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# BioPerl module for Bio::SearchIO::blasttable
#
# Please direct questions and support issues to <bioperl-l@bioperl.org>
#
# Cared for by Jason Stajich <jason-at-bioperl-dot-org>
#
# 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::SearchIO::blasttable - Driver module for SearchIO for parsing NCBI -m 8/9 format
=head1 SYNOPSIS
# do not use this module directly
use Bio::SearchIO;
my $parser = Bio::SearchIO->new(-file => $file,
-format => 'blasttable');
while( my $result = $parser->next_result ) {
}
=head1 DESCRIPTION
This module will support parsing NCBI -m 8 or -m 9 tabular output
and WU-BLAST -mformat 2 or -mformat 3 tabular output.
=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<bioperl-l@bioperl.org>
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:
https://redmine.open-bio.org/projects/bioperl/
=head1 AUTHOR - Jason Stajich
Email jason-at-bioperl-dot-org
=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::SearchIO::blasttable;
use vars qw(%MAPPING %MODEMAP $DEFAULT_WRITER_CLASS $DefaultProgramName);
use strict;
use Bio::Search::Result::ResultFactory;
use Bio::Search::Hit::HitFactory;
use Bio::Search::HSP::HSPFactory;
$DefaultProgramName = 'BLASTN';
$DEFAULT_WRITER_CLASS = 'Bio::SearchIO::Writer::HitTableWriter';
# mapping of terms to Bioperl hash keys
%MODEMAP = (
'Result' => 'result',
'Hit' => 'hit',
'Hsp' => 'hsp'
);
%MAPPING = (
'Hsp_bit-score' => 'HSP-bits',
'Hsp_score' => 'HSP-score',
'Hsp_evalue' => 'HSP-evalue',
'Hsp_query-from' => 'HSP-query_start',
'Hsp_query-to' => 'HSP-query_end',
'Hsp_hit-from' => 'HSP-hit_start',
'Hsp_hit-to' => 'HSP-hit_end',
'Hsp_positive' => 'HSP-conserved',
'Hsp_identity' => 'HSP-identical',
'Hsp_mismatches' => 'HSP-mismatches',
'Hsp_qgapblocks' => 'HSP-query_gapblocks',
'Hsp_hgapblocks' => 'HSP-hit_gapblocks',
'Hsp_gaps' => 'HSP-hsp_gaps',
'Hsp_hitgaps' => 'HSP-hit_gaps',
'Hsp_querygaps' => 'HSP-query_gaps',
'Hsp_align-len' => 'HSP-hsp_length',
'Hsp_query-frame'=> 'HSP-query_frame',
'Hsp_hit-frame' => 'HSP-hit_frame',
'Hit_id' => 'HIT-name',
'Hit_len' => 'HIT-length',
'Hit_accession' => 'HIT-accession',
'Hit_def' => 'HIT-description',
'Hit_signif' => 'HIT-significance',
'Hit_score' => 'HIT-score',
'Hit_bits' => 'HIT-bits',
'Result_program' => 'RESULT-algorithm_name',
'Result_version' => 'RESULT-algorithm_version',
'Result_query-def'=> 'RESULT-query_name',
'Result_query-len'=> 'RESULT-query_length',
'Result_query-acc'=> 'RESULT-query_accession',
'Result_querydesc'=> 'RESULT-query_description',
'Result_db' => 'RESULT-database_name',
'Result_db-len' => 'RESULT-database_entries',
'Result_db-let' => 'RESULT-database_letters',
);
use base qw(Bio::SearchIO);
=head2 new
Title : new
Usage : my $obj = Bio::SearchIO::blasttable->new();
Function: Builds a new Bio::SearchIO::blasttable object
Returns : an instance of Bio::SearchIO::blasttable
Args :
=cut
sub _initialize {
my ($self,@args) = @_;
$self->SUPER::_initialize(@args);
my ($pname) = $self->_rearrange([qw(PROGRAM_NAME)],
@args);
$self->program_name($pname || $DefaultProgramName);
$self->_eventHandler->register_factory('result', Bio::Search::Result::ResultFactory->new(-type => 'Bio::Search::Result::GenericResult'));
$self->_eventHandler->register_factory('hit', Bio::Search::Hit::HitFactory->new(-type => 'Bio::Search::Hit::GenericHit'));
$self->_eventHandler->register_factory('hsp', Bio::Search::HSP::HSPFactory->new(-type => 'Bio::Search::HSP::GenericHSP'));
}
=head2 next_result
Title : next_result
Usage : my $result = $parser->next_result
Function: Parse the next result from the data stream
Returns : L<Bio::Search::Result::ResultI>
Args : none
=cut
sub next_result{
my ($self) = @_;
my ($lastquery,$lasthit);
local $/ = "\n";
local $_;
my ($alg, $ver);
while( defined ($_ = $self->_readline) ) {
# WU-BLAST -mformat 3 only
if(m{^#\s((?:\S+?)?BLAST[NPX])\s(\d+\.\d+.+\d{4}\])}) {
($alg, $ver) = ($1, $2);
# only one header for whole file with WU-BLAST
# so $alg and $ver won't get set properly for
# each result
$self->program_name($alg) if $alg;
$self->element({'Name' => 'Result_version',
'Data' => $ver}) if $ver;
next;
}
# -m 9 only
elsif(m{^#\s+((?:\S+?)?BLAST[NPX])\s+(.+)}) {
($alg, $ver) = ($1, $2);
next;
}
next if /^#/ || /^\s*$/;
my @fields = split;
next if @fields == 1;
my ($qname,$hname, $percent_id, $hsp_len, $mismatches,$gapsm,
$qstart,$qend,$hstart,$hend,$evalue,$bits);
# WU-BLAST-specific
my ($num_scores, $raw_score, $identities, $positives, $percent_pos,
$qgap_blocks,$qgaps, $sgap_blocks, $sgaps, $qframe,
$sframe);
# NCBI -m8 and -m9
if (@fields == 12) {
($qname,$hname, $percent_id, $hsp_len, $mismatches,$gapsm,
$qstart,$qend,$hstart,$hend,$evalue,$bits) = @fields;
# NCBI -m8 and -m9, v 2.2.18+
} elsif (@fields == 13) {
($qname, $hname, $percent_id, $percent_pos, $hsp_len, $mismatches, $gapsm,
$qstart,$qend,$hstart,$hend,$evalue,$bits) = @fields;
}
# WU-BLAST -mformat 2 and 3
elsif ((@fields == 22) or (@fields == 24)) {
($qname,$hname,$evalue,$num_scores, $bits, $raw_score, $hsp_len,
$identities, $positives,$mismatches, $percent_id, $percent_pos,
$qgap_blocks, $qgaps, $sgap_blocks, $sgaps, $qframe, $qstart,
$qend, $sframe, $hstart,$hend,) = @fields;
# we need total gaps in the alignment
$gapsm=$qgaps+$sgaps;
}
if (@fields == 12 || @fields == 13) {
# need to determine total gaps in the alignment for NCBI output
# since NCBI reports number of gapopens and NOT total gaps
my $qlen = abs($qstart - $qend) + 1;
my $querygaps = $hsp_len - $qlen;
my $hlen = abs($hstart - $hend) + 1;
my $hitgaps = $hsp_len - $hlen;
$gapsm = $querygaps + $hitgaps;
}
# Remember Jim's code is 0 based
if( defined $lastquery &&
$lastquery ne $qname ) {
$self->end_element({'Name' => 'Hit'});
$self->end_element({'Name' => 'Result'});
$self->_pushback($_);
return $self->end_document;
} elsif( ! defined $lastquery ) {
$self->{'_result_count'}++;
$self->start_element({'Name' => 'Result'});
$self->element({'Name' => 'Result_program',
'Data' => $alg || $self->program_name});
$self->element({'Name' => 'Result_version',
'Data' => $ver}) if $ver;
$self->element({'Name' => 'Result_query-def',
'Data' => $qname});
$self->start_element({'Name' => 'Hit'});
$self->element({'Name' => 'Hit_id',
'Data' => $hname});
# we'll store the 1st hsp bits as the hit bits
$self->element({'Name' => 'Hit_bits',
'Data' => $bits});
# we'll store the 1st hsp value as the hit evalue
$self->element({'Name' => 'Hit_signif',
'Data' => $evalue});
} elsif( $lasthit ne $hname ) {
if( $self->in_element('hit') ) {
$self->end_element({'Name' => 'Hit'});
}
$self->start_element({'Name' => 'Hit'});
$self->element({'Name' => 'Hit_id',
'Data' => $hname});
# we'll store the 1st hsp bits as the hit bits
$self->element({'Name' => 'Hit_bits',
'Data' => $bits});
# we'll store the 1st hsp value as the hit evalue
$self->element({'Name' => 'Hit_signif',
'Data' => $evalue});
}
my $identical = $hsp_len - $mismatches - $gapsm;
# If $positives value is absent, try to recover it from $percent_pos,
# this is better than letting the program to assume "conserved == identical"
if (not defined $positives and defined $percent_pos) {
$positives = sprintf "%d", ($percent_pos * $hsp_len / 100);
}
$self->start_element({'Name' => 'Hsp'});
$self->element({'Name' => 'Hsp_evalue',
'Data' => $evalue});
$self->element({'Name' => 'Hsp_bit-score',
'Data' => $bits});
$self->element({'Name' => 'Hsp_identity',
'Data' => $identical});
$self->element({'Name' => 'Hsp_positive',
'Data' => $positives});
$self->element({'Name' => 'Hsp_gaps',
'Data' => $gapsm});
$self->element({'Name' => 'Hsp_query-from',
'Data' => $qstart});
$self->element({'Name' => 'Hsp_query-to',
'Data' => $qend});
$self->element({'Name' => 'Hsp_hit-from',
'Data' => $hstart });
$self->element({'Name' => 'Hsp_hit-to',
'Data' => $hend });
$self->element({'Name' => 'Hsp_align-len',
'Data' => $hsp_len});
$self->end_element({'Name' => 'Hsp'});
$lastquery = $qname;
$lasthit = $hname;
}
# fencepost
if( defined $lasthit && defined $lastquery ) {
if( $self->in_element('hit') ) {
$self->end_element({'Name' => 'Hit'});
}
$self->end_element({'Name' => 'Result'});
return $self->end_document;
}
}
=head2 start_element
Title : start_element
Usage : $eventgenerator->start_element
Function: Handles a start element event
Returns : none
Args : hashref with at least 2 keys 'Data' and 'Name'
=cut
sub start_element{
my ($self,$data) = @_;
# we currently don't care about attributes
my $nm = $data->{'Name'};
if( my $type = $MODEMAP{$nm} ) {
$self->_mode($type);
if( $self->_will_handle($type) ) {
my $func = sprintf("start_%s",lc $type);
$self->_eventHandler->$func($data->{'Attributes'});
}
unshift @{$self->{'_elements'}}, $type;
}
if($nm eq 'Result') {
$self->{'_values'} = {};
$self->{'_result'}= undef;
$self->{'_mode'} = '';
}
}
=head2 end_element
Title : start_element
Usage : $eventgenerator->end_element
Function: Handles an end element event
Returns : none
Args : hashref with at least 2 keys 'Data' and 'Name'
=cut
sub end_element {
my ($self,$data) = @_;
my $nm = $data->{'Name'};
my $rc;
# Hsp are sort of weird, in that they end when another
# object begins so have to detect this in end_element for now
if( my $type = $MODEMAP{$nm} ) {
if( $self->_will_handle($type) ) {
my $func = sprintf("end_%s",lc $type);
$rc = $self->_eventHandler->$func($self->{'_reporttype'},
$self->{'_values'});
}
shift @{$self->{'_elements'}};
} elsif( $MAPPING{$nm} ) {
if ( ref($MAPPING{$nm}) =~ /hash/i ) {
my $key = (keys %{$MAPPING{$nm}})[0];
$self->{'_values'}->{$key}->{$MAPPING{$nm}->{$key}} = $self->{'_last_data'};
} else {
$self->{'_values'}->{$MAPPING{$nm}} = $self->{'_last_data'};
}
} else {
$self->warn( "unknown nm $nm ignoring\n");
}
$self->{'_last_data'} = ''; # remove read data if we are at
# end of an element
$self->{'_result'} = $rc if( $nm eq 'Result' );
return $rc;
}
=head2 element
Title : element
Usage : $eventhandler->element({'Name' => $name, 'Data' => $str});
Function: Convience method that calls start_element, characters, end_element
Returns : none
Args : Hash ref with the keys 'Name' and 'Data'
=cut
sub element{
my ($self,$data) = @_;
$self->start_element($data);
$self->characters($data);
$self->end_element($data);
}
=head2 characters
Title : characters
Usage : $eventgenerator->characters($str)
Function: Send a character events
Returns : none
Args : string
=cut
sub characters{
my ($self,$data) = @_;
# deep bug fix: set $self->{'_last_data'} to undef if $$data{Data} is
# a valid slot, whose value is undef --
# allows an undef to be propagated to object constructors and
# handled there as desired; in particular, when Hsp_postive => -conserved
# is not defined (in BLASTN, e.g.), the value of hsp's {CONSERVED} property is
# set to the value of {IDENTICAL}.
#/maj
# return unless ( defined $data->{'Data'} );
return unless ( grep /Data/, keys %$data );
if ( !defined $data->{'Data'} ) {
$self->{'_last_data'} = undef;
return;
}
if( $data->{'Data'} =~ /^\s+$/ ) {
return unless $data->{'Name'} =~ /Hsp\_(midline|qseq|hseq)/;
}
if( $self->in_element('hsp') &&
$data->{'Name'} =~ /Hsp\_(qseq|hseq|midline)/ ) {
$self->{'_last_hspdata'}->{$data->{'Name'}} .= $data->{'Data'};
}
$self->{'_last_data'} = $data->{'Data'};
}
=head2 _mode
Title : _mode
Usage : $obj->_mode($newval)
Function:
Example :
Returns : value of _mode
Args : newvalue (optional)
=cut
sub _mode{
my ($self,$value) = @_;
if( defined $value) {
$self->{'_mode'} = $value;
}
return $self->{'_mode'};
}
=head2 within_element
Title : within_element
Usage : if( $eventgenerator->within_element($element) ) {}
Function: Test if we are within a particular element
This is different than 'in' because within can be tested
for a whole block.
Returns : boolean
Args : string element name
=cut
sub within_element{
my ($self,$name) = @_;
return 0 if ( ! defined $name &&
! defined $self->{'_elements'} ||
scalar @{$self->{'_elements'}} == 0) ;
foreach ( @{$self->{'_elements'}} ) {
if( $_ eq $name ) {
return 1;
}
}
return 0;
}
=head2 in_element
Title : in_element
Usage : if( $eventgenerator->in_element($element) ) {}
Function: Test if we are in a particular element
This is different than 'in' because within can be tested
for a whole block.
Returns : boolean
Args : string element name
=cut
sub in_element{
my ($self,$name) = @_;
return 0 if ! defined $self->{'_elements'}->[0];
return ( $self->{'_elements'}->[0] eq $name)
}
=head2 start_document
Title : start_document
Usage : $eventgenerator->start_document
Function: Handles a start document event
Returns : none
Args : none
=cut
sub start_document{
my ($self) = @_;
$self->{'_lasttype'} = '';
$self->{'_values'} = {};
$self->{'_result'}= undef;
$self->{'_mode'} = '';
$self->{'_elements'} = [];
}
=head2 end_document
Title : end_document
Usage : $eventgenerator->end_document
Function: Handles an end document event
Returns : Bio::Search::Result::ResultI object
Args : none
=cut
sub end_document{
my ($self,@args) = @_;
return $self->{'_result'};
}
=head2 result_count
Title : result_count
Usage : my $count = $searchio->result_count
Function: Returns the number of results we have processed
Returns : integer
Args : none
=cut
sub result_count {
my $self = shift;
return $self->{'_result_count'};
}
sub report_count { shift->result_count }
=head2 program_name
Title : program_name
Usage : $obj->program_name($newval)
Function: Get/Set the program name
Returns : value of program_name (a scalar)
Args : on set, new value (a scalar or undef, optional)
=cut
sub program_name{
my $self = shift;
$self->{'program_name'} = shift if @_;
return $self->{'program_name'} || $DefaultProgramName;
}
=head2 _will_handle
Title : _will_handle
Usage : Private method. For internal use only.
if( $self->_will_handle($type) ) { ... }
Function: Provides an optimized way to check whether or not an element of a
given type is to be handled.
Returns : Reference to EventHandler object if the element type is to be handled.
undef if the element type is not to be handled.
Args : string containing type of element.
Optimizations:
=over 2
=item 1
Using the cached pointer to the EventHandler to minimize repeated
lookups.
=item 2
Caching the will_handle status for each type that is encountered so
that it only need be checked by calling
handler-E<gt>will_handle($type) once.
=back
This does not lead to a major savings by itself (only 5-10%). In
combination with other optimizations, or for large parse jobs, the
savings good be significant.
To test against the unoptimized version, remove the parentheses from
around the third term in the ternary " ? : " operator and add two
calls to $self-E<gt>_eventHandler().
=cut
sub _will_handle {
my ($self,$type) = @_;
my $handler = $self->{'_handler'};
my $will_handle = defined($self->{'_will_handle_cache'}->{$type})
? $self->{'_will_handle_cache'}->{$type}
: ($self->{'_will_handle_cache'}->{$type} =
$handler->will_handle($type));
return $will_handle ? $handler : undef;
}
1;
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