# $Id: Quality.pm 16123 2009-09-17 12:57:27Z cjfields $ # # BioPerl module for Bio::Seq::Quality # # Please direct questions and support issues to # # Cared for by Heikki Lehvaslaiho # # Copyright Heikki Lehvaslaiho # # You may distribute this module under the same terms as perl itself # POD documentation - main docs before the code =head1 NAME Bio::Seq::Quality - Implementation of sequence with residue quality and trace values =head1 SYNOPSIS use Bio::Seq::Quality; # input can be space delimited string or array ref my $qual = '0 1 2 3 4 5 6 7 8 9 11 12'; my $trace = '0 5 10 15 20 25 30 35 40 45 50 55'; my $seq = Bio::Seq::Quality->new ( -qual => $qual, -trace_indices => $trace, -seq => 'atcgatcgatcg', -id => 'human_id', -accession_number => 'S000012', -verbose => -1 # to silence deprecated methods ); my $quals = $seq->qual; # array ref my $traces = $seq->trace; # array ref my $quals = $seq->qual_text; # string my $traces = $seq->trace_text; # string # get sub values $quals = $seq->subqual(2, 3); # array ref $traces = $seq->subtrace(2, 3); # array ref $quals = $seq->subqual_text(2, 3); # string $quals = $seq->subtrace_text(2, 3); # string # set sub values $seq->subqual(2, 3, "9 9"); $seq->subtrace(2, 3, "9 9"); =head1 DESCRIPTION This object stores base quality values together with the sequence string. It is a reimplementation of Chad Matsalla's Bio::Seq::SeqWithQuality module using Bio::Seq::MetaI. The implementation is based on Bio::Seq::Meta::Array. qual() and trace() are base methods to store and retrieve information that have extensions to retrieve values as a scalar (e.g. qual_text() ), or get or set subvalues (e.g. subqual() ). See L for more details. All the functional code is in Bio::Seq::Meta::Array. There deprecated methods that are included for compatibility with Bio::Seq::SeqWithQuality. These will print a warning unless verbosity of the object is set to be less than zero. =head2 Differences from Bio::Seq::SeqWithQuality It is not possible to fully follow the interface of Bio::Seq::SeqWithQuality since internally a Bio::Seq::SeqWithQuality object is a composite of two independent objects: a Bio::PrimarySeq object and Bio::Seq::PrimaryQual object. Both of these objects can be created separately and merged into Bio::Seq::SeqWithQuality. This implementation is based on Bio::Seq::Meta::Array that is a subclass of Bio::PrimarySeq that stores any number of meta information in unnamed arrays. Here we assume that two meta sets, called 'qual' and 'trace_indices' are attached to a sequence. (But there is nothing that prevents you to add as many named meta sets as you need using normal meta() methods). qual() is an alias to meta(), qualat($loc) is an alias to submeta($loc,$loc). trace_indices() in Bio::Seq::SeqWithQuality has been abbreviated to trace() and is an alias to named_meta('trace'). You can create an object without passing any arguments to the constructor (Bio::Seq::SeqWithQuality fails without alphabet). It will warn about not being able to set alphabet unless you set verbosity of the object to a negative value. After the latest rewrite, the meta information sets (quality and trace) no longer cover all the residues automatically. Methods to check the length of meta information (L, L)and to see if the ends are flushed to the sequence have been added (L, L). To force the old functinality, set L to true. qual_obj() and seq_obj() methods do not exist! Finally, there is only one set of descriptors (primary_id, display_id, accession_number) for the object. =head1 SEE ALSO L, L =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://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 - Heikki Lehvaslaiho Email heikki-at-bioperl-dot-org =head1 CONTRIBUTORS Chad Matsalla, bioinformatics at dieselwurks dot com Dan Bolser, dan dot bolser at gmail dot com =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::Seq::Quality; use vars qw($DEFAULT_NAME $GAP $META_GAP); use strict; #use overload '""' => \&to_string; use base qw(Bio::Seq::Meta::Array); BEGIN { $DEFAULT_NAME = 'DEFAULT'; $GAP = '-'; $META_GAP = ' '; } =head2 new Title : new Usage : $metaseq = Bio::Seq::Quality->new ( -qual => '0 1 2 3 4 5 6 7 8 9 11 12', -trace => '0 5 10 15 20 25 30 35 40 45 50 55', -seq => 'atcgatcgatcg', -id => 'human_id', -accession_number => 'S000012', ); Function: Constructor for Bio::Seq::Quality class. Note that you can provide an empty quality and trace strings. Returns : a new Bio::Seq::Quality object =cut sub new { my ($class, @args) = @_; my $self = $class->SUPER::new(@args); my($meta, $qual, $trace, $trace_indices, $trace_data) = $self->_rearrange([qw(META QUAL TRACE TRACE_INDICES TRACE_DATA)], @args); $self->{'_meta'}->{$DEFAULT_NAME} = []; $self->{'_meta'}->{'trace'} = []; $self->{trace_data} = $trace_data; $meta && $self->meta($meta); $qual && $self->qual($qual); $trace && $self->named_meta('trace', $trace); $trace_indices && $self->named_meta('trace', $trace_indices); return $self; } =head2 qual Title : qual Usage : $qual_values = $obj->qual($values_string); Function: Get and set method for the meta data starting from residue position one. Since it is dependent on the length of the sequence, it needs to be manipulated after the sequence. The length of the returned value always matches the length of the sequence. Returns : reference to an array of meta data Args : new value, string or array ref or Bio::Seq::PrimaryQual, optional Setting quality values resets the cached good quality ranges that depend on the set threshold value. =cut sub qual { my $self = shift; my $value = shift; $value = $value->qual if ref($value) and ref($value) ne 'ARRAY' and $value->isa('Bio::Seq::PrimaryQual'); $self->_empty_cache if $value; $self->named_meta($DEFAULT_NAME, $value); } =head2 qual_text Title : qual_text Usage : $qual_values = $obj->qual_text($values_arrayref); Function: Variant of meta() and qual() guarantied to return a string representation of meta data. For details, see L. Returns : a string Args : new value, optional =cut sub qual_text { return join ' ', @{shift->submeta(@_)}; } =head2 subqual Title : subqual Usage : $subset_of_qual_values = $obj->subqual(10, 20, $value_string); $subset_of_qual_values = $obj->subqual(10, undef, $value_string); Function: Get and set method for meta data for subsequences. Numbering starts from 1 and the number is inclusive, ie 1-2 are the first two residue of the sequence. Start cannot be larger than end but can be equal. If the second argument is missing the returned values should extend to the end of the sequence. Returns : A reference to an array Args : integer, start position integer, end position, optional when a third argument present new value, optional =cut sub subqual { shift->named_submeta($DEFAULT_NAME, @_); } =head2 subqual_text Title : subqual_text Usage : $meta_values = $obj->subqual_text(20, $value_string); Function: Variant of subqual() returning a stringified representation of meta data. For details, see L. Returns : a string Args : new value, optional =cut sub subqual_text { return join ' ', @{shift->submeta(@_)}; } =head2 quality_length Title : quality_length() Usage : $qual_len = $obj->quality_length(); Function: return the number of elements in the quality array Returns : integer Args : - =cut sub quality_length { my ($self) = @_; return $self->named_meta_length('DEFAULT'); } =head2 quality_is_flush Title : quality_is_flush Usage : $quality_is_flush = $obj->quality_is_flush() Function: Boolean to tell if the trace length equals the sequence length. Returns true if force_flush() is set. Returns : boolean 1 or 0 Args : none =cut sub quality_is_flush { return shift->is_flush('quality'); } =head2 trace Title : trace Usage : $trace_values = $obj->trace($values_string); Function: Get and set method for the meta data starting from residue position one. Since it is dependent on the length of the sequence, it needs to be manipulated after the sequence. The length of the returned value always matches the length of the sequence. Returns : reference to an array of meta data Args : new value, string or array ref, optional =cut sub trace { return shift->named_meta('trace', shift); } =head2 trace_text Title : trace_text Usage : $trace_values = $obj->trace_text($values_arrayref); Function: Variant of meta() and trace() guarantied to return a string representation of meta data. For details, see L. Returns : a string Args : new value, optional =cut sub trace_text { return join ' ', @{shift->named_submeta('trace', @_)}; } =head2 subtrace Title : subtrace Usage : $subset_of_trace_values = $obj->subtrace(10, 20, $value_string); $subset_of_trace_values = $obj->subtrace(10, undef, $value_string); Function: Get and set method for meta data for subsequences. Numbering starts from 1 and the number is inclusive, ie 1-2 are the first two residue of the sequence. Start cannot be larger than end but can be equal. If the second argument is missing the returned values should extend to the end of the sequence. Returns : A reference to an array Args : integer, start position integer, end position, optional when a third argument present new value, optional =cut sub subtrace { return shift->named_submeta('trace', @_); } =head2 subtrace_text Title : subtrace_text Usage : $meta_values = $obj->subtrace_text(20, $value_string); Function: Variant of subtrace() returning a stringified representation of meta data. For details, see L. Returns : a string Args : new value, optional =cut sub subtrace_text { return join ' ', @{shift->named_submeta('trace', @_)}; } =head2 trace_length Title : trace_length() Usage : $trace_len = $obj->trace_length(); Function: return the number of elements in the trace set Returns : integer Args : - =cut sub trace_length { my ($self) = @_; return $self->named_meta_length('trace'); } =head2 trace_is_flush Title : trace_is_flush Usage : $trace_is_flush = $obj->trace_is_flush() Function: Boolean to tell if the trace length equals the sequence length. Returns true if force_flush() is set. Returns : boolean 1 or 0 Args : none =cut sub trace_is_flush { return shift->is_flush('trace'); } =head2 get_trace_graph Title : get_trace_graph Usage : @trace_values = $obj->get_trace_graph( -trace => 'a', -scale => 100) Function : Returns array of raw trace values for a trace file, or false if no trace data exists. Requires a value for trace to get either the a, g, c or t trace information, and an optional value for scale, which rescales the data between 0 and the provided value, a scale value of '0' performs no scaling Returns : Array or 0 Args : string, trace to retrieve, one of a, g, c or t integer, scale, for scaling of trace between 0 and scale, or 0 for no scaling, optional =cut sub get_trace_graph { my $self = shift; my($trace, $scale) = $self->_rearrange([qw(TRACE SCALE )], @_); unless (grep { lc($trace) eq $_ } ('a', 'g', 'c', 't')) { return 0 } unless (defined($self->{trace_data})) { return 0 } $trace = lc($trace) . "_trace"; my @trace_data = exists $self->{trace_data}->{$trace} && ref $self->{trace_data}->{$trace} eq 'ARRAY' ? @{$self->{trace_data}->{$trace}} : (); my $max = $self->{trace_data}->{max_height}; if (defined($scale) and $scale != 0) { @trace_data = map { $_ / $max * $scale } @trace_data; } return @trace_data; } =head2 threshold Title : threshold Usage : $qual->threshold($value); Function: Sets the threshold for good quality values. Returns : an integer Args : new value, optional Value used by *clear_range* method below. =cut sub threshold { my $self = shift; my $value = shift; if (defined $value) { $self->throw("Threshold needs to be an integer [$value]") unless $value =~ /^[-+]?\d+?$/; $self->_empty_cache if defined $self->{_threshold} and $self->{_threshold} ne $value; $self->{_threshold} = $value; } return $self->{_threshold}; } =head2 count_clear_ranges Title : count_clear_ranges Usage : $count = $obj->count_clear_ranges($threshold); Function: Counts number of ranges in the sequence where quality values are above the threshold Returns : count integer Args : threshold integer, optional Set threshold first using method L. =cut sub count_clear_ranges { my $self = shift; my $threshold = shift; $self->threshold($threshold) if defined $threshold; # populate the cache if needed $self->_find_clear_ranges unless defined $self->{_ranges}; return scalar @{$self->{_ranges}} } =head2 clear_ranges_length Title : clear_ranges_length Usage : $total_lenght = $obj->clear_ranges_length($threshold); Function: Return number of residues with quality values above the threshold in all clear ranges Returns : an integer Args : threshold, optional Set threshold first using method L. =cut sub clear_ranges_length { my $self = shift; my $threshold = shift; $self->threshold($threshold) if defined $threshold; # populate the cache if needed $self->_find_clear_ranges unless defined $self->{_ranges}; my $sum; map {$sum += $_->{length}} @{$self->{_ranges}}; return $sum; } =head2 get_clear_range Title : get_clear_range Usage : $newqualobj = $obj->get_clear_range($threshold); Function: Return longest subsequence that has quality values above the threshold Returns : a new Bio::Seq::Quality object Args : threshold, optional Set threshold first using method L. =cut sub get_clear_range { my $self = shift; my $threshold = shift; $self->threshold($threshold) if defined $threshold; # populate the cache if needed $self->_find_clear_ranges unless defined $self->{_ranges}; # fix for bug 2847 return unless defined $self->{_ranges}; # pick the longest for (sort {$b->{length} <=> $a->{length} } @{$self->{_ranges}} ){ return Bio::Seq::Quality->new ( -seq => $self->subseq( $_->{start}, $_->{end}), -qual => $self->subqual($_->{start}, $_->{end}) ); } } =head2 get_all_clean_ranges Title : get_all_clean_ranges Usage : @ranges = $obj->get_all_clean_ranges($minlength); Function: Return all ranges where quality values are above the threshold. Original ordering. Returns : an ordered array of new Bio::Seq::Quality objects Args : minimum length , optional Set threshold first using method L. =cut sub get_all_clean_ranges { my $self = shift; my $minl = shift; $minl ||= 0; $self->throw("Mimimum length needs to be zero or a positive integer [$minl]") unless $minl =~ /^\+?\d+?$/; # populate the cache if needed $self->_find_clear_ranges unless defined $self->{_ranges}; # return in the order of occurrence my @ranges; for my $r (sort {$b->{start} <=> $a->{start} } @{$self->{_ranges}} ){ next if $r->{length} < $minl; push @ranges, Bio::Seq::Quality->new ( -seq => $self->subseq( $r->{start}, $r->{end}), -qual => $self->subqual($r->{start}, $r->{end}) ); } return @ranges; } # # _find_clear_ranges: where range/threshold calculations happen # sub _find_clear_ranges { my $self = shift; $self->throw("You need to set the threshold value first") unless defined $self->threshold; my $flag = 0; my $threshold = $self->threshold; my $i = 0; foreach my $q (@{$self->qual}) { $i++; # print "$i -- $q\n"; if ( $flag ){ if ($q < $threshold) { my $range; $range->{end} = $i-1; $range->{start} = $flag; $range->{length} = $i - $flag; push @{$self->{_ranges}}, $range; $flag = 0; # reset flag } } else { $flag = $i if $q >= $threshold; } } if( $flag ){ ## Log the range my $range; $range->{end} = $i; $range->{start} = $flag; $range->{length} = $i - $flag + 1; push @{$self->{_ranges}}, $range; } 1; } sub _empty_cache { my $self = shift; undef $self->{_ranges}; } ################## deprecated methods ################## sub trace_indices { my $self = shift; return $self->named_meta('trace'); } sub trace_index_at { my ($self, $val) =@_; return shift @{$self->named_submeta('trace', $val, $val)}; } sub sub_trace_index { my $self = shift; return $self->named_submeta('trace', @_); } sub qualat { my ($self, $val) =@_; return shift @{$self->submeta($val, $val)}; } sub baseat { my ($self,$val) = @_; return $self->subseq($val,$val); } 1;