# $Id: flatfile.pm 16123 2009-09-17 12:57:27Z cjfields $ # # BioPerl module for Bio::DB::Taxonomy::flatfile # # Please direct questions and support issues to # # Cared for by Jason Stajich # # Copyright Jason Stajich # # You may distribute this module under the same terms as perl itself # POD documentation - main docs before the code =head1 NAME Bio::DB::Taxonomy::flatfile - An implementation of Bio::DB::Taxonomy which uses local flat files =head1 SYNOPSIS use Bio::DB::Taxonomy; my $db = Bio::DB::Taxonomy->new(-source => 'flatfile' -nodesfile => $nodesfile, -namesfile => $namefile); =head1 DESCRIPTION This is an implementation which uses local flat files and the DB_File module RECNO data structures to manage a local copy of the NCBI Taxonomy database. Required database files can be obtained from ftp://ftp.ncbi.nih.gov/pub/taxonomy/taxdump.tar.gz =head1 FEEDBACK =head2 Mailing Lists User feedback is an integral part of the evolution of this and other Bioperl modules. Send your comments and suggestions preferably to the Bioperl mailing list. Your participation is much appreciated. bioperl-l@bioperl.org - General discussion http://bioperl.org/wiki/Mailing_lists - About the mailing lists =head2 Support Please direct usage questions or support issues to the mailing list: I rather than to the module maintainer directly. Many experienced and reponsive experts will be able look at the problem and quickly address it. Please include a thorough description of the problem with code and data examples if at all possible. =head2 Reporting Bugs Report bugs to the Bioperl bug tracking system to help us keep track of the bugs and their resolution. Bug reports can be submitted via the web: http://bugzilla.open-bio.org/ =head1 AUTHOR - Jason Stajich Email jason-at-bioperl-dot-org =head1 CONTRIBUTORS Sendu Bala: bix@sendu.me.uk =head1 APPENDIX The rest of the documentation details each of the object methods. Internal methods are usually preceded with a _ =cut # Let the code begin... package Bio::DB::Taxonomy::flatfile; use vars qw($DEFAULT_INDEX_DIR $DEFAULT_NODE_INDEX $DEFAULT_NAME2ID_INDEX $DEFAULT_ID2NAME_INDEX $NCBI_TAXONOMY_HOSTNAME $DEFAULT_PARENT_INDEX $NCBI_TAXONOMY_FILE @DIVISIONS); use strict; use Bio::Taxon; use DB_File; use constant SEPARATOR => ':'; $DEFAULT_INDEX_DIR = '/tmp'; $DEFAULT_NODE_INDEX = 'nodes'; $DEFAULT_NAME2ID_INDEX = 'names2id'; $DEFAULT_ID2NAME_INDEX = 'id2names'; $DEFAULT_PARENT_INDEX = 'parents'; $NCBI_TAXONOMY_HOSTNAME = 'ftp.ncbi.nih.gov'; $NCBI_TAXONOMY_FILE = '/pub/taxonomy/taxdump.tar.gz'; $DB_BTREE->{'flags'} = R_DUP; # allow duplicate values in DB_File BTREEs @DIVISIONS = ([qw(BCT Bacteria)], [qw(INV Invertebrates)], [qw(MAM Mammals)], [qw(PHG Phages)], [qw(PLN Plants)], # (and fungi) [qw(PRI Primates)], [qw(ROD Rodents)], [qw(SYN Synthetic)], [qw(UNA Unassigned)], [qw(VRL Viruses)], [qw(VRT Vertebrates)], [qw(ENV 'Environmental samples')]); use base qw(Bio::DB::Taxonomy); =head2 new Title : new Usage : my $obj = Bio::DB::Taxonomy::flatfile->new(); Function: Builds a new Bio::DB::Taxonomy::flatfile object Returns : an instance of Bio::DB::Taxonomy::flatfile Args : -directory => name of directory where index files should be created -nodesfile => name of file containing nodes (nodes.dmp from NCBI) -namesfile => name of the file containing names(names.dmp from NCBI) -force => 1 replace current indexes even if they exist =cut sub new { my($class,@args) = @_; my $self = $class->SUPER::new(@args); my ($dir,$nodesfile,$namesfile,$force) = $self->_rearrange([qw (DIRECTORY NODESFILE NAMESFILE FORCE)], @args); $self->index_directory($dir || $DEFAULT_INDEX_DIR); if ( $nodesfile ) { $self->_build_index($nodesfile,$namesfile,$force); } $self->_db_connect; return $self; } =head2 Bio::DB::Taxonomy Interface implementation =cut =head2 get_taxon Title : get_taxon Usage : my $taxon = $db->get_taxon(-taxonid => $taxonid) Function: Get a Bio::Taxon object from the database. Returns : Bio::Taxon object Args : just a single value which is the database id, OR named args: -taxonid => taxonomy id (to query by taxonid) OR -name => string (to query by a taxonomy name: common name, scientific name, etc) =cut sub get_taxon { my ($self) = shift; my ($taxonid, $name); if (@_ > 1) { ($taxonid, $name) = $self->_rearrange([qw(TAXONID NAME)],@_); if ($name) { ($taxonid, my @others) = $self->get_taxonids($name); $self->warn("There were multiple ids ($taxonid @others) matching '$name', using '$taxonid'") if @others > 0; } } else { $taxonid = shift; } $taxonid =~ /^\d+$/ || return; my $node = $self->{'_nodes'}->[$taxonid] || return; length($node) || return; my ($taxid, undef, $rank, $code, $divid, $gen_code, $mito) = split(SEPARATOR,$node); last unless defined $taxid; my ($taxon_names) = $self->{'_id2name'}->[$taxid]; my ($sci_name, @common_names) = split(SEPARATOR, $taxon_names); my $taxon = Bio::Taxon->new( -name => $sci_name, -common_names => [@common_names], -ncbi_taxid => $taxid, # since this is a real ncbi taxid, explicitly set it as one -rank => $rank, -division => $DIVISIONS[$divid]->[1], -genetic_code => $gen_code, -mito_genetic_code => $mito ); # we can't use -dbh or the db_handle() method ourselves or we'll go # infinite on the merge attempt $taxon->{'db_handle'} = $self; $self->_handle_internal_id($taxon); return $taxon; } *get_Taxonomy_Node = \&get_taxon; =head2 get_taxonids Title : get_taxonids Usage : my @taxonids = $db->get_taxonids('Homo sapiens'); Function: Searches for a taxonid (typically ncbi_taxon_id) based on a query string. Note that multiple taxonids can match to the same supplied name. Returns : array of integer ids in list context, one of these in scalar context Args : string representing taxon's name =cut sub get_taxonids { my ($self, $query) = @_; my $ids = $self->{'_name2id'}->{lc($query)}; unless ($ids) { if ($query =~ /_/) { # try again converting underscores to spaces $query =~ s/_/ /g; $ids = $self->{'_name2id'}->{lc($query)}; } $ids || return; } my @ids = split(SEPARATOR, $ids); return wantarray() ? @ids : shift @ids; } *get_taxonid = \&get_taxonids; =head2 get_Children_Taxids Title : get_Children_Taxids Usage : my @childrenids = $db->get_Children_Taxids Function: Get the ids of the children of a node in the taxonomy Returns : Array of Ids Args : Bio::Taxon or a taxon_id Status : deprecated (use each_Descendent()) =cut sub get_Children_Taxids { my ($self,$node) = @_; $self->warn("get_Children_Taxids is deprecated, use each_Descendent instead"); my $id; if( ref($node) ) { if( $node->can('object_id') ) { $id = $node->object_id; } elsif( $node->can('ncbi_taxid') ) { $id = $node->ncbi_taxid; } else { $self->warn("Don't know how to extract a taxon id from the object of type ".ref($node)."\n"); return; } } else { $id = $node } my @vals = $self->{'_parentbtree'}->get_dup($id); return @vals; } =head2 ancestor Title : ancestor Usage : my $ancestor_taxon = $db->ancestor($taxon) Function: Retrieve the full ancestor taxon of a supplied Taxon from the database. Returns : Bio::Taxon Args : Bio::Taxon (that was retrieved from this database) =cut sub ancestor { my ($self, $taxon) = @_; $self->throw("Must supply a Bio::Taxon") unless ref($taxon) && $taxon->isa('Bio::Taxon'); $self->throw("The supplied Taxon must belong to this database") unless $taxon->db_handle && $taxon->db_handle eq $self; my $id = $taxon->id || $self->throw("The supplied Taxon is missing its id!"); my $node = $self->{'_nodes'}->[$id]; if (length($node)) { my (undef, $parent_id) = split(SEPARATOR,$node); $parent_id || return; $parent_id eq $id && return; # one of the roots return $self->get_taxon($parent_id); } return; } =head2 each_Descendent Title : each_Descendent Usage : my @taxa = $db->each_Descendent($taxon); Function: Get all the descendents of the supplied Taxon (but not their descendents, ie. not a recursive fetchall). Returns : Array of Bio::Taxon objects Args : Bio::Taxon (that was retrieved from this database) =cut sub each_Descendent { my ($self, $taxon) = @_; $self->throw("Must supply a Bio::Taxon") unless ref($taxon) && $taxon->isa('Bio::Taxon'); $self->throw("The supplied Taxon must belong to this database") unless $taxon->db_handle && $taxon->db_handle eq $self; my $id = $taxon->id || $self->throw("The supplied Taxon is missing its id!"); my @desc_ids = $self->{'_parentbtree'}->get_dup($id); my @descs; foreach my $desc_id (@desc_ids) { push(@descs, $self->get_taxon($desc_id) || next); } return @descs; } =head2 Helper methods =cut # internal method which does the indexing sub _build_index { my ($self,$nodesfile,$namesfile,$force) = @_; my ($dir) = ($self->index_directory); my $nodeindex = "$dir/$DEFAULT_NODE_INDEX"; my $name2idindex = "$dir/$DEFAULT_NAME2ID_INDEX"; my $id2nameindex = "$dir/$DEFAULT_ID2NAME_INDEX"; my $parent2childindex = "$dir/$DEFAULT_PARENT_INDEX"; $self->{'_nodes'} = []; $self->{'_id2name'} = []; $self->{'_name2id'} = {}; $self->{'_parent2children'} = {}; if (! -e $nodeindex || $force) { my (%parent2children,@nodes); open(NODES,$nodesfile) || $self->throw("Cannot open node file '$nodesfile' for reading"); unlink $nodeindex; unlink $parent2childindex; my $nh = tie ( @nodes, 'DB_File', $nodeindex, O_RDWR|O_CREAT, 0644, $DB_RECNO) || $self->throw("Cannot open file '$nodeindex': $!"); my $btree = tie( %parent2children, 'DB_File', $parent2childindex, O_RDWR|O_CREAT, 0644, $DB_BTREE) || $self->throw("Cannot open file '$parent2childindex': $!"); while () { chomp; my ($taxid,$parent,$rank,$code,$divid,undef,$gen_code,undef,$mito) = split(/\t\|\t/,$_); # don't include the fake root node 'root' with id 1; we essentially have multiple roots here next if $taxid == 1; if ($parent == 1) { $parent = $taxid; } # keep this stringified $nodes[$taxid] = join(SEPARATOR, ($taxid,$parent,$rank,$code,$divid,$gen_code,$mito)); $btree->put($parent,$taxid); } close(NODES); $nh = $btree = undef; untie @nodes ; untie %parent2children; } if ((! -e $name2idindex || -z $name2idindex) || (! -e $id2nameindex || -z $id2nameindex) || $force) { open(NAMES,$namesfile) || $self->throw("Cannot open names file '$namesfile' for reading"); unlink $name2idindex; unlink $id2nameindex; my (@id2name,%name2id); my $idh = tie (@id2name, 'DB_File', $id2nameindex, O_RDWR|O_CREAT, 0644, $DB_RECNO) || $self->throw("Cannot open file '$id2nameindex': $!"); my $nameh = tie ( %name2id, 'DB_File', $name2idindex, O_RDWR|O_CREAT, 0644, $DB_HASH) || $self->throw("Cannot open file '$name2idindex': $!"); while () { chomp; my ($taxid, $name, $unique_name, $class) = split(/\t\|\t/,$_); # don't include the fake root node 'root' or 'all' with id 1 next if $taxid == 1; $class =~ s/\s+\|\s*$//; my $lc_name = lc($name); my $orig_name = $name; # unique names aren't always in the correct column, sometimes they # are uniqued by adding bracketed rank names to the normal name; # store the uniqued version then fix the name for normal use if ($lc_name =~ /\(class\)$/) { # it seems that only rank of class is ever used in this situation $name2id{$lc_name} = $taxid; $name =~ s/\s+\(class\)$//; $lc_name = lc($name); } # handle normal names which aren't necessarily unique my $taxids = $name2id{$lc_name} || ''; my %taxids = map { $_ => 1 } split(SEPARATOR, $taxids); unless (exists $taxids{$taxid}) { $taxids{$taxid} = 1; $name2id{$lc_name} = join(SEPARATOR, keys %taxids); } # store unique names in name2id if ($unique_name) { $name2id{lc($unique_name)} = $taxid; } # store all names in id2name array my $names = $id2name[$taxid] || ''; my @names = split(SEPARATOR, $names); if ($class && $class eq 'scientific name') { # the scientific name should be the first name stored unshift(@names, $name); push(@names, $orig_name) if ($orig_name ne $name); push(@names, $unique_name) if $unique_name; } else { # all other ('common' in this simplification) names get added after push(@names, $name); push(@names, $orig_name) if ($orig_name ne $name); push(@names, $unique_name) if $unique_name; } $id2name[$taxid] = join(SEPARATOR, @names); } close(NAMES); $idh = $nameh = undef; untie( %name2id); untie( @id2name); } } # connect the internal db handle sub _db_connect { my $self = shift; return if $self->{'_initialized'}; $self->{'_nodes'} = []; $self->{'_id2name'} = []; $self->{'_name2id'} = {}; my ($dir) = ($self->index_directory); my $nodeindex = "$dir/$DEFAULT_NODE_INDEX"; my $name2idindex = "$dir/$DEFAULT_NAME2ID_INDEX"; my $id2nameindex = "$dir/$DEFAULT_ID2NAME_INDEX"; my $parent2childindex = "$dir/$DEFAULT_PARENT_INDEX"; if( ! -e $nodeindex || ! -e $name2idindex || ! -e $id2nameindex ) { $self->warn("Index files have not been created"); return 0; } tie ( @{$self->{'_nodes'}}, 'DB_File', $nodeindex, O_RDWR,undef, $DB_RECNO) || $self->throw("$! $nodeindex"); tie (@{$self->{'_id2name'}}, 'DB_File', $id2nameindex,O_RDWR, undef, $DB_RECNO) || $self->throw("$! $id2nameindex"); tie ( %{$self->{'_name2id'}}, 'DB_File', $name2idindex, O_RDWR,undef, $DB_HASH) || $self->throw("$! $name2idindex"); $self->{'_parentbtree'} = tie( %{$self->{'_parent2children'}}, 'DB_File', $parent2childindex, O_RDWR, 0644, $DB_BTREE); $self->{'_initialized'} = 1; } =head2 index_directory Title : index_directory Funtion : Get/set the location that index files are stored. (this module will index the supplied database) Usage : $obj->index_directory($newval) Returns : value of index_directory (a scalar) Args : on set, new value (a scalar or undef, optional) =cut sub index_directory { my $self = shift; return $self->{'index_directory'} = shift if @_; return $self->{'index_directory'}; } 1;