Merge pull request #150 from jkeenan/missing_manifest
[bioperl-live.git] / examples / tools / gff2ps.pl
blobebbb0e03453a90a3c173789736ea7ebbf81b5b40
1 #!/usr/local/bin/perl
4 =head1 NAME
6 gff2ps - you will want to change this script
8 =head2 SYNOPSIS
10 perl gff2ps < file.gff > file.ps
12 =head2 DESCRIPTION
14 This script provides GFF to postscript handling. Due to the ... ummm
15 ... potential for flexible reinterpretation that is GFF, this script
16 will almost certainly need modifying for anyone elses use (basically,
17 you need to know what you want to get out of the GFF file and how to
18 draw it). But it does include code to draw the most challenging thing
19 out there - genes - and should give you a good example of where to
20 start
22 =head2 AUTHOR
24 Ewan Birney
26 =cut
29 use Bio::Tools::GFF;
31 my $font = 8;
32 my $scale = 200;
33 my $rotate = 1;
34 my $feature_off = 0;
36 use Getopt::Long;
38 &GetOptions(
39 "scale=i" => \$scale,
40 "font=i" => \$font,
41 "rotate=i" => \$rotate,
42 "start=i" => \$feature_off
46 my $gffio = Bio::Tools::GFF->new(-fh => \*STDIN, -gff_version => 1);
47 my $feature;
49 use Data::Dumper;
51 my %set;
53 # loop over the input stream
54 while( my $f = $gffio->next_feature()) {
55 $f->start($f->start - $feature_off);
56 $f->end ($f->end - $feature_off);
58 if( $f->start < 0 ) {
59 next;
62 if( $f->start > $scale*1000 ) {
63 next;
67 if( $f->primary_tag =~ /coding_exon/ ) {
68 #print STDERR "Seen ",$f->start," ",$f->end,"\n";
69 ($group) = $f->each_tag_value('group');
70 $group =~ s/\s+//g;
74 if( !defined $set{$group} ) {
75 $set{$group} = Bio::SeqFeature::Generic->new();
76 $set{$group}->seqname($f->seqname);
77 $set{$group}->primary_tag('transcript');
78 $set{$group}->source_tag($f->source_tag);
79 $set{$group}->add_tag_value('id',$group);
81 $set{$group}->add_sub_SeqFeature($f,'EXPAND');
82 $set{$group}->strand($f->strand);
85 $gffio->close();
88 #foreach my $set ( values %set ) {
89 # print $set->gff_string,"\n";
90 # foreach $sub ( $set->sub_SeqFeature ) {
91 # print $sub->gff_string,"\n";
92 # }
96 # sort into forward and reverse strands
98 my @forward;
99 my @reverse;
101 $max = 0;
103 foreach my $set ( values %set ) {
104 if( $set->end > $max ) {
105 $max = $set->end;
108 if( $set->strand == -1 ) {
109 push(@reverse,$set);
110 } else {
111 push(@forward,$set);
115 @forward = sort { $a->start <=> $b->start } @forward;
116 @reverse = sort { $a->start <=> $b->start } @reverse;
118 &print_header(\*STDOUT);
120 if( $rotate ) {
121 print "0 700 translate\n";
122 print "-90 rotate\n";
125 print "0 200 moveto 900 200 lineto stroke\n";
127 my $bp_max = $scale*900;
129 for(my $bp = 0;$bp < $bp_max ;$bp = $bp + 5000) {
130 print STDOUT $bp/$scale," 200 moveto ",$bp/$scale," 197 lineto\n";
131 $text = int( $feature_off + ($bp/1000));
132 print STDOUT $bp/$scale," 195 moveto ($text) show\n";
136 &draw_gene(\@forward,1,$scale,220,\*STDOUT);
137 &draw_gene(\@reverse,-1,$scale,180,\*STDOUT);
139 print "showpage\n";
144 sub draw_gene {
145 my ($gene_array,$strand,$scale,$offset,$fh) = @_;
148 my @bump_array;
149 my $bump_row_max = 1;
150 my $bump_end = int $max/$scale;
152 $bump_array[0] = '0' x $bump_end;
155 foreach my $f ( @$gene_array ) {
158 # Bump it baby!
161 # We keep an array of strings for currently draw areas. Do this in pixel
162 # coordinates to save on space. If the region has all 0's then we know we
163 # can draw here. If so, we set it to 1's. If not, we go up a row and see if
164 # we can fit it in there. If we exhausted the rows we make a new row.
166 $bump_start = (int $f->start/$scale)-1;
167 $bump_len = int(($f->end - $f->start)/$scale) +1;
169 # text might be longer than gene. Mystic number 5 looks good for 8 point helvetica
170 # you will have to change this otherwise.
172 my ($gene_id) = $f->each_tag_value('id');
173 if( (length $gene_id)*5 > $bump_len ) {
174 $bump_len = (length $gene_id)*5;
177 # figure out the first place to fit in this gene;
178 for($i=0;$i<$bump_row_max;$i++) {
179 #print STDERR "Seeing $bump_start $bump_len $i ",substr($bump_array[$i],$bump_start,$bump_len),"\n";
181 if( substr($bump_array[$i],$bump_start,$bump_len) !~ /1/ ) {
182 #print STDERR "Going to break with $i\n";
183 last;
186 #print STDERR "i is $i\n";
187 # if $i == bump_row_max then we need a new bump row
188 if( $i == $bump_row_max ) {
189 $bump_array[$bump_row_max] = '0' x $bump_end;
190 $bump_row_max++;
193 # now blank out this bump row to 1's
195 substr($bump_array[$i],$bump_start,$bump_len) = '1' x $bump_len;
197 # now print it out ;)
201 # Need to be portable between strands. Gene hats go the
202 # other way up on reverse strand, but not the text.
205 if( $strand == 1 ) {
206 $text = $offset+($i*20)+1;
207 $bottom = $offset+($i*20)+10;
208 $top = $offset+($i*20)+20;
209 $mid = $offset+($i*20)+15;
210 } else {
211 $text = $offset-($i*20)-19;
212 $bottom = $offset-($i*20);
213 $top = $offset-($i*20)-10;
214 $mid = $offset-($i*20)-5;
217 print $fh $f->start/$scale," ",$text," moveto\n";
218 print $fh "($gene_id) show\n";
220 my $prev = undef;
222 foreach $exon ( $f->sub_SeqFeature ) {
223 print $fh $exon->start/$scale," ",$bottom," moveto\n";
224 print $fh $exon->end/$scale," ",$bottom," lineto\n";
225 print $fh $exon->end/$scale," ",$top, " lineto\n";
226 print $fh $exon->start/$scale," ",$top," lineto\n";
227 print $fh "closepath stroke\n";
229 # draw the intron hat
230 if( defined $prev ) {
231 print $prev->end/$scale," ",$mid," moveto\n";
232 my $intron_len = $exon->start - $prev->end;
234 print $fh ($prev->end+($intron_len/2))/$scale," ",$top," lineto\n";
235 print $fh $exon->start/$scale," ",$mid," lineto stroke\n";
238 $prev = $exon;
245 sub print_header {
246 my $fh = shift;
248 print $fh <<EOF;
249 %!PS-Adobe-2.0
250 % Created by Genome2ps. Ewan Birney <birney\@ebi.ac.uk>
251 0.5 setlinewidth
252 /Helvetica findfont $font scalefont setfont