package Bio::Graphics::Glyph::merged_alignment; # this glyph acts like graded_segments but the bgcolor of each segment is # more configurable. Supply a list of colors and corresponding # bins. Each bin is a range of x-y scores, where score n is > x and <= y # e.g. # [ALIGNMENT] # feature = alignment # bins = 0-50 50-70 70-90 90-100 # bincolors = white powderblue cornflowerblue blue # for sematic zooming (at lower magnification), to # reduce visual complexity of alignment # [ALIGNMENT:20000] # segment length >= 20000 # feature = alignment # merge_parts = 1 # max_gap = 500 # do not merge across gaps > 500 bp use strict; use base qw(Bio::Graphics::Glyph::graded_segments); use constant COLORS => "lightgrey powderblue cornflowerblue blue"; sub my_description { return < [ 'integer', undef, "Maximum value of the feature's \"score\" attribute.", "If undef, the value will be calculated automatically."], min_score => [ 'integer', undef, "Minimum value of the feature's \"score\" attribute.", "If undef, the value will be calculated automatically."], bincolors => [ 'string', 'lightgrey powderblue cornflowerblue blue', 'A space-delimited string of colors to be assigned to score bins.'], bins => [ 'integer', undef, 'Size of the score bins. If undefined, the range of scores will be divided', 'into the number of bins indicated by the size of the list of bincolors.'], merge_parts => [ 'boolean', undef, 'Whether to merge small subfeatures to simplify the display at low magnifications.'], } } # override draw method sub draw { my $self = shift; # bail out if this isn't the right kind of feature # handle both das-style and Bio::SeqFeatureI style, # which use different names for subparts. my @parts = $self->parts; @parts = $self if !@parts && $self->level == 0; return $self->SUPER::draw(@_) unless @parts; my $cols = $self->option('bincolors') || COLORS; my @cols = split /\s+/, $cols; my $bins = $self->option('bins'); my @bins = $bins ? split /\s+/, $bins : $self->get_bins(\@parts, @cols); my %color; @color{@bins} = @cols; @parts = $self->merge_parts(@parts) if $self->option('merge_parts'); # figure out the colors for my $part (@parts) { my ($bin) = grep { $part->in_range($_) } @bins; my $idx = $bin ? $self->panel->translate_color($color{$bin}) : $self->panel->translate_color('white'); $part->{partcolor} = $idx; } $self->{parts} = \@parts; $self->Bio::Graphics::Glyph::merge_parts::draw(@_); } sub in_range { my $self = shift; my $range = shift; my ($low,$high) = split '-', $range; my $s = $self->score || shift; return 1 if $s >= $low && $s <= $high; return 0; } # overide background method to paint glyph white as # a last resort sub bgcolor { my $self = shift; return $self->{partcolor} || 'white'; } # used if bins are not defined in the configuration # makes equal sized bins corresponding to the number of # colors specified sub get_bins { my $self = shift; my $parts = shift; my $cols = @_; my ($min,$max) = $self->minmax($parts); my $range = $max - $min; return ($max) if $range == 0; my $increment = $range/$cols+1; my ($score,@bins) = $min; until ($score > $max) { my $range = "$score-"; $score += $increment; $range .= $score-1; push @bins, $range; } return @bins; } # synthesize a key glyph sub keyglyph { my $self = shift; my $scale = 1/$self->scale; # base pairs/pixel # two segments, at pixels 0->50, 60->80 my $offset = $self->panel->offset; my $feature = Bio::Graphics::Feature->new( -segments=>[ [ 0*$scale +$offset,25*$scale+$offset], [ 25*$scale +$offset,50*$scale+$offset], [ 50*$scale+$offset, 75*$scale+$offset] ], -name => $self->option('key'), -strand => '+1'); my @scores = $self->example_scores; my @segments = $feature->segments; for ($feature->segments) { $_->score(shift @scores); } my $factory = $self->factory->clone; $factory->set_option(label => 1); $factory->set_option(bump => 0); $factory->set_option(connector => 'solid'); my $glyph = $factory->make_glyph(0,$feature); } sub example_scores { my $self = shift; my $bins = $self->option('bins'); if ($bins) { my @bins = split /\s+/, $bins; $bins[0] =~ s/(\S+)\-\S+/$1/; $bins[-1] =~ s/\S+\-(\S+)/$1/; my $mid = $bins[0] + ($bins[-1] - $bins[0])/2; return ($bins[0], $mid, $bins[-1]); } if ($self->option('min_score') || $self->option('max_score')) { my ($min,$max) = $self->minmax; my $mid = $min + ($max - $min)/2; return($min,$mid,$max); } return (0,50,100); } 1; =pod =head1 NAME Bio::Graphics::Glyph::merged_alignment - The "merged_alignment" glyph =head1 SYNOPSIS See L and L. =head1 DESCRIPTION This glyph acts like graded_segments but the bgcolor of segments (sub-feature) is controlled by binned scores. It also supports semantic zooming to optimize glyph drawing for larger sequence displays. =head2 OPTIONS The following options are standard among all Glyphs. See L for a full explanation. Option Description Default ------ ----------- ------- -fgcolor Foreground color black -outlinecolor Synonym for -fgcolor -bgcolor Background color turquoise -fillcolor Synonym for -bgcolor -linewidth Line width 1 -height Height of glyph 10 -font Glyph font gdSmallFont -connector Connector type 0 (false) -connector_color Connector color black -label Whether to draw a label 0 (false) -description Whether to draw a description 0 (false) -hilite Highlight color undef (no color) In addition, the merged-alignment glyph recognizes the following glyph-specific options: Option Description Default ------ ----------- ------- -max_score Maximum value of the Calculated feature's "score" attribute -min_score Minimum value of the Calculated feature's "score" attribute -bincolors Colors assigned to bins lightgrey powderblue cornflowerblue blue (in order) -bins Bins to which scores are Calculated assigned -merge_parts 0 (false) Whether to simplify the alignment at low magnification -max_gap Do not merge across gaps Calculated that exceed this threshold If max_score and min_score are not specified, then the glyph will calculate the local maximum and minimum scores at run time. If the bins are not specified, they will be calculated based on the number of colors assigned and the local (or user-specified) minimum and maximum scores. Calculated bins are equal in size. User-specified bins are expressed as ranges, bins = 0-50 50-70 70-90 90-100 where each range means greater than the lower number and less than or equal to the higher number. =head2 Simplifying the display of alignment features for large segments The "merge_parts" option is used for semantic zooming. Specifically, if features are small and dense, they will not be displayed very well for large segments and the color-coding will be lost. If merge-parts is set to a true value, adjacent alignment parts will be merged until a gap exceeding a calculated or user-specified value is encountered. Unless specified, the maximum gap allowed for merging adjacent features is calculated as (L/10000)*(L/500), where L = the length of the sequence displayed in the browser. The exponentially increasing gap threshold allows more aggressive merging of alignment features as the size of the displayed sequence grows larger. The score of the merged feature is calculated as a weighted average. For example, consider two adjacent HSPs that are each 400 bp in length and have scores of 60% and 70%. If the merge_parts option is set to a true value, the two HSPs would be merged in the display to a single 800 bp alignment block with an average score of 65%. The merge_parts option is turned off by default. =head2 SAMPLE CONFIGURATION Sample gbrowse configuration stanzas for an alignment feature using this glyph. The scores are assumed to be expressed as percent identity (0-100). # base configuration [BLASTZ] feature = blastz_alignment glyph = merged_alignment bincolors = #A0A0A0 powderblue cornflowerblue blue bins = 60-70 70-80 80-90 90-100 category = Sequence Similarity Tracks height = 6 bump = 1 label = 1 fgcolor = black key = BLASTZ Semantic zooming with defined maximum gap between merged features for different zoom levels # if the displayed segment is >= 20000 in length, # use the merge_parts option to simplify the alignment # display [BLASTZ:20000] feature = blastz_alignment merge_parts = 1 max_gap = 50 # do not merge across gaps > 50 bp # if the displayed segment is >= 50000 in length [BLASTZ:50000] feature = blastz_alignment merge_parts = 1 max_gap = 500 # do not merge across gaps > 500 bp --OR-- Semantic zooming with dynamically calculated maximum gap # if the displayed segment is >= 20000 in length, [BLASTZ:20000] feature = blastz_alignment merge_parts = 1 =head1 BUGS Please report them. =head1 SEE ALSO L, L L, L, L, L, L =head1 AUTHOR Sheldon McKay Emckays@cshl.eduE Copyright (c) 2005 Cold Spring Harbor Laboratory This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself. See DISCLAIMER.txt for disclaimers of warranty. =cut