comparison barcode_sort.pl @ 0:5dc02b8a2a57 draft default tip

planemo upload commit 70654da77972b29181d3b388035836b6fa84d59d-dirty
author tiagoantao
date Fri, 08 Apr 2016 11:38:00 -0400
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comparison
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-1:000000000000 0:5dc02b8a2a57
1 #!/usr/bin/perl -w
2 use strict; use warnings;
3
4 my $cut_site = $ARGV[7]; #let the user specify the cut site keyword (e.g. "TGCA" for the SbfI 6 bp cutter)
5
6 my $b = $ARGV[6]; #let the user specify barcode length
7 my $n = 2; # set number of nucleotides to expect before the barcode (bestRAD libraries run at U. Oregon have 2bp here)
8 my $c = $b + $n; # set position for start of enzyme cutsite, which occurs after the initial nucleotides plus the barcode
9 my $e = 6; # set length of remaining enzyme cutsite sequence (e.g. 6 for SbfI) -- for other than SbfI, need to change the actual sequence below!!!
10 my $e = length($cut_site); #calculate the length of the cut site
11 # note this is the length of what's left after enzyme digestion, NOT the full length of the enzyme recognition site
12 # the program expects all correct forward reads to follow the pattern: $n initial nucleotides, then $b nucleotides of barcode, then $e nucleotides of the cutsite
13
14 my $is_resilient;
15
16 open (IN, $ARGV[0]); # read file with barcodes
17 my %counts = (); # make a hash of barcodes that will be searched
18 while(<IN>) { # counts of each barcode can be tracked with this hash, with a few more lines of code below
19 chomp($_);
20 $counts{$_} = 0;
21 }
22 close IN;
23
24 open (IN1, $ARGV[1]); # read fastq file of raw forward reads
25 open (IN2, $ARGV[2]); # read fastq file of raw reverse reads -- these must have pairs in identical order
26 open (OUT1, ">$ARGV[3]"); # create fastq outfile for flipped forward reads (cutsite end)
27 open (OUT2, ">$ARGV[4]"); # create fastq outfile for flipped reverse reads (randomly sheared end)
28 my $forward; my $reverse; my $barcode; # establish string variables for all parts of fastq files
29 my $name1; my $name2; my $third1; my $third2; my $qual1; my $qual2;
30
31 $is_resilient = $ARGV[5]; # true if is resilient to errors - Brian's additions
32
33
34 sub strDiffMaxDelta {
35
36 my ( $s1, $s2, $maxDelta ) = @_;
37 my $diffCount = () = ( $s1 ^ $s2 ) =~ /[^\x00]/g;
38 return $diffCount <= $maxDelta;
39
40 }
41
42 if ($is_resilient eq "true") {
43
44 my $max_errors = $ARGV[8];
45
46 while($name1 = <IN1>) { # start reading through the paired fastq input files
47 $name2 = <IN2>; # read all parts of a single read pair (4 lines in each of the 2 fastq files)
48 $forward = <IN1>;
49 $reverse = <IN2>;
50 $third1 = <IN1>; $third2 = <IN2>; $qual1 = <IN1>; $qual2 = <IN2>;
51 my $which = 0; my $for; my $rev; # establish variables used below
52
53 if(strDiffMaxDelta(substr($forward, $c, $e), $cut_site, $max_errors)) { # check for SbfI cutsite in the correct place in forward read
54 if(strDiffMaxDelta(substr($reverse, $c, $e), $cut_site, $max_errors)) { # check for SbfI cutsite in the correct place in reverse read
55 $for = substr($forward, $n, $b); # this is where a barcode should be if it's in the forward read
56 $rev = substr($reverse, $n, $b); # this is where a barcode should be if it's in the reverse read
57 if(exists $counts{$for} && (exists $counts{$rev}) == 0) { # if a correct barcode and cutsite are in forward but not reverse read...
58 $which = 1; $barcode = $for; $counts{$for}++; # which = 1 means the pair is correctly oriented
59 }
60 elsif((exists $counts{$for}) == 0 && exists $counts{$rev}) { # if a correct barcode and cutsite are only in the reverse read...
61 $which = 2; $barcode = $rev; $counts{$rev}++; # which = 2 means the pair needs to be flipped
62 }
63 }
64 else { # the cutsite is only found in the forward read
65 #$barcode = substr($forward, $n, $b);
66 #if(exists $counts{$barcode}) {$which = 1; $counts{$barcode}++; } # if a correct barcode is in the forward read, the pair is correctly oriented
67 $which = 1;
68
69 }
70 }
71 elsif(strDiffMaxDelta(substr($reverse, $c, $e), $cut_site, $max_errors)){ # cutsite not in forward read but is in reverse read
72 #$barcode = substr($reverse, $n, $b);
73 #if(exists $counts{$barcode}) {$which = 2; $counts{$barcode}++; } # pair needs to be flipped
74 $which = 2;
75 } # if a cutsite and correct barcode has not been found in either read, which = 0 at this point
76 if($which == 1) { # if the pair is correctly oriented, print out fastq format for the pair
77 my $temp1 = substr($forward, $n); # trim initial nucleotides off read and quality scores...
78 my $temp2 = substr($qual1, $n); # so that output keeps barcode and cutsite but not other nucleotides...
79 print OUT1 "$name1$temp1$third1$temp2"; # and is ready to go into process_radtags
80 print OUT2 "$name2$reverse$third2$qual2";
81 }
82 elsif($which == 2) { # if the pair needs to be flipped, print out fastq format for the flipped pair
83 my $temp1 = substr($reverse, $n);
84 my $temp2 = substr($qual2, $n);
85 print OUT1 "$name2$temp1$third2$temp2";
86 print OUT2 "$name1$forward$third1$qual1";
87 } # if which == 0, nothing is printed out for the pair
88 }
89 close IN1;
90 close IN2;
91 close OUT1;
92 close OUT2;
93
94 foreach my $key (sort keys %counts) {
95 print "$key" . "\t" . "$counts{$key}\n";
96 }
97
98 }
99
100
101 else{ #Paul's code
102
103 while($name1 = <IN1>) { # start reading through the paired fastq input files
104 $name2 = <IN2>; # read all parts of a single read pair (4 lines in each of the 2 fastq files)
105 $forward = <IN1>;
106 $reverse = <IN2>;
107 $third1 = <IN1>; $third2 = <IN2>; $qual1 = <IN1>; $qual2 = <IN2>;
108
109 my $which = 0; my $for; my $rev; # establish variables used below
110 if(substr($forward, $c, $e) eq "TGCAGG") { # check for SbfI cutsite in the correct place in forward read
111 if(substr($reverse, $c, $e) eq "TGCAGG") { # check for SbfI cutsite in the correct place in reverse read
112 $for = substr($forward, $n, $b); # this is where a barcode should be if it's in the forward read
113 $rev = substr($reverse, $n, $b); # this is where a barcode should be if it's in the reverse read
114 if(exists $counts{$for} && (exists $counts{$rev}) == 0) { # if a correct barcode and cutsite are in forward but not reverse read...
115 $which = 1; $barcode = $for; $counts{$for}++; # which = 1 means the pair is correctly oriented
116 }
117 elsif((exists $counts{$for}) == 0 && exists $counts{$rev}) { # if a correct barcode and cutsite are only in the reverse read...
118 $which = 2; $barcode = $rev; $counts{$rev}++; # which = 2 means the pair needs to be flipped
119 }
120 }
121 else { # the cutsite is only found in the forward read
122 $barcode = substr($forward, $n, $b);
123 if(exists $counts{$barcode}) {$which = 1; $counts{$barcode}++; } # if a correct barcode is in the forward read, the pair is correctly oriented
124 }
125 }
126 elsif(substr($reverse, $c, $e) eq "TGCAGG") { # cutsite not in forward read but is in reverse read
127 $barcode = substr($reverse, $n, $b);
128 if(exists $counts{$barcode}) {$which = 2; $counts{$barcode}++; } # pair needs to be flipped
129 } # if a cutsite and correct barcode has not been found in either read, which = 0 at this point
130 if($which == 1) { # if the pair is correctly oriented, print out fastq format for the pair
131 my $temp1 = substr($forward, $n); # trim initial nucleotides off read and quality scores...
132 my $temp2 = substr($qual1, $n); # so that output keeps barcode and cutsite but not other nucleotides...
133 print OUT1 "$name1$temp1$third1$temp2"; # and is ready to go into process_radtags
134 print OUT2 "$name2$reverse$third2$qual2";
135 }
136 elsif($which == 2) { # if the pair needs to be flipped, print out fastq format for the flipped pair
137 my $temp1 = substr($reverse, $n);
138 my $temp2 = substr($qual2, $n);
139 print OUT1 "$name2$temp1$third2$temp2";
140 print OUT2 "$name1$forward$third1$qual1";
141 } # if which == 0, nothing is printed out for the pair
142
143
144 }
145 close IN1;
146 close IN2;
147 close OUT1;
148 close OUT2;
149
150 foreach my $key (sort keys %counts) {
151 print "$key" . "\t" . "$counts{$key}\n";
152 }
153 }