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view variant_effect_predictor/Bio/SeqIO/swiss.pm @ 3:d30fa12e4cc5 default tip
Merge heads 2:a5976b2dce6f and 1:09613ce8151e which were created as a result of a recently fixed bug.
| author | devteam <devteam@galaxyproject.org> |
|---|---|
| date | Mon, 13 Jan 2014 10:38:30 -0500 |
| parents | 1f6dce3d34e0 |
| children |
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# $Id: swiss.pm,v 1.66.2.4 2003/09/13 22:16:43 jason Exp $ # # BioPerl module for Bio::SeqIO::swiss # # Cared for by Elia Stupka <elia@tll.org.sg> # # Copyright Elia Stupka # # You may distribute this module under the same terms as perl itself # POD documentation - main docs before the code =head1 NAME Bio::SeqIO::swiss - Swissprot sequence input/output stream =head1 SYNOPSIS It is probably best not to use this object directly, but rather go through the SeqIO handler system. Go: $stream = Bio::SeqIO->new(-file => $filename, -format => 'swiss'); while ( my $seq = $stream->next_seq() ) { # do something with $seq } =head1 DESCRIPTION This object can transform Bio::Seq objects to and from swissprot flat file databases. There is a lot of flexibility here about how to dump things which I need to document fully. =head2 Optional functions =over 3 =item _show_dna() (output only) shows the dna or not =item _post_sort() (output only) provides a sorting func which is applied to the FTHelpers before printing =item _id_generation_func() This is function which is called as print "ID ", $func($seq), "\n"; To generate the ID line. If it is not there, it generates a sensible ID line using a number of tools. If you want to output annotations in swissprot format they need to be stored in a Bio::Annotation::Collection object which is accessible through the Bio::SeqI interface method L<annotation()|annotation>. The following are the names of the keys which are polled from a L<Bio::Annotation::Collection> object. reference - Should contain Bio::Annotation::Reference objects comment - Should contain Bio::Annotation::Comment objects dblink - Should contain Bio::Annotation::DBLink objects gene_name - Should contain Bio::Annotation::SimpleValue object =back =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 one of the Bioperl mailing lists. Your participation is much appreciated. bioperl-l@bioperl.org - General discussion http://bio.perl.org/MailList.html - About the mailing lists =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 email or the web: bioperl-bugs@bio.perl.org http://bugzilla.bioperl.org/ =head1 AUTHOR - Elia Stupka Email elia@tll.org.sg Describe contact details here =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::SeqIO::swiss; use vars qw(@ISA); use strict; use Bio::SeqIO; use Bio::SeqIO::FTHelper; use Bio::SeqFeature::Generic; use Bio::Species; use Bio::Tools::SeqStats; use Bio::Seq::SeqFactory; use Bio::Annotation::Collection; use Bio::Annotation::Comment; use Bio::Annotation::Reference; use Bio::Annotation::DBLink; use Bio::Annotation::SimpleValue; use Bio::Annotation::StructuredValue; @ISA = qw(Bio::SeqIO); sub _initialize { my($self,@args) = @_; $self->SUPER::_initialize(@args); # hash for functions for decoding keys. $self->{'_func_ftunit_hash'} = {}; $self->_show_dna(1); # sets this to one by default. People can change it if( ! defined $self->sequence_factory ) { $self->sequence_factory(new Bio::Seq::SeqFactory (-verbose => $self->verbose(), -type => 'Bio::Seq::RichSeq')); } } =head2 next_seq Title : next_seq Usage : $seq = $stream->next_seq() Function: returns the next sequence in the stream Returns : Bio::Seq object Args : =cut sub next_seq { my ($self,@args) = @_; my ($pseq,$c,$line,$name,$desc,$acc,$seqc,$mol,$div, $date,$comment,@date_arr); my $genename = ""; my ($annotation, %params, @features) = ( new Bio::Annotation::Collection); $line = $self->_readline; if( !defined $line) { return undef; # no throws - end of file } if( $line =~ /^\s+$/ ) { while( defined ($line = $self->_readline) ) { $line =~ /\S/ && last; } } if( !defined $line ) { return undef; # end of file } # fixed to allow _DIVISION to be optional for bug #946 # see bug report for more information $line =~ /^ID\s+([^\s_]+)(_([^\s_]+))?\s+([^\s;]+);\s+([^\s;]+);/ || $self->throw("swissprot stream with no ID. Not swissprot in my book"); if( $3 ) { $name = "$1$2"; $params{'-division'} = $3; } else { $name = $1; $params{'-division'} = 'UNK'; $params{'-primary_id'} = $1; } $params{'-alphabet'} = 'protein'; # this is important to have the id for display in e.g. FTHelper, otherwise # you won't know which entry caused an error $params{'-display_id'} = $name; my $buffer = $line; BEFORE_FEATURE_TABLE : until( !defined ($buffer) ) { $_ = $buffer; # Exit at start of Feature table last if /^FT/; # and at the sequence at the latest HL 05/11/2000 last if /^SQ/; # Description line(s) if (/^DE\s+(\S.*\S)/) { $desc .= $desc ? " $1" : $1; } #Gene name elsif(/^GN\s+(.*)/) { $genename .= " " if $genename; $genename .= $1; # has GN terminated yet? if($genename =~ s/[\. ]+$//) { my $gn = Bio::Annotation::StructuredValue->new(); foreach my $gene (split(/ AND /, $genename)) { $gene =~ s/^\(//; $gene =~ s/\)$//; $gn->add_value([-1,-1], split(/ OR /, $gene)); } $annotation->add_Annotation('gene_name',$gn, "Bio::Annotation::SimpleValue"); } } #accession number(s) elsif( /^AC\s+(.+)/) { my @accs = split(/[; ]+/, $1); # allow space in addition $params{'-accession_number'} = shift @accs unless defined $params{'-accession_number'}; push @{$params{'-secondary_accessions'}}, @accs; } #version number elsif( /^SV\s+(\S+);?/ ) { my $sv = $1; $sv =~ s/\;//; $params{'-seq_version'} = $sv; } #date elsif( /^DT\s+(.*)/ ) { my $date = $1; $date =~ s/\;//; $date =~ s/\s+$//; push @{$params{'-dates'}}, $date; } # Organism name and phylogenetic information elsif (/^O[SCG]/) { my $species = $self->_read_swissprot_Species(\$buffer); $params{'-species'}= $species; # now we are one line ahead -- so continue without reading the next # line HL 05/11/2000 next; } # References elsif (/^R/) { my $refs = $self->_read_swissprot_References(\$buffer); foreach my $r (@$refs) { $annotation->add_Annotation('reference',$r); } # now we are one line ahead -- so continue without reading the next # line HL 05/11/2000 next; } #Comments elsif (/^CC\s{3}(.*)/) { $comment .= $1; $comment .= "\n"; while (defined ($buffer = $self->_readline)) { if ($buffer =~ /^CC\s{3}(.*)/) { $comment .= $1; $comment .= "\n"; } else { last; } } my $commobj = Bio::Annotation::Comment->new(); # note: don't try to process comments here -- they may contain # structure. LP 07/30/2000 $commobj->text($comment); $annotation->add_Annotation('comment',$commobj); $comment = ""; # now we are one line ahead -- so continue without reading the next # line HL 05/11/2000 next; } #DBLinks elsif (/^DR\s+(\S+)\;\s+(\S+)\;\s+(\S+)[\;\.](.*)$/) { my $dblinkobj = Bio::Annotation::DBLink->new(); $dblinkobj->database($1); $dblinkobj->primary_id($2); $dblinkobj->optional_id($3); my $comment = $4; if(length($comment) > 0) { # edit comment to get rid of leading space and trailing dot if( $comment =~ /^\s*(\S+)\./ ) { $dblinkobj->comment($1); } else { $dblinkobj->comment($comment); } } $annotation->add_Annotation('dblink',$dblinkobj); } #keywords elsif( /^KW\s+(.*)$/ ) { my @kw = split(/\s*\;\s*/,$1); defined $kw[-1] && $kw[-1] =~ s/\.$//; push @{$params{'-keywords'}}, @kw; } # Get next line. Getting here assumes that we indeed need to read the # line. $buffer = $self->_readline; } $buffer = $_; FEATURE_TABLE : # if there is no feature table, or if we've got beyond, exit loop or don't # even enter HL 05/11/2000 while (defined ($buffer) && ($buffer =~ /^FT/)) { my $ftunit = $self->_read_FTHelper_swissprot(\$buffer); # process ftunit # when parsing of the line fails we get undef returned if($ftunit) { push(@features, $ftunit->_generic_seqfeature($self->location_factory(), $params{'-seqid'}, "SwissProt")); } else { $self->warn("failed to parse feature table line for seq " . $params{'-display_id'}); } } if( $buffer !~ /^SQ/ ) { while( defined($_ = $self->_readline) ) { /^SQ/ && last; } } $seqc = ""; while( defined ($_ = $self->_readline) ) { /^\/\// && last; $_ = uc($_); s/[^A-Za-z]//g; $seqc .= $_; } my $seq= $self->sequence_factory->create (-verbose => $self->verbose, %params, -seq => $seqc, -desc => $desc, -features => \@features, -annotation => $annotation, ); # The annotation doesn't get added by the contructor $seq->annotation($annotation); return $seq; } =head2 write_seq Title : write_seq Usage : $stream->write_seq($seq) Function: writes the $seq object (must be seq) to the stream Returns : 1 for success and 0 for error Args : array of 1 to n Bio::SeqI objects =cut sub write_seq { my ($self,@seqs) = @_; foreach my $seq ( @seqs ) { $self->throw("Attempting to write with no seq!") unless defined $seq; if( ! ref $seq || ! $seq->isa('Bio::SeqI') ) { $self->warn(" $seq is not a SeqI compliant module. Attempting to dump, but may fail!"); } my $i; my $str = $seq->seq; my $mol; my $div; my $len = $seq->length(); if ( !$seq->can('division') || ! defined ($div = $seq->division()) ) { $div = 'UNK'; } if( ! $seq->can('alphabet') || ! defined ($mol = $seq->alphabet) ) { $mol = 'XXX'; } my $temp_line; if( $self->_id_generation_func ) { $temp_line = &{$self->_id_generation_func}($seq); } else { #$temp_line = sprintf ("%10s STANDARD; %3s; %d AA.", # $seq->primary_id()."_".$div,$mol,$len); # Reconstructing the ID relies heavily upon the input source having # been in a format that is parsed as this routine expects it -- that is, # by this module itself. This is bad, I think, and immediately breaks # if e.g. the Bio::DB::GenPept module is used as input. # Hence, switch to display_id(); _every_ sequence is supposed to have # this. HL 2000/09/03 $mol =~ s/protein/PRT/; $temp_line = sprintf ("%10s STANDARD; %3s; %d AA.", $seq->display_id(), $mol, $len); } $self->_print( "ID $temp_line\n"); # if there, write the accession line local($^W) = 0; # supressing warnings about uninitialized fields if( $self->_ac_generation_func ) { $temp_line = &{$self->_ac_generation_func}($seq); $self->_print( "AC $temp_line\n"); } else { if ($seq->can('accession_number') ) { $self->_print("AC ",$seq->accession_number,";"); if ($seq->can('get_secondary_accessions') ) { foreach my $sacc ($seq->get_secondary_accessions) { $self->_print(" ",$sacc,";"); } $self->_print("\n"); } else { $self->_print("\n"); } } # otherwise - cannot print <sigh> } # Date lines if( $seq->can('get_dates') ) { foreach my $dt ( $seq->get_dates() ) { $self->_write_line_swissprot_regex("DT ","DT ", $dt,"\\s\+\|\$",80); } } #Definition lines $self->_write_line_swissprot_regex("DE ","DE ",$seq->desc(),"\\s\+\|\$",80); #Gene name if ((my @genes = $seq->annotation->get_Annotations('gene_name') ) ) { $self->_print("GN ", join(' OR ', map { $_->isa("Bio::Annotation::StructuredValue") ? $_->value(-joins => [" AND ", " OR "]) : $_->value(); } @genes), ".\n"); } # Organism lines if ($seq->can('species') && (my $spec = $seq->species)) { my($species, @class) = $spec->classification(); my $genus = $class[0]; my $OS = "$genus $species"; if ($class[$#class] =~ /viruses/i) { # different OS / OC syntax for viruses LP 09/16/2000 shift @class; } if (my $ssp = $spec->sub_species) { $OS .= " $ssp"; } foreach (($spec->variant, $spec->common_name)) { $OS .= " ($_)" if $_; } $self->_print( "OS $OS.\n"); my $OC = join('; ', reverse(@class)) .'.'; $self->_write_line_swissprot_regex("OC ","OC ",$OC,"\; \|\$",80); if ($spec->organelle) { $self->_write_line_swissprot_regex("OG ","OG ",$spec->organelle,"\; \|\$",80); } if ($spec->ncbi_taxid) { $self->_print("OX NCBI_TaxID=".$spec->ncbi_taxid.";\n"); } } # Reference lines my $t = 1; foreach my $ref ( $seq->annotation->get_Annotations('reference') ) { $self->_print( "RN [$t]\n"); # changed by lorenz 08/03/00 # j.gilbert and h.lapp agreed that the rp line in swissprot seems # more like a comment than a parseable value, so print it as is if ($ref->rp) { $self->_write_line_swissprot_regex("RP ","RP ",$ref->rp, "\\s\+\|\$",80); } if ($ref->comment) { $self->_write_line_swissprot_regex("RC ","RC ",$ref->comment, "\\s\+\|\$",80); } if ($ref->medline) { # new RX format in swissprot LP 09/17/00 if ($ref->pubmed) { $self->_write_line_swissprot_regex("RX ","RX ", "MEDLINE=".$ref->medline. "; PubMed=".$ref->pubmed.";", "\\s\+\|\$",80); } else { $self->_write_line_swissprot_regex("RX MEDLINE; ","RX MEDLINE; ", $ref->medline.".","\\s\+\|\$",80); } } my $author = $ref->authors .';' if($ref->authors); my $title = $ref->title .';' if( $ref->title); $self->_write_line_swissprot_regex("RA ","RA ",$author,"\\s\+\|\$",80); $self->_write_line_swissprot_regex("RT ","RT ",$title,"\\s\+\|\$",80); $self->_write_line_swissprot_regex("RL ","RL ",$ref->location,"\\s\+\|\$",80); $t++; } # Comment lines foreach my $comment ( $seq->annotation->get_Annotations('comment') ) { foreach my $cline (split ("\n", $comment->text)) { while (length $cline > 74) { $self->_print("CC ",(substr $cline,0,74),"\n"); $cline = substr $cline,74; } $self->_print("CC ",$cline,"\n"); } } foreach my $dblink ( $seq->annotation->get_Annotations('dblink') ) { if (defined($dblink->comment)&&($dblink->comment)) { $self->_print("DR ",$dblink->database,"; ",$dblink->primary_id,"; ", $dblink->optional_id,"; ",$dblink->comment,".\n"); } elsif($dblink->optional_id) { $self->_print("DR ",$dblink->database,"; ", $dblink->primary_id,"; ", $dblink->optional_id,".\n"); } else { $self->_print("DR ",$dblink->database, "; ",$dblink->primary_id,"; ","-.\n"); } } # if there, write the kw line { my( $kw ); if( my $func = $self->_kw_generation_func ) { $kw = &{$func}($seq); } elsif( $seq->can('keywords') ) { $kw = $seq->keywords; if( ref($kw) =~ /ARRAY/i ) { $kw = join("; ", @$kw); } $kw .= '.' if( $kw !~ /\.$/ ); } $self->_write_line_swissprot_regex("KW ","KW ", $kw, "\\s\+\|\$",80); } #Check if there are seqfeatures before printing the FT line my @feats = $seq->can('top_SeqFeatures') ? $seq->top_SeqFeatures : (); if ($feats[0]) { if( defined $self->_post_sort ) { # we need to read things into an array. Process. Sort them. Print 'em my $post_sort_func = $self->_post_sort(); my @fth; foreach my $sf ( @feats ) { push(@fth,Bio::SeqIO::FTHelper::from_SeqFeature($sf,$seq)); } @fth = sort { &$post_sort_func($a,$b) } @fth; foreach my $fth ( @fth ) { $self->_print_swissprot_FTHelper($fth); } } else { # not post sorted. And so we can print as we get them. # lower memory load... foreach my $sf ( @feats ) { my @fth = Bio::SeqIO::FTHelper::from_SeqFeature($sf,$seq); foreach my $fth ( @fth ) { if( ! $fth->isa('Bio::SeqIO::FTHelper') ) { $sf->throw("Cannot process FTHelper... $fth"); } $self->_print_swissprot_FTHelper($fth); } } } if( $self->_show_dna() == 0 ) { return; } } # finished printing features. # molecular weight my $mw = ${Bio::Tools::SeqStats->get_mol_wt($seq->primary_seq)}[0]; # checksum # was crc32 checksum, changed it to crc64 my $crc64 = $self->_crc64(\$str); $self->_print( sprintf("SQ SEQUENCE %4d AA; %d MW; %16s CRC64;\n", $len,$mw,$crc64)); $self->_print( " "); my $linepos; for ($i = 0; $i < length($str); $i += 10) { $self->_print( substr($str,$i,10), " "); $linepos += 11; if( ($i+10)%60 == 0 && (($i+10) < length($str))) { $self->_print( "\n "); } } $self->_print( "\n//\n"); $self->flush if $self->_flush_on_write && defined $self->_fh; return 1; } } # Thanks to James Gilbert for the following two. LP 08/01/2000 =head2 _generateCRCTable Title : _generateCRCTable Usage : Function: Example : Returns : Args : =cut sub _generateCRCTable { # 10001000001010010010001110000100 # 32 my $poly = 0xEDB88320; my ($self) = shift; $self->{'_crcTable'} = []; foreach my $i (0..255) { my $crc = $i; for (my $j=8; $j > 0; $j--) { if ($crc & 1) { $crc = ($crc >> 1) ^ $poly; } else { $crc >>= 1; } } ${$self->{'_crcTable'}}[$i] = $crc; } } =head2 _crc32 Title : _crc32 Usage : Function: Example : Returns : Args : =cut sub _crc32 { my( $self, $str ) = @_; $self->throw("Argument to crc32() must be ref to scalar") unless ref($str) eq 'SCALAR'; $self->_generateCRCTable() unless exists $self->{'_crcTable'}; my $len = length($$str); my $crc = 0xFFFFFFFF; for (my $i = 0; $i < $len; $i++) { # Get upper case value of each letter my $int = ord uc substr $$str, $i, 1; $crc = (($crc >> 8) & 0x00FFFFFF) ^ ${$self->{'_crcTable'}}[ ($crc ^ $int) & 0xFF ]; } return $crc; } =head2 _crc64 Title : _crc64 Usage : Function: Example : Returns : Args : =cut sub _crc64{ my ($self, $sequence) = @_; my $POLY64REVh = 0xd8000000; my @CRCTableh = 256; my @CRCTablel = 256; my $initialized; my $seq = $$sequence; my $crcl = 0; my $crch = 0; if (!$initialized) { $initialized = 1; for (my $i=0; $i<256; $i++) { my $partl = $i; my $parth = 0; for (my $j=0; $j<8; $j++) { my $rflag = $partl & 1; $partl >>= 1; $partl |= (1 << 31) if $parth & 1; $parth >>= 1; $parth ^= $POLY64REVh if $rflag; } $CRCTableh[$i] = $parth; $CRCTablel[$i] = $partl; } } foreach (split '', $seq) { my $shr = ($crch & 0xFF) << 24; my $temp1h = $crch >> 8; my $temp1l = ($crcl >> 8) | $shr; my $tableindex = ($crcl ^ (unpack "C", $_)) & 0xFF; $crch = $temp1h ^ $CRCTableh[$tableindex]; $crcl = $temp1l ^ $CRCTablel[$tableindex]; } my $crc64 = sprintf("%08X%08X", $crch, $crcl); return $crc64; } =head2 _print_swissprot_FTHelper Title : _print_swissprot_FTHelper Usage : Function: Example : Returns : Args : =cut sub _print_swissprot_FTHelper { my ($self,$fth,$always_quote) = @_; $always_quote ||= 0; my ($start,$end) = ('?', '?'); if( ! ref $fth || ! $fth->isa('Bio::SeqIO::FTHelper') ) { $fth->warn("$fth is not a FTHelper class. ". "Attempting to print, but there could be tears!"); } if( $fth->loc =~ /(\?|\d+|\>\d+|<\d+)?\.\.(\?|\d+|<\d+|>\d+)?/ ) { $start = $1 if defined $1; $end = $2 if defined $2; # to_FTString only returns one value when start == end, #JB955 # so if no match is found, assume it is both start and end #JB955 } else { $start = $end = $fth->loc; } my $desc = ""; $desc = @{$fth->field->{"description"}}[0]."." if exists $fth->field->{"description"}; $self->_write_line_swissprot_regex(sprintf("FT %-8s %6s %6s ", substr($fth->key,0,8), $start,$end), "FT ", $desc.'.','\s+|$',80); } #' =head2 _read_swissprot_References Title : _read_swissprot_References Usage : Function: Reads references from swissprot format. Internal function really Example : Returns : Args : =cut sub _read_swissprot_References{ my ($self,$buffer) = @_; my (@refs); my ($b1, $b2, $rp, $title, $loc, $au, $med, $com, $pubmed); if ($$buffer !~ /^RP/) { $$buffer = $self->_readline; } if( !defined $$buffer ) { return undef; } if( $$buffer =~ /^RP/ ) { if ($$buffer =~ /^RP (SEQUENCE OF (\d+)-(\d+).*)/) { $rp=$1; $b1=$2; $b2=$3; } elsif ($$buffer =~ /^RP (.*)/) { $rp=$1; } } while( defined ($_ = $self->_readline) ) { #/^CC/ && last; /^RN/ && last; # separator between references ! LP 07/25/2000 #/^SQ/ && last; # there may be sequences without CC lines! HL 05/11/2000 /^[^R]/ && last; # may be the safest exit point HL 05/11/2000 /^RX MEDLINE;\s+(\d+)/ && do {$med=$1}; /^RX MEDLINE=(\d+);\s+PubMed=(\d+);/ && do {$med=$1;$pubmed=$2}; /^RA (.*)/ && do { $au .= $au ? " $1" : $1; next;}; /^RT (.*)/ && do { $title .= $title ? " $1" : $1; next;}; /^RL (.*)/ && do { $loc .= $loc ? " $1" : $1; next;}; /^RC (.*)/ && do { $com .= $com ? " $1" : $1; next;}; } my $ref = new Bio::Annotation::Reference; $au =~ s/;\s*$//g; if( defined $title ) { $title =~ s/;\s*$//g; } $ref->start($b1); $ref->end($b2); $ref->authors($au); $ref->title($title); $ref->location($loc); $ref->medline($med); $ref->pubmed($pubmed) if (defined $pubmed); $ref->comment($com); $ref->rp($rp); push(@refs,$ref); $$buffer = $_; return \@refs; } =head2 _read_swissprot_Species Title : _read_swissprot_Species Usage : Function: Reads the swissprot Organism species and classification lines. Example : Returns : A Bio::Species object Args : =cut sub _read_swissprot_Species { my( $self, $buffer ) = @_; my $org; $_ = $$buffer; my( $subspecies, $species, $genus, $common, $variant, $ncbi_taxid ); my @class; my ($binomial, $descr); my $osline = ""; while (defined( $_ ||= $self->_readline )) { last unless /^O[SCGX]/; # believe it or not, but OS may come multiple times -- at this time # we can't capture multiple species if(/^OS\s+(\S.+)/ && (! defined($binomial))) { $osline .= " " if $osline; $osline .= $1; if($osline =~ s/(,|, and|\.)$//) { ($binomial, $descr) = $osline =~ /(\S[^\(]+)(.*)/; ($genus, $species, $subspecies) = split(/\s+/, $binomial); $species = "sp." unless $species; while($descr =~ /\(([^\)]+)\)/g) { my $item = $1; # strain etc may not necessarily come first (yes, swissprot # is messy) if((! defined($variant)) && (($item =~ /(^|[^\(\w])([Ss]train|isolate|serogroup|serotype|subtype|clone)\b/) || ($item =~ /^(biovar|pv\.|type\s+)/))) { $variant = $item; } elsif($item =~ s/^subsp\.\s+//) { if(! $subspecies) { $subspecies = $item; } elsif(! $variant) { $variant = $item; } } elsif(! defined($common)) { # we're only interested in the first common name $common = $item; if((index($common, '(') >= 0) && (index($common, ')') < 0)) { $common .= ')'; } } } } } elsif (s/^OC\s+//) { push(@class, split /[\;\.]\s*/); if($class[0] =~ /viruses/i) { # viruses have different OS/OC syntax my @virusnames = split(/\s+/, $binomial); $species = (@virusnames > 1) ? pop(@virusnames) : ''; $genus = join(" ", @virusnames); $subspecies = undef; } } elsif (/^OG\s+(.*)/) { $org = $1; } elsif (/^OX\s+(.*)/ && (! defined($ncbi_taxid))) { my $taxstring = $1; # we only keep the first one and ignore all others if ($taxstring =~ /NCBI_TaxID=([\w\d]+)/) { $ncbi_taxid = $1; } else { $self->throw("$taxstring doesn't look like NCBI_TaxID"); } } $_ = undef; # Empty $_ to trigger read of next line } $$buffer = $_; # Don't make a species object if it is "Unknown" or "None" return if $genus =~ /^(Unknown|None)$/i; if ($class[$#class] eq $genus) { push( @class, $species ); } else { push( @class, $genus, $species ); } @class = reverse @class; my $taxon = Bio::Species->new(); $taxon->classification( \@class, "FORCE" ); # no name validation please $taxon->common_name( $common ) if $common; $taxon->sub_species( $subspecies ) if $subspecies; $taxon->organelle ( $org ) if $org; $taxon->ncbi_taxid ( $ncbi_taxid ) if $ncbi_taxid; $taxon->variant($variant) if $variant; # done return $taxon; } =head2 _filehandle Title : _filehandle Usage : $obj->_filehandle($newval) Function: Example : Returns : value of _filehandle Args : newvalue (optional) =cut # inherited from SeqIO.pm ! HL 05/11/2000 =head2 _read_FTHelper_swissprot Title : _read_FTHelper_swissprot Usage : _read_FTHelper_swissprot(\$buffer) Function: reads the next FT key line Example : Returns : Bio::SeqIO::FTHelper object Args : filehandle and reference to a scalar =cut sub _read_FTHelper_swissprot { # initial version implemented by HL 05/10/2000 # FIXME this may not be perfect, so please review my ($self,$buffer) = @_; my ($key, # The key of the feature $loc, # The location line from the feature $desc, # The descriptive text ); if ($$buffer =~ /^FT (\w+)\s+([\d\?\<]+)\s+([\d\?\>]+)\s*(.*)$/) { $key = $1; my $loc1 = $2; my $loc2 = $3; $loc = "$loc1..$loc2"; if($4 && (length($4) > 0)) { $desc = $4; chomp($desc); } else { $desc = ""; } # Read all the continuation lines up to the next feature while (defined($_ = $self->_readline) && /^FT\s{20,}(\S.*)$/) { $desc .= $1; chomp($desc); } $desc =~ s/\.$//; } else { # No feature key. What's this? $self->warn("No feature key in putative feature table line: $_"); return; } # Put the first line of the next feature into the buffer $$buffer = $_; # Make the new FTHelper object my $out = new Bio::SeqIO::FTHelper(-verbose => $self->verbose()); $out->key($key); $out->loc($loc); # store the description if there is one if($desc && (length($desc) > 0)) { $out->field->{"description"} ||= []; push(@{$out->field->{"description"}}, $desc); } return $out; } =head2 _write_line_swissprot Title : _write_line_swissprot Usage : Function: internal function Example : Returns : Args : =cut sub _write_line_swissprot{ my ($self,$pre1,$pre2,$line,$length) = @_; $length || die "Miscalled write_line_swissprot without length. Programming error!"; my $subl = $length - length $pre2; my $linel = length $line; my $i; my $sub = substr($line,0,$length - length $pre1); $self->_print( "$pre1$sub\n"); for($i= ($length - length $pre1);$i < $linel;) { $sub = substr($line,$i,($subl)); $self->_print( "$pre2$sub\n"); $i += $subl; } } =head2 _write_line_swissprot_regex Title : _write_line_swissprot_regex Usage : Function: internal function for writing lines of specified length, with different first and the next line left hand headers and split at specific points in the text Example : Returns : nothing Args : file handle, first header, second header, text-line, regex for line breaks, total line length =cut sub _write_line_swissprot_regex { my ($self,$pre1,$pre2,$line,$regex,$length) = @_; #print STDOUT "Going to print with $line!\n"; $length || die "Miscalled write_line_swissprot without length. Programming error!"; if( length $pre1 != length $pre2 ) { print STDERR "len 1 is ", length $pre1, " len 2 is ", length $pre2, "\n"; die "Programming error - cannot called write_line_swissprot_regex with different length \npre1 ($pre1) and \npre2 ($pre2) tags!"; } my $subl = $length - (length $pre1) -1 ; my @lines; while($line =~ m/(.{1,$subl})($regex)/g) { push(@lines, $1.$2); } my $s = shift @lines; $self->_print( "$pre1$s\n"); foreach my $s ( @lines ) { $self->_print( "$pre2$s\n"); } } =head2 _post_sort Title : _post_sort Usage : $obj->_post_sort($newval) Function: Returns : value of _post_sort Args : newvalue (optional) =cut sub _post_sort{ my $obj = shift; if( @_ ) { my $value = shift; $obj->{'_post_sort'} = $value; } return $obj->{'_post_sort'}; } =head2 _show_dna Title : _show_dna Usage : $obj->_show_dna($newval) Function: Returns : value of _show_dna Args : newvalue (optional) =cut sub _show_dna{ my $obj = shift; if( @_ ) { my $value = shift; $obj->{'_show_dna'} = $value; } return $obj->{'_show_dna'}; } =head2 _id_generation_func Title : _id_generation_func Usage : $obj->_id_generation_func($newval) Function: Returns : value of _id_generation_func Args : newvalue (optional) =cut sub _id_generation_func{ my $obj = shift; if( @_ ) { my $value = shift; $obj->{'_id_generation_func'} = $value; } return $obj->{'_id_generation_func'}; } =head2 _ac_generation_func Title : _ac_generation_func Usage : $obj->_ac_generation_func($newval) Function: Returns : value of _ac_generation_func Args : newvalue (optional) =cut sub _ac_generation_func{ my $obj = shift; if( @_ ) { my $value = shift; $obj->{'_ac_generation_func'} = $value; } return $obj->{'_ac_generation_func'}; } =head2 _sv_generation_func Title : _sv_generation_func Usage : $obj->_sv_generation_func($newval) Function: Returns : value of _sv_generation_func Args : newvalue (optional) =cut sub _sv_generation_func{ my $obj = shift; if( @_ ) { my $value = shift; $obj->{'_sv_generation_func'} = $value; } return $obj->{'_sv_generation_func'}; } =head2 _kw_generation_func Title : _kw_generation_func Usage : $obj->_kw_generation_func($newval) Function: Returns : value of _kw_generation_func Args : newvalue (optional) =cut sub _kw_generation_func{ my $obj = shift; if( @_ ) { my $value = shift; $obj->{'_kw_generation_func'} = $value; } return $obj->{'_kw_generation_func'}; } 1;