# $Id: dagflat.pm 16123 2009-09-17 12:57:27Z cjfields $ # # BioPerl module for Bio::OntologyIO::dagflat # # Please direct questions and support issues to # # Cared for by Hilmar Lapp, hlapp at gmx.net # # (c) Christian M. Zmasek, czmasek-at-burnham.org, 2002. # (c) Hilmar Lapp, hlapp at gmx.net, 2003. # (c) GNF, Genomics Institute of the Novartis Research Foundation, 2002. # # You may distribute this module under the same terms as perl itself. # Refer to the Perl Artistic License (see the license accompanying this # software package, or see http://www.perl.com/language/misc/Artistic.html) # for the terms under which you may use, modify, and redistribute this module. # # THIS PACKAGE IS PROVIDED "AS IS" AND WITHOUT ANY EXPRESS OR IMPLIED # WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF # MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. # # You may distribute this module under the same terms as perl itself # POD documentation - main docs before the code =head1 NAME Bio::OntologyIO::dagflat - a base class parser for GO flat-file type formats =head1 SYNOPSIS use Bio::OntologyIO; # do not use directly -- use via Bio::OntologyIO # e.g., the GO parser is a simple extension of this class my $parser = Bio::OntologyIO->new ( -format => "go", -defs_file => "/home/czmasek/GO/GO.defs", -files => ["/home/czmasek/GO/component.ontology", "/home/czmasek/GO/function.ontology", "/home/czmasek/GO/process.ontology"] ); my $go_ontology = $parser->next_ontology(); my $IS_A = Bio::Ontology::RelationshipType->get_instance( "IS_A" ); my $PART_OF = Bio::Ontology::RelationshipType->get_instance( "PART_OF" ); my $RELATED_TO = Bio::Ontology::RelationshipType->get_instance( "RELATED_TO" ); =head1 DESCRIPTION Needs Graph.pm from CPAN. =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 lists 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 the bugs and their resolution. Bug reports can be submitted via the web: http://bugzilla.open-bio.org/ =head1 AUTHOR Christian M. Zmasek Email: czmasek-at-burnham.org or cmzmasek@yahoo.com WWW: http://monochrome-effect.net/ Address: Genomics Institute of the Novartis Research Foundation 10675 John Jay Hopkins Drive San Diego, CA 92121 =head2 CONTRIBUTOR Hilmar Lapp, hlapp at gmx.net =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::OntologyIO::dagflat; use strict; use Bio::Root::IO; use Bio::Ontology::OBOEngine; use Bio::Ontology::Ontology; use Bio::Ontology::OntologyStore; use Bio::Ontology::TermFactory; use Bio::Annotation::DBLink; use constant TRUE => 1; use constant FALSE => 0; use base qw(Bio::OntologyIO); =head2 new Title : new Usage : $parser = Bio::OntologyIO->new( -format => "go", -defs_file => "/path/to/GO.defs", -files => ["/path/to/component.ontology", "/path/to/function.ontology", "/path/to/process.ontology"] ); Function: Creates a new dagflat parser. Returns : A new dagflat parser object, implementing Bio::OntologyIO. Args : -defs_file => the name of the file holding the term definitions -files => a single ontology flat file holding the term relationships, or an array ref holding the file names (for GO, there will usually be 3 files: component.ontology, function.ontology, process.ontology) -file => if there is only a single flat file, it may also be specified via the -file parameter -ontology_name => the name of the ontology; if not specified the parser will auto-discover it by using the term that starts with a $, and converting underscores to spaces -engine => the Bio::Ontology::OntologyEngineI object to be reused (will be created otherwise); note that every Bio::Ontology::OntologyI will qualify as well since that one inherits from the former. See L. =cut # in reality, we let OntologyIO::new do the instantiation, and override # _initialize for all initialization work sub _initialize { my ($self, %arg) = @_; my ( $defs_file_name,$files,$defs_url,$url,$name,$eng ) = $self->_rearrange([qw( DEFS_FILE FILES DEFS_URL URL ONTOLOGY_NAME ENGINE) ], %arg ); delete($arg{-url}); #b/c GO has 3 files... $self->SUPER::_initialize( %arg ); $self->_done( FALSE ); $self->_not_first_record( FALSE ); $self->_term( "" ); delete $self->{'_ontologies'}; # ontology engine (and possibly name if it's an OntologyI) $eng = Bio::Ontology::OBOEngine->new() unless $eng; if($eng->isa("Bio::Ontology::OntologyI")) { $self->ontology_name($eng->name()); $eng = $eng->engine() if $eng->can('engine'); } $self->_ont_engine($eng); # flat files to parse if(defined($defs_file_name) && defined($defs_url)){ $self->throw('cannot provide both -defs_file and -defs_url'); } else { defined($defs_file_name) && $self->defs_file( $defs_file_name ); defined($defs_url) && $self->defs_url( $defs_url ); } if(defined($files) && defined($url)){ } elsif(defined($files)){ $self->{_flat_files} = $files ? ref($files) ? $files : [$files] : []; } elsif(defined($url)){ $self->url($url); } # ontology name (overrides implicit one through OntologyI engine) $self->ontology_name($name) if $name; } # _initialize =head2 ontology_name Title : ontology_name Usage : $obj->ontology_name($newval) Function: Get/set the name of the ontology parsed by this module. Example : Returns : value of ontology_name (a scalar) Args : on set, new value (a scalar or undef, optional) =cut sub ontology_name{ my $self = shift; return $self->{'ontology_name'} = shift if @_; return $self->{'ontology_name'}; } =head2 parse Title : parse() Usage : $parser->parse(); Function: Parses the files set with "new" or with methods defs_file and _flat_files. Normally you should not need to call this method as it will be called automatically upon the first call to next_ontology(). Returns : [Bio::Ontology::OntologyEngineI] Args : =cut sub parse { my $self = shift; #warn "PARSING"; # setup the default term factory if not done by anyone yet $self->term_factory(Bio::Ontology::TermFactory->new( -type => "Bio::Ontology::Term")) unless $self->term_factory(); # create the ontology object itself my $ont = Bio::Ontology::Ontology->new(-name => $self->ontology_name(), -engine => $self->_ont_engine()); # parse definitions while( my $term = $self->_next_term() ) { $self->_add_term( $term, $ont ); } # set up the ontology of the relationship types foreach ($self->_part_of_relationship(), $self->_is_a_relationship(), $self->_related_to_relationship()) { $_->ontology($ont); } # pre-seed the IO system with the first flat file if -file wasn't provided if(! $self->_fh) { if($self->url){ if(ref($self->url) eq 'ARRAY'){ #warn "BA"; foreach my $url (@{ $self->url }){ #warn $url; #warn $ont; #warn scalar($ont->get_all_terms()); $self->_initialize_io(-url => $url); $self->_parse_flat_file($ont); } $self->close(); } else { $self->_initialize_io(-url => $self->url); } } elsif($self->_flat_files){ $self->_initialize_io(-file => shift(@{$self->_flat_files()})); } } while($self->_fh) { $self->_parse_flat_file($ont); # advance to next flat file if more are available if(@{$self->_flat_files()}) { $self->close(); $self->_initialize_io(-file => shift(@{$self->_flat_files()})); } else { last; # nothing else to parse so terminate the loop } } $self->_add_ontology($ont); # not needed anywhere, only because of backward compatibility return $self->_ont_engine(); } # parse =head2 next_ontology Title : next_ontology Usage : Function: Get the next available ontology from the parser. This is the method prescribed by Bio::OntologyIO. Example : Returns : An object implementing Bio::Ontology::OntologyI, and undef if there is no more ontology in the input. Args : =cut sub next_ontology { my $self = shift; # parse if not done already $self->parse() unless exists($self->{'_ontologies'}); # return next available ontology if(exists($self->{'_ontologies'})){ my $ont = shift (@{$self->{'_ontologies'}}); if($ont){ my $store = Bio::Ontology::OntologyStore->new(); $store->register_ontology($ont); return $ont; } } return; } =head2 defs_file Title : defs_file Usage : $parser->defs_file( "GO.defs" ); Function: Set/get for the term definitions filename. Returns : The term definitions file name [string]. Args : On set, the term definitions file name [string] (optional). =cut sub defs_file { my $self = shift; if ( @_ ) { my $f = shift; $self->{ "_defs_file_name" } = $f; $self->_defs_io->close() if $self->_defs_io(); if(defined($f)) { $self->_defs_io( Bio::Root::IO->new( -input => $f ) ); } } return $self->{ "_defs_file_name" }; } # defs_file sub defs_url { my $self = shift; my $val = shift; if(defined($val)){ $self->{'_defs_url'} = $val; $self->_defs_io->close() if $self->_defs_io(); $self->_defs_io( Bio::Root::IO->new( -url => $val ) ); } return $self->{'_defs_url'}; } sub url { my $self = shift; my $val = shift; if(defined($val)){ $self->{'_url'} = $val; } return $self->{'_url'}; } =head2 close Title : close Usage : Function: Closes this ontology stream and associated file handles. Clients should call this method especially when they write ontologies. We need to override this here in order to close the file handle for the term definitions file. Example : Returns : none Args : none =cut sub close{ my $self = shift; # first call the inherited implementation $self->SUPER::close(); # then close the defs file io (if there is one) $self->_defs_io->close() if $self->_defs_io(); } =head2 _flat_files Title : _flat_files Usage : $files_to_parse = $parser->_flat_files(); Function: Get the array of ontology flat files that need to be parsed. Note that this array will decrease in elements over the parsing process. Therefore, it\'s value outside of this module will be limited. Also, be careful not to alter the array unless you know what you are doing. Returns : a reference to an array of zero or more strings Args : none =cut sub _flat_files { my $self = shift; $self->{_flat_files} = [] unless exists($self->{_flat_files}); return $self->{_flat_files}; } # INTERNAL METHODS # ---------------- =head2 _defs_io Title : _defs_io Usage : $obj->_defs_io($newval) Function: Get/set the Bio::Root::IO instance representing the definition file, if provided (see defs_file()). Example : Returns : value of _defs_io (a Bio::Root::IO object) Args : on set, new value (a Bio::Root::IO object or undef, optional) =cut sub _defs_io{ my $self = shift; return $self->{'_defs_io'} = shift if @_; return $self->{'_defs_io'}; } sub _add_ontology { my $self = shift; $self->{'_ontologies'} = [] unless exists($self->{'_ontologies'}); foreach my $ont (@_) { $self->throw(ref($ont)." does not implement Bio::Ontology::OntologyI") unless ref($ont) && $ont->isa("Bio::Ontology::OntologyI"); # the ontology name may have been auto-discovered while parsing # the file $ont->name($self->ontology_name) unless $ont->name(); push(@{$self->{'_ontologies'}}, $ont); } } # This simply delegates. See SimpleGOEngine. sub _add_term { my ( $self, $term, $ont ) = @_; $term->ontology($ont) if $ont && (! $term->ontology); $self->_ont_engine()->add_term( $term ); } # _add_term # This simply delegates. See SimpleGOEngine sub _part_of_relationship { my $self = shift; return $self->_ont_engine()->part_of_relationship(@_); } # _part_of_relationship # This simply delegates. See SimpleGOEngine sub _is_a_relationship { my $self = shift; return $self->_ont_engine()->is_a_relationship(@_); } # _is_a_relationship # This simply delegates. See SimpleGOEngine sub _related_to_relationship { my $self = shift; return $self->_ont_engine()->related_to_relationship(@_); } # _is_a_relationship # This simply delegates. See SimpleGOEngine sub _add_relationship { my ( $self, $parent, $child, $type, $ont ) = @_; # note the triple terminology (subject,predicate,object) corresponds to # (child,type,parent) $self->_ont_engine()->add_relationship( $child, $type, $parent, $ont ); } # _add_relationship # This simply delegates. See SimpleGOEngine sub _has_term { my $self = shift; return $self->_ont_engine()->has_term( @_ ); } # _add_term # This parses the relationships files sub _parse_flat_file { my $self = shift; my $ont = shift; my @stack = (); my $prev_spaces = -1; my $prev_term = ""; while ( my $line = $self->_readline() ) { if ( $line =~ /^!/ ) { next; } # split into term specifications my @termspecs = split(/ (?=[%<])/, $line); # the first element is whitespace only shift(@termspecs) if $termspecs[0] =~ /^\s*$/; # parse out the focus term my $current_term = $self->_get_first_termid( $termspecs[0] ); my @syns = $self->_get_synonyms( $termspecs[0] ); my @sec_go_ids = $self->_get_secondary_termids( $termspecs[0] ); my @cross = $self->_get_db_cross_refs( $termspecs[0] ); my @cross_refs; foreach my $cross_ref (@cross) { $cross_ref eq $current_term && next; push(@cross_refs, $cross_ref); } # parse out the parents of the focus term shift(@termspecs); my @isa_parents = (); my @partof_parents = (); foreach my $parent (@termspecs) { if (index($parent, "%") == 0) { push(@isa_parents, $self->_get_first_termid($parent)); } elsif (index($parent, "<") == 0) { push(@partof_parents, $self->_get_first_termid($parent)); } else { $self->warn("unhandled relationship type in '".$parent."'"); } } if ( ! $self->_has_term( $current_term ) ) { my $term =$self->_create_ont_entry($self->_get_name($line, $current_term), $current_term ); $self->_add_term( $term, $ont ); } my $current_term_object = $self->_ont_engine()->get_terms( $current_term ); my $anno = $self->_to_annotation(\@cross_refs); $current_term_object->add_dbxref(-dbxrefs => $anno); $current_term_object->add_secondary_id( @sec_go_ids ); $current_term_object->add_synonym( @syns ); unless ( $line =~ /^\$/ ) { $current_term_object->ontology( $ont ); } foreach my $parent ( @isa_parents ) { if ( ! $self->_has_term( $parent ) ) { my $term = $self->_create_ont_entry($self->_get_name($line, $parent), $parent ); $self->_add_term( $term, $ont ); } $self->_add_relationship( $parent, $current_term, $self->_is_a_relationship(), $ont); } foreach my $parent ( @partof_parents ) { if ( ! $self->_has_term( $parent ) ) { my $term = $self->_create_ont_entry($self->_get_name($line, $parent), $parent ); $self->_add_term( $term, $ont ); } $self->_add_relationship( $parent, $current_term, $self->_part_of_relationship(), $ont); } my $current_spaces = $self->_count_spaces( $line ); if ( $current_spaces != $prev_spaces ) { if ( $current_spaces == $prev_spaces + 1 ) { push( @stack, $prev_term ); } elsif ( $current_spaces < $prev_spaces ) { my $n = $prev_spaces - $current_spaces; for ( my $i = 0; $i < $n; ++$i ) { pop( @stack ); } } else { $self->throw( "format error (file ".$self->file.")" ); } } my $parent = $stack[ @stack - 1 ]; # add a relationship if the line isn\'t the one with the root term # of the ontology (which is also the name of the ontology) if ( index($line,'$') != 0 ) { #adding @reltype@ syntax if ( $line !~ /^\s*([<%~]|\@\w+?\@)/ ) { $self->throw( "format error (file ".$self->file.") offending line:\n$line" ); } my($relstring) = $line =~ /^\s*([<%~]|\@[^\@]+?\@)/; my $reltype; if ($relstring eq '<') { $reltype = $self->_part_of_relationship; } elsif ($relstring eq '%') { $reltype = $self->_is_a_relationship; } elsif ($relstring eq '~') { $reltype = $self->_related_to_relationship; } else { $relstring =~ s/\@//g; if ($self->_ont_engine->get_relationship_type($relstring)) { $reltype = $self->_ont_engine->get_relationship_type($relstring); } else { $self->_ont_engine->add_relationship_type($relstring, $ont); $reltype = $self->_ont_engine->get_relationship_type($relstring); } } #my $reltype = ($line =~ /^\s*_part_of_relationship() : #$self->_is_a_relationship(); $self->_add_relationship( $parent, $current_term, $reltype, $ont); } $prev_spaces = $current_spaces; $prev_term = $current_term; } return $ont; } # _parse_relationships_file # Parses the 1st term id number out of line. sub _get_first_termid { my ( $self, $line ) = @_; if ( $line =~ /;\s*([A-Z_]{1,8}:\d{1,})/ ) { # if ( $line =~ /;\s*(\w+:\w+)/ ) { return $1; } else { $self->throw( "format error: no term id in line \"$line\"" ); } } # _get_first_termid # Parses the name out of line. sub _get_name { my ( $self, $line, $termid ) = @_; if ( $line =~ /([^;<%~]+);\s*$termid/ ) { my $name = $1; # remove trailing and leading whitespace $name =~ s/\s+$//; $name =~ s/^\s+//; $name =~ s/\@.+?\@//; # remove leading dollar character; also we default the name of the # ontology to this name unless it is preset to something else if(index($name,'$') == 0) { $name = substr($name,1); # replace underscores by spaces for setting the ontology name $self->ontology_name(join(" ",split(/_/,$name))) unless $self->ontology_name(); } return $name; } else { return; } } # _get_name # Parses the synonyms out of line. sub _get_synonyms { my ( $self, $line ) = @_; my @synonyms = (); while ( $line =~ /synonym\s*:\s*([^;<%~]+)/g ) { my $syn = $1; $syn =~ s/\s+$//; $syn =~ s/^\s+//; push( @synonyms, $syn ); } return @synonyms; } # _get_synonyms # Parses the db cross refs out of line. sub _get_db_cross_refs { my ( $self, $line ) = @_; my @refs = (); while ( $line =~ /;([^;<%~:]+:[^;<%~:]+)/g ) { my $ref = $1; if ( $ref =~ /synonym/ || $ref =~ /[A-Z]{1,8}:\d{3,}/ ) { next; } $ref =~ s/\s+$//; $ref =~ s/^\s+//; $ref = $self->unescape( $ref ); push( @refs, $ref ) if defined $ref; } return @refs; } # Parses the secondary go ids out of a line sub _get_secondary_termids { my ( $self, $line ) = @_; my @secs = (); # while ( $line =~ /,\s*([A-Z]{1,8}:\d{3,})/g ) { while ( $line =~ /,\s*(\w+:\w+)/g ) { my $sec = $1; push( @secs, $sec ); } return @secs; } # _get_secondary_termids # Counts the spaces at the beginning of a line in the relationships files sub _count_spaces { my ( $self, $line ) = @_; if ( $line =~ /^(\s+)/ ) { return length( $1 ); } else { return 0; } } # _count_spaces # "next" method for parsing the defintions file sub _next_term { my ( $self ) = @_; if ( ($self->_done() == TRUE) || (! $self->_defs_io())) { return; } my $line = ""; my $termid = ""; my $next_term = $self->_term(); my $def = ""; my $comment = ""; my @def_refs = (); my $isobsolete; while( $line = ( $self->_defs_io->_readline() ) ) { if ( $line !~ /\S/ || $line =~ /^\s*!/ ) { next; } elsif ( $line =~ /^\s*term:\s*(.+)/ ) { $self->_term( $1 ); last if $self->_not_first_record(); $next_term = $1; $self->_not_first_record( TRUE ); } elsif ( $line =~ /^\s*[a-z]{0,8}id:\s*(.+)/ ) { $termid = $1; } elsif ( $line =~ /^\s*definition:\s*(.+)/ ) { $def = $self->unescape($1); $isobsolete = 1 if index($def,"OBSOLETE") == 0; } elsif ( $line =~ /^\s*definition_reference:\s*(.+)/ ) { push( @def_refs, $self->unescape($1) ); } elsif ( $line =~ /^\s*comment:\s*(.+)/ ) { $comment = $self->unescape($1); } } $self->_done( TRUE ) unless $line; # we'll come back until done return $self->_create_ont_entry( $next_term, $termid, $def, $comment, \@def_refs, $isobsolete); } # _next_term # Holds the GO engine to be parsed into sub _ont_engine { my ( $self, $value ) = @_; if ( defined $value ) { $self->{ "_ont_engine" } = $value; } return $self->{ "_ont_engine" }; } # _ont_engine # Used to create ontology terms. # Arguments: name, id sub _create_ont_entry { my ( $self, $name, $termid, $def, $cmt, $dbxrefs, $obsolete ) = @_; if((!defined($obsolete)) && (index(lc($name),"obsolete") == 0)) { $obsolete = 1; } my $anno = $self->_to_annotation($dbxrefs); my $term = $self->term_factory->create_object(-name => $name, -identifier => $termid, -definition => $def, -comment => $cmt, -dbxrefs => $anno, -is_obsolete => $obsolete); return $term; } # _create_ont_entry # Holds whether first record or not sub _not_first_record { my ( $self, $value ) = @_; if ( defined $value ) { $self->{ "_not_first_record" } = $value; } return $self->{ "_not_first_record" }; } # _not_first_record # Holds whether done or not sub _done { my ( $self, $value ) = @_; if ( defined $value ) { $self->{ "_done" } = $value; } return $self->{ "_done" }; } # _done # Holds a term. sub _term { my ( $self, $value ) = @_; if ( defined $value ) { $self->{ "_term" } = $value; } return $self->{ "_term" }; } # _term # convert simple strings to Bio::Annotation::DBLinks sub _to_annotation { my ($self , $links) = @_; return unless $links; my @dbxrefs; for my $string (@{$links}) { my ($db, $id) = split(':',$string); push @dbxrefs, Bio::Annotation::DBLink->new(-database => $db, -primary_id => $id); } return \@dbxrefs; } 1;