Bio::SearchIO::SearchResultEventBuilder - Event Handler for SearchIO events.

Index

NAME
SYNOPSIS
DESCRIPTION
FEEDBACK
AUTHOR - Jason Stajich
CONTRIBUTORS
APPENDIX
- new
- will_handle
- SAX methods
- start_result
- end_result
- start_hsp
- end_hsp
- start_hit
- end_hit
- Factory methods
- register_factory
- factory
- inclusion_threshold

Code Index:

package Bio::SearchIO::SearchResultEventBuilder
- new
- will_handle
- start_result
- end_result
- start_hsp
- end_hsp
- start_hit
- end_hit
- _add_hit
- register_factory
- factory
- inclusion_threshold
EOF

NAME

Bio::SearchIO::SearchResultEventBuilder - Event Handler for SearchIO events.

SYNOPSIS

# Do not use this object directly, this object is part of the SearchIO # event based parsing system.

DESCRIPTION

This object handles Search Events generated by the SearchIO classes and build appropriate Bio::Search::* objects from them.

FEEDBACK

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

Support

Please direct usage questions or support issues to the mailing list:

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.

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/

AUTHOR - Jason Stajich

Email jason-at-bioperl.org

CONTRIBUTORS

Sendu Bala, bix@sendu.me.uk

APPENDIX

The rest of the documentation details each of the object methods. Internal methods are usually preceded with a _

new

 Title   : new
 Usage   : my $obj = Bio::SearchIO::SearchResultEventBuilder->new();
 Function: Builds a new Bio::SearchIO::SearchResultEventBuilder object 
 Returns : Bio::SearchIO::SearchResultEventBuilder
 Args    : -hsp_factory    => Bio::Factory::ObjectFactoryI
           -hit_factory    => Bio::Factory::ObjectFactoryI
           -result_factory => Bio::Factory::ObjectFactoryI

See Bio::Factory::ObjectFactoryI for more information

will_handle

 Title   : will_handle
 Usage   : if( $handler->will_handle($event_type) ) { ... }
 Function: Tests if this event builder knows how to process a specific event
 Returns : boolean
 Args    : event type name

SAX methods

start_result

 Title   : start_result
 Usage   : $handler->start_result($resulttype)
 Function: Begins a result event cycle
 Returns : none 
 Args    : Type of Report

end_result

 Title   : end_result
 Usage   : my @results = $parser->end_result
 Function: Finishes a result handler cycle 
 Returns : A Bio::Search::Result::ResultI
 Args    : none

start_hsp

 Title   : start_hsp
 Usage   : $handler->start_hsp($name,$data)
 Function: Begins processing a HSP event
 Returns : none
 Args    : type of element 
           associated data (hashref)

end_hsp

 Title   : end_hsp
 Usage   : $handler->end_hsp()
 Function: Finish processing a HSP event
 Returns : none
 Args    : type of event and associated hashref

start_hit

 Title   : start_hit
 Usage   : $handler->start_hit()
 Function: Starts a Hit event cycle
 Returns : none
 Args    : type of event and associated hashref

end_hit

 Title   : end_hit
 Usage   : $handler->end_hit()
 Function: Ends a Hit event cycle
 Returns : Bio::Search::Hit::HitI object
 Args    : type of event and associated hashref

Factory methods

register_factory

 Title   : register_factory
 Usage   : $handler->register_factory('TYPE',$factory);
 Function: Register a specific factory for a object type class
 Returns : none
 Args    : string representing the class and
           Bio::Factory::ObjectFactoryI

See Bio::Factory::ObjectFactoryI for more information

factory

 Title   : factory
 Usage   : my $f = $handler->factory('TYPE');
 Function: Retrieves the associated factory for requested 'TYPE'
 Returns : a Bio::Factory::ObjectFactoryI 
 Throws  : Bio::Root::BadParameter if none registered for the supplied type
 Args    : name of factory class to retrieve

See Bio::Factory::ObjectFactoryI for more information

inclusion_threshold

See Bio::SearchIO::blast::inclusion_threshold.

# # BioPerl module for Bio::SearchIO::SearchResultEventBuilder # # Please direct questions and support issues to <bioperl-l@bioperl.org> # # Cared for by Jason Stajich <jason@bioperl.org> # # Copyright Jason Stajich # # You may distribute this module under the same terms as perl itself # POD documentation - main docs before the code

# Let the code begin... package Bio::SearchIO::SearchResultEventBuilder; use vars qw(%KNOWNEVENTS); use strict; use Bio::Factory::ObjectFactory; use base qw(Bio::Root::Root Bio::SearchIO::EventHandlerI);

sub new { my ($class,@args) = @_; my $self = $class->SUPER::new(@args); my ($hspF,$hitF,$resultF) = $self->_rearrange([qw(HSP_FACTORY HIT_FACTORY RESULT_FACTORY)],@args); $self->register_factory('hsp', $hspF || Bio::Factory::ObjectFactory->new( -type => 'Bio::Search::HSP::GenericHSP', -interface => 'Bio::Search::HSP::HSPI')); $self->register_factory('hit', $hitF || Bio::Factory::ObjectFactory->new( -type => 'Bio::Search::Hit::GenericHit', -interface => 'Bio::Search::Hit::HitI')); $self->register_factory('result', $resultF || Bio::Factory::ObjectFactory->new( -type => 'Bio::Search::Result::GenericResult', -interface => 'Bio::Search::Result::ResultI')); return $self; } # new comes from the superclass

sub will_handle{ my ($self,$type) = @_; # these are the events we recognize return ( $type eq 'hsp' || $type eq 'hit' || $type eq 'result' ); }

sub start_result { my ($self,$type) = @_; $self->{'_resulttype'} = $type; $self->{'_hits'} = []; $self->{'_hsps'} = []; $self->{'_hitcount'} = 0; return; }

# this is overridden by IteratedSearchResultEventBuilder # so keep that in mind when debugging sub end_result { my ($self,$type,$data) = @_; if( defined $data->{'runid'} && $data->{'runid'} !~ /^\s+$/ ) { if( $data->{'runid'} !~ /^lcl\|/) { $data->{"RESULT-query_name"}= $data->{'runid'}; } else { ($data->{"RESULT-query_name"}, $data->{"RESULT-query_description"}) = split(/\s+/,$data->{"RESULT-query_description"},2); } if( my @a = split(/\|/,$data->{'RESULT-query_name'}) ) { my $acc = pop @a ; # this is for accession |1234|gb|AAABB1.1|AAABB1 # this is for |123|gb|ABC1.1| $acc = pop @a if( ! defined $acc || $acc =~ /^\s+$/); $data->{"RESULT-query_accession"}= $acc; } delete $data->{'runid'}; } my %args = map { my $v = $data->{$_}; s/RESULT//; ($_ => $v); } grep { /^RESULT/ } keys %{$data}; $args{'-algorithm'} = uc( $args{'-algorithm_name'} || $data->{'RESULT-algorithm_name'} || $type); $args{'-hits'} = $self->{'_hits'}; my $result = $self->factory('result')->create_object(%args); $result->hit_factory($self->factory('hit')); $self->{'_hits'} = []; return $result; }

sub start_hsp { my ($self,@args) = @_; return; }

sub end_hsp { my ($self,$type,$data) = @_; if( defined $data->{'runid'} && $data->{'runid'} !~ /^\s+$/ ) { if( $data->{'runid'} !~ /^lcl\|/) { $data->{"RESULT-query_name"}= $data->{'runid'}; } else { ($data->{"RESULT-query_name"}, $data->{"RESULT-query_description"}) = split(/\s+/,$data->{"RESULT-query_description"},2); } if( my @a = split(/\|/,$data->{'RESULT-query_name'}) ) { my $acc = pop @a ; # this is for accession |1234|gb|AAABB1.1|AAABB1 # this is for |123|gb|ABC1.1| $acc = pop @a if( ! defined $acc || $acc =~ /^\s+$/); $data->{"RESULT-query_accession"}= $acc; } delete $data->{'runid'}; } # this code is to deal with the fact that Blast XML data # always has start < end and one has to infer strandedness # from the frame which is a problem for the Search::HSP object # which expect to be able to infer strand from the order of # of the begin/end of the query and hit coordinates if( defined $data->{'HSP-query_frame'} && # this is here to protect from undefs (( $data->{'HSP-query_frame'} < 0 && $data->{'HSP-query_start'} < $data->{'HSP-query_end'} ) || $data->{'HSP-query_frame'} > 0 && ( $data->{'HSP-query_start'} > $data->{'HSP-query_end'} ) ) ) { # swap ($data->{'HSP-query_start'}, $data->{'HSP-query_end'}) = ($data->{'HSP-query_end'}, $data->{'HSP-query_start'}); } if( defined $data->{'HSP-hit_frame'} && # this is here to protect from undefs ((defined $data->{'HSP-hit_frame'} && $data->{'HSP-hit_frame'} < 0 && $data->{'HSP-hit_start'} < $data->{'HSP-hit_end'} ) || defined $data->{'HSP-hit_frame'} && $data->{'HSP-hit_frame'} > 0 && ( $data->{'HSP-hit_start'} > $data->{'HSP-hit_end'} ) ) ) { # swap ($data->{'HSP-hit_start'}, $data->{'HSP-hit_end'}) = ($data->{'HSP-hit_end'}, $data->{'HSP-hit_start'}); } $data->{'HSP-query_frame'} ||= 0; $data->{'HSP-hit_frame'} ||= 0; # handle Blast 2.1.2 which did not support data member: hsp_align-len $data->{'HSP-query_length'} ||= $data->{'RESULT-query_length'}; $data->{'HSP-query_length'} ||= length ($data->{'HSP-query_seq'} || ''); $data->{'HSP-hit_length'} ||= $data->{'HIT-length'}; $data->{'HSP-hit_length'} ||= length ($data->{'HSP-hit_seq'} || ''); $data->{'HSP-hsp_length'} ||= length ($data->{'HSP-homology_seq'} || ''); my %args = map { my $v = $data->{$_}; s/HSP//; ($_ => $v) } grep { /^HSP/ } keys %{$data}; $args{'-algorithm'} = uc( $args{'-algorithm_name'} || $data->{'RESULT-algorithm_name'} || $type); # copy this over from result $args{'-query_name'} = $data->{'RESULT-query_name'}; $args{'-hit_name'} = $data->{'HIT-name'}; my ($rank) = scalar @{$self->{'_hsps'} || []} + 1; $args{'-rank'} = $rank; $args{'-hit_desc'} = $data->{'HIT-description'}; $args{'-query_desc'} = $data->{'RESULT-query_description'}; my $bits = $args{'-bits'}; my $hsp = \%args; push @{$self->{'_hsps'}}, $hsp; return $hsp; }

sub start_hit{ my ($self,$type) = @_; $self->{'_hsps'} = []; return; }

sub end_hit{ my ($self,$type,$data) = @_; my %args = map { my $v = $data->{$_}; s/HIT//; ($_ => $v); } grep { /^HIT/ } keys %{$data}; # I hate special cases, but this is here because NCBI BLAST XML # doesn't play nice and is undergoing mutation -jason if(exists $args{'-name'} && $args{'-name'} =~ /BL_ORD_ID/ ) { ($args{'-name'}, $args{'-description'}) = split(/\s+/,$args{'-description'},2); } $args{'-algorithm'} = uc( $args{'-algorithm_name'} || $data->{'RESULT-algorithm_name'} || $type); $args{'-hsps'} = $self->{'_hsps'}; $args{'-query_len'} = $data->{'RESULT-query_length'}; $args{'-rank'} = $self->{'_hitcount'} + 1; unless( defined $args{'-significance'} ) { if( defined $args{'-hsps'} && $args{'-hsps'}->[0] ) { # use pvalue if present (WU-BLAST), otherwise evalue (NCBI BLAST) $args{'-significance'} = $args{'-hsps'}->[0]->{'-pvalue'} || $args{'-hsps'}->[0]->{'-evalue'}; } } my $hit = \%args; $hit->{'-hsp_factory'} = $self->factory('hsp'); $self->_add_hit($hit); $self->{'_hsps'} = []; return $hit; } # TODO: Optionally impose hit filtering here sub _add_hit { my ($self, $hit) = @_; push @{$self->{'_hits'}}, $hit; $self->{'_hitcount'} = scalar @{$self->{'_hits'}}; }

sub register_factory{ my ($self, $type,$f) = @_; if( ! defined $f || ! ref($f) || ! $f->isa('Bio::Factory::ObjectFactoryI') ) { $self->throw("Cannot set factory to value $f".ref($f)."\n"); } $self->{'_factories'}->{lc($type)} = $f; }

sub factory{ my ($self,$type) = @_; return $self->{'_factories'}->{lc($type)} || $self->throw(-class=>'Bio::Root::BadParameter', -text=>"No factory registered for $type"); }

sub inclusion_threshold { my $self = shift; return $self->{'_inclusion_threshold'} = shift if @_; return $self->{'_inclusion_threshold'}; } 1;