $self->db_version > 1;
if ($range_type eq 'overlaps' or $range_type eq 'contains') {
my $key = $version_2 ? "\L$seq_id\E.$binstart" : "\L$seq_id\E$binstart";
my $keystop = $version_2 ? "\L$seq_id\E.$binend" : "\L$seq_id\E$binend";
my $value;
for (my $status = $db->seq($key,$value,R_CURSOR);
$status == 0 && $key le $keystop;
$status = $db->seq($key,$value,R_NEXT)) {
my ($id,$fstart,$fend,$fstrand) = unpack("i4",$value);
next if $seenit{$id}++;
next if $strand && $fstrand != $strand;
if ($range_type eq 'overlaps') {
next unless $fend >= $start && $fstart <= $end;
}
elsif ($range_type eq 'contains') {
next unless $fstart >= $start && $fend <= $end;
}
next if %$filter && !$filter->{$id}; # don't bother
push @results,$id;
}
}
# for contained in, we look for features originating and terminating outside the specified range
# this is incredibly inefficient, but fortunately the query is rare (?)
elsif ($range_type eq 'contained_in') {
my $key = $version_2 ? "\L$seq_id." : "\L$seq_id";
my $keystop = $version_2 ? "\L$seq_id\E.$binstart" : "\L$seq_id\E$binstart";
my $value;
# do the left part of the range
for (my $status = $db->seq($key,$value,R_CURSOR);
$status == 0 && $key le $keystop;
$status = $db->seq($key,$value,R_NEXT)) {
my ($id,$fstart,$fend,$fstrand) = unpack("i4",$value);
next if $seenit{$id}++;
next if $strand && $fstrand != $strand;
next unless $fstart <= $start && $fend >= $end;
next if %$filter && !$filter->{$id}; # don't bother
push @results,$id;
}
# do the right part of the range
$key = "\L$seq_id\E.$binend";
for (my $status = $db->seq($key,$value,R_CURSOR);
$status == 0;
$status = $db->seq($key,$value,R_NEXT)) {
my ($id,$fstart,$fend,$fstrand) = unpack("i4",$value);
next if $seenit{$id}++;
next if $strand && $fstrand != $strand;
next unless $fstart <= $start && $fend >= $end;
next if %$filter && !$filter->{$id}; # don't bother
push @results,$id;
}
}
$self->update_filter($filter,\@results);
}
sub attributes {
my $self = shift;
my $index = $self->index_db('attributes');
my %a = map {s/:.+$//; $_=> 1} keys %$index;
return keys %a;
}
sub filter_by_attribute {
my $self = shift;
my ($attributes,$filter) = @_;
my $index = $self->index_db('attributes');
my $db = tied(%$index);
my $result;
for my $att_name (keys %$attributes) {
my @result;
my @search_terms = ref($attributes->{$att_name}) && ref($attributes->{$att_name}) eq 'ARRAY'
? @{$attributes->{$att_name}} : $attributes->{$att_name};
for my $v (@search_terms) {
my ($stem,$regexp) = $self->glob_match($v);
$stem ||= $v;
$regexp ||= $v;
my $key = "\L${att_name}:${stem}\E";
my $value;
for (my $status = $db->seq($key,$value,R_CURSOR);
$status == 0 && $key =~ /^$att_name:$regexp$/i;
$status = $db->seq($key,$value,R_NEXT)) {
next if %$filter && !$filter->{$value}; # don't bother
push @result,$value;
}
}
$result ||= $self->update_filter($filter,\@result);
}
$result;
}
sub _search_attributes {
my $self = shift;
my ($search_string,$attribute_array,$limit) = @_;
$search_string =~ tr/*?//d;
my @words = map {quotemeta($_)} $search_string =~ /(\w+)/g;
my $search = join '|',@words;
my $index = $self->index_db('attributes');
my $db = tied(%$index);
my (%results,%notes);
for my $tag (@$attribute_array) {
my $id;
my $key = "\L$tag:\E";
for (my $status = $db->seq($key,$id,R_CURSOR);
$status == 0 and $key =~ /^$tag:(.*)/i;
$status = $db->seq($key,$id,R_NEXT)) {
my $text = $1;
next unless $text =~ /$search/;
for my $w (@words) {
my @hits = $text =~ /($w)/ig or next;
$results{$id} += @hits;
}
$notes{$id} .= "$text ";
}
}
my @results;
for my $id (keys %results) {
my $hits = $results{$id};
my $note = $notes{$id};
$note =~ s/\s+$//;
my $relevance = 10 * $hits;
my $feature = $self->fetch($id) or next;
my $name = $feature->display_name or next;
my $type = $feature->type;
push @results,[$name,$note,$relevance,$type,$id];
}
return @results;
}
sub search_notes {
my $self = shift;
my ($search_string,$limit) = @_;
$search_string =~ tr/*?//d;
my @results;
my @words = map {quotemeta($_)} $search_string =~ /(\w+)/g;
my $search = join '|',@words;
my (%found,$found);
my $note_index = $self->notes_db;
seek($note_index,0,0); # back to start
while (<$note_index>) {
next unless /$search/;
chomp;
my ($note,$uu) = split "\t";
$found{unpack("u*",$uu)}++;
last if $limit && ++$found >= $limit;
}
my (@features, @matches);
for my $idx (keys %found) {
my $feature = $self->fetch($idx) or next;
my @values = $feature->get_tag_values('Note') if $feature->has_tag('Note');
my $value = "@values";
my $hits;
$hits++ while $value =~ /($search)/ig; # count the number of times we were hit
push @matches,$hits;
push @features,$feature;
}
for (my $i=0; $i<@matches; $i++) {
my $feature = $features[$i];
my $matches = $matches[$i];
my $relevance = 10 * $matches;
my $note;
$note = join ' ',$feature->get_tag_values('Note') if $feature->has_tag('Note');
push @results,[$feature->display_name,$note,$relevance];
}
return @results;
}
sub glob_match {
my $self = shift;
my $term = shift;
return unless $term =~ /([^*?]*)(?:^|[^\\])?[*?]/;
my $stem = $1;
$term =~ s/(^|[^\\])([+\[\]^{}\$|\(\).])/$1\\$2/g;
$term =~ s/(^|[^\\])\*/$1.*/g;
$term =~ s/(^|[^\\])\?/$1./g;
return ($stem,$term);
}
sub update_filter {
my $self = shift;
my ($filter,$results) = @_;
return unless @$results;
if (%$filter) {
my @filtered = grep {$filter->{$_}} @$results;
%$filter = map {$_=>1} @filtered;
} else {
%$filter = map {$_=>1} @$results;
}
}
sub types {
my $self = shift;
eval "require Bio::DB::GFF::Typename"
unless Bio::DB::GFF::Typename->can('new');
my $index = $self->index_db('types');
my $db = tied(%$index);
return map {Bio::DB::GFF::Typename->new($_)} keys %$index;
}
# this is ugly
sub _insert_sequence {
my $self = shift;
my ($seqid,$seq,$offset) = @_;
my $dna_fh = $self->private_fasta_file or return;
if ($offset == 0) { # start of the sequence
print $dna_fh ">$seqid\n";
}
print $dna_fh $seq,"\n";
}
sub _fetch_sequence {
my $self = shift;
my ($seqid,$start,$end) = @_;
my $db = $self->dna_db or return;
return $db->seq($seqid,$start,$end);
}
sub private_fasta_file {
my $self = shift;
return $self->{fasta_fh} if exists $self->{fasta_fh};
$self->{fasta_file} = $self->_qualify("sequence.fa");
return $self->{fasta_fh} = IO::File->new($self->{fasta_file},">");
}
sub finish_bulk_update {
my $self = shift;
if (my $fh = $self->{fasta_fh}) {
$fh->close;
$self->{fasta_db} = Bio::DB::Fasta::Subdir->new($self->{fasta_file});
}
}
sub db_version {
my $self = shift;
my $db = $self->db;
return $db->{'.version'} || 1.00;
}
sub DESTROY {
my $self = shift;
$self->_close_databases();
$self->private_fasta_file->close;
rmtree($self->directory,0,1) if $self->temporary && -e $self->directory;
}
# TIE interface -- a little annoying because we are storing magic ".variable"
# meta-variables in the same data structure as the IDs, so these variables
# must be skipped.
sub _firstid {
my $self = shift;
my $db = $self->db;
my ($key,$value);
while ( ($key,$value) = each %{$db}) {
last unless $key =~ /^\./;
}
$key;
}
sub _nextid {
my $self = shift;
my $id = shift;
my $db = $self->db;
my ($key,$value);
while ( ($key,$value) = each %$db) {
last unless $key =~ /^\./;
}
$key;
}
sub _existsid {
my $self = shift;
my $id = shift;
return exists $self->db->{$id};
}
sub _deleteid {
my $self = shift;
my $id = shift;
my $obj = $self->fetch($id) or return;
$self->_delete_indexes($obj,$id);
delete $self->db->{$id};
1;
}
sub _clearall {
my $self = shift;
$self->_close_databases();
$self->_delete_databases();
my ($write,$create) = $self->_permissions;
$self->_open_databases($write,$create);
}
sub _featurecount {
my $self = shift;
return scalar %{$self->db};
}
package Bio::DB::SeqFeature::Store::berkeleydb::Iterator;
sub new {
my $class = shift;
my $store = shift;
my $ids = shift;
return bless {store => $store,
ids => $ids},ref($class) || $class;
}
sub next_seq {
my $self = shift;
my $store = $self->{store} or return;
my $id = shift @{$self->{ids}};
defined $id or return;
return $store->fetch($id);
}
package Bio::DB::Fasta::Subdir;
use base 'Bio::DB::Fasta';
# alter calling arguments so that the index file is placed in a subdirectory
# named "indexes"
sub new {
my ($class, $path, %opts) = @_;
if (-d $path) {
$opts{-index_name} = File::Spec->catfile($path,'indexes','fasta.index');
}
return Bio::DB::Fasta->new($path, %opts);
}
sub _calculate_offsets {
my ($self, @args) = @_;
return $self->SUPER::_calculate_offsets(@args);
}
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>,
L<Bio::DB::SeqFeature::Store>,
L<Bio::DB::SeqFeature::GFF3Loader>,
L<Bio::DB::SeqFeature::Segment>,
L<Bio::DB::SeqFeature::Store::memory>,
L<Bio::DB::SeqFeature::Store::DBI::mysql>,
=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