/usr/bin/nucmer2xfig is in mummer 3.23+dfsg-2.
This file is owned by root:root, with mode 0o755.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 | #!/usr/bin/perl
# (c) Steven Salzberg 2001
# Make an xfig plot for a comparison of a reference chromosome (or single
# molecule) versus a multifasta file of contigs from another genome.
# The input file here is a NUCmer coords file such as:
# 2551 2577 | 240 266 | 27 27 | 96.30 | 20302755 1424 | 0.00 1.90 | 2R 1972084
# generated by running 'show-coords -c -l <delta file>'
# For the above example, D. melanogaster chr 2R is the reference and the query
# is an assembly with 1000s of contigs from D. pseudoobscura
# The file needs to be sorted by the smaller contig ids, via:
# tail +6 Dmel2R-vs-Dpseudo.coords | sort -k 19n -k 4n > Dmel2R-vs-Dpseudo-resort.coords
# and remember to get rid of top 5 (header) lines.
# Usage: plot-drosoph-align-xfig.perl Dmel2R-vs-Dpseudo-resort.coords
unless (open(coordsfile,$ARGV[0])) {
die ("can't open file $ARGV[0].\n");
}
$Xscale = 0.005;
$Yscale = 20;
$chrcolor = 4; # 4 is red, 1 is blue, 2 is green
$green = 2;
$contigcolor = 1; # contigs are blue
# print header info
print "#FIG 3.2\nLandscape\nCenter\nInches\nLetter \n100.00\nSingle\n-2\n1200 2\n";
$first_time = 1;
while (<coordsfile>) {
($s1,$e1,$x1,$s2,$e2,$x2,$l1,$l2,$x3,$percent_id,$x4,$Rlen,$Qlen,$x5,$Rcov,$Qcov,$x6,$Rid,$Qid) = split(" ");
if ($prevQid eq $Qid) { # query contig is same as prev line
$dist = abs($s1 - $prev_s1);
if ( $dist > 2 * $Qlen) { # if this match is too far away
# print the contig here if the matching bit is > 1000
if ($right_end{$Qid} - $left_end{$Qid} > 1000) {
# print it at y=50 rather than 100 because the scale is 0-50,
# where 0=50% identical and 50 is 100% identical
print_xfig_line($left_end{$Qid},50,$right_end{$Qid},50,$contigcolor);
print_label($left_end{$Qid},50,$right_end{$Qid},$Qid,5);
}
$left_end{$Qid} = $s1; # then re-set the start and end of the contig
$right_end{$Qid} = $e1; # and we'll print it again later
}
else { # extend the boundaries of the match
if ($s1 < $left_end{$Qid}) { $left_end{$Qid} = $s1; }
if ($e1 > $right_end{$Qid}) { $right_end{$Qid} = $e1; }
}
}
else { # this is a different contig, first time seeing it
$left_end{$Qid} = $s1;
$right_end{$Qid} = $e1;
# print the previous contig as a line at y=100 for 100%
if ($first_time < 1) {
print_xfig_line($left_end{$prevQid},50,$right_end{$prevQid},50,$contigcolor);
print_label($left_end{$prevQid},50,$right_end{$prevQid},$prevQid,5);
}
else { $first_time = 0; }
}
$prevQid = $Qid;
$prev_s1 = $s1;
$prev_Qlen = $Qlen;
# next print the matching bit as a separate line, with a separate color,
# with its height determined by percent match
$Xleft = int($Xscale * $s1);
$Xright = int($Xscale * $e1);
if ($Xleft == $Xright) { $Xright += 1; }
if ($percent_id < 50) { $percent_id = 50; }
print_xfig_line($s1,$percent_id - 50,$e1,$percent_id - 50,$green);
}
# print very last contig
$left_end{$Qid} = $s1;
$right_end{$Qid} = $e1;
print_xfig_line($s1,50,$e1,50,$contigcolor);
print_label($s1,50,$e1,$Qid,5);
close(coordsfile);
# now draw the horizontal chr line for the reference
$label_xpos = $Xscale * $Rlen;
print "4 0 0 100 0 0 12 0.0000 4 135 405 ";
printf("%.0f %.0f",$label_xpos, 0);
print " ", $Rid, "\\001\n";
print "2 1 0 2 $chrcolor 7 100 0 -1 0.000 0 0 -1 0 0 2\n";
printf("\t %.0f %.0f %.0f %.0f\n", 0, 0,
$Xscale * $Rlen, 0);
# print some X-axis coordinates
$pointsize = 5;
for ($i = 250000; $i < $Rlen - 50000; $i+= 250000) {
print "4 0 0 100 0 0 $pointsize 0.0000 4 135 405 ";
printf("%.0f %.0f",$i * $Xscale + 20, -20 + ($Yscale * -0.5));
print " $i", "\\001\n";
#print a vertical tic mark
print "2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2\n";
printf("%.0f %.0f %.0f -50\n",
$i * $Xscale, 0, $i * $Xscale);
}
# print tic marks indicating % identity on the y-axis
for ($percent_id = 50; $percent_id < 101; $percent_id += 10) {
print "4 0 0 100 0 0 $pointsize 0.0000 4 135 405 ";
printf("-150 %.0f", ($percent_id - 50) * $Yscale + 10); # shift down 10 pixels
print " $percent_id", "\\001\n";
# print the tic mark
print "2 1 0 1 0 7 50 0 -1 0.000 0 0 -1 0 0 2\n";
printf("-50 %.0f 0 %.0f\n",
($percent_id - 50) * $Yscale, ($percent_id - 50) * $Yscale);
}
# print a line in the appropriate color, scaled with Xscale,Yscale
sub print_xfig_line {
my ($xleft,$yleft,$xright,$yright,$color) = @_;
# print it at the given coordinates, scaled
$xleft_scaled = int($Xscale * $xleft);
$xright_scaled = int($Xscale * $xright);
# Xfig has a bug: if we re-scale and the resulting X coordinates are equal,
# then it will print a fixed-size (large) rectangle, rather than a 1-pixel
# wide one. So check fo this and correct.
if ($xleft_scaled == $xright_scaled) { $xright_scaled += 1; }
# set up and print line in xfig format
print "2 1 0 2 $color 7 100 0 -1 0.000 0 0 -1 0 0 2\n";
printf("\t %.0f %.0f %.0f %.0f\n",
$xleft_scaled, $Yscale * $yleft, $xright_scaled, $Yscale * $yright);
}
# print a label for each contig using its ID
sub print_label {
my ($xleft,$yleft,$xright,$id,$psize) = @_;
# print it at the left edge of the contig. The angle
# of 4.7124 means text goes down vertically. 5th argument
# here is pointsize of the label.
# bump the label down 20 pixels
$yposition = $yleft * $Yscale + 20;
# to keep the display clean, don't print the label unless the
# contig itself is wider than the width of the text in the label
$xleft_scaled = $xleft * $Xscale;
$xright_scaled = $xright * $Xscale;
# each point of type is 8 pixels
$textheight = $psize * 8;
if ($xright_scaled - $xleft_scaled > $textheight) {
print "4 0 0 50 0 0 $psize 4.7124 4 135 435 ";
printf("%.0f %.0f",$xleft_scaled, $yposition);
print " $id", "\\001\n";
}
}
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