Mercurial > repos > romaingred > pirna_pipeline
view bin/ppp.pm @ 4:bbe202c54a29 draft
Uploaded
author | romaingred |
---|---|
date | Thu, 12 Oct 2017 10:33:17 -0400 |
parents | 198009598544 |
children | 8031792a6e2c |
line wrap: on
line source
package ppp; use strict; use warnings; use FindBin; use lib $FindBin::Bin; use Rcall qw ( histogram ); use Math::CDF; use Exporter; our @ISA = qw( Exporter ); our @EXPORT_OK = qw( &ping_pong_partners ); sub ping_pong_partners { my ( $TE_fai, $sam, $dir, $max ) = @_; my ( $hashRef, $dupRef ) = count_mapped ( $TE_fai, $sam ); my ( %num_per_overlap_size, $overlap_number, $reverseR, $begRev, $endRev, $sensR, $begSens, $endSens, $snum, $rnum, $overlap ); my ( $SP, $AP, $SN, $AN, $txt); my $flag = 0; my @distri_overlap = (); my @overlaps_names = (); open my $ppp_f, '>', $dir."ppp.txt" || die "cannot create ppp.txt $!\n"; foreach my $k ( sort keys %{$hashRef} ) { my $v = $hashRef->{$k}; my $TE_dir = $dir.$k.'/'; %num_per_overlap_size = (); $overlap_number = 0; $flag = 0; for ( my $i = 0; $i <= $#{$v->[1]} ; $i++ ) { $reverseR = ${$v->[1]}[$i] ; $begRev = $reverseR->[0]; $endRev = $begRev + length($reverseR->[1]) - 1; my $revR = reverse($reverseR->[1]); $revR =~ tr/atgcuATGCU/tacgaTACGA/; for ( my $j = 0; $j <= $#{$v->[0]}; $j++ ) { $sensR = ${$v->[0]}[$j]; $begSens = $sensR->[0]; $endSens = $begSens + length($sensR->[1]) - 1; if ( $begSens <= $endRev && $endSens > $endRev ) { $flag = 1; mkdir $TE_dir; open $SP, '>>', $TE_dir."sensPPP.txt" || die "cannot create sensPPP\n"; open $AP, '>>', $TE_dir."antisensPPP.txt" || die "cannot create antisensPPP\n"; open $SN, '>>', $TE_dir."sens.txt" || die "cannot create sens\n"; open $AN, '>>', $TE_dir."antisens.txt" || die "cannot create antisens\n"; open $txt, '>', $TE_dir.'overlap_size.txt' || die "cannot open repartition\n"; $overlap = $endRev - $begSens + 1; $snum = $dupRef->{$sensR->[0].$sensR->[1].$sensR->[2].$sensR->[3]}; $rnum = $dupRef->{$reverseR->[0].$reverseR->[1].$reverseR->[2].$reverseR->[3]}; if ( $overlap == 10 ) { print $SP ">$sensR->[0]|$sensR->[2]|$sensR->[3]|$snum\n$sensR->[1]\n"; print $AP ">$reverseR->[0]|$reverseR->[2]|$reverseR->[3]|$rnum\n$revR\n"; } else { print $SN ">$sensR->[0]|$sensR->[2]|$sensR->[3]|$snum\n$sensR->[1]\n"; print $AN ">$reverseR->[0]|$reverseR->[2]|$reverseR->[3]|$rnum\n$revR\n"; } next if $overlap > $max; if ( $snum < $rnum ) { $num_per_overlap_size{$overlap} += $snum; $overlap_number += $snum; } else { $num_per_overlap_size{$overlap} += $rnum ; $overlap_number += $rnum ; } } } } if ( $max != 0 ) { my @overlaps = (); push @overlaps_names, $k; for my $i (1..$max) { $num_per_overlap_size{$i} = 0 unless exists( $num_per_overlap_size{$i} ); push @overlaps, $num_per_overlap_size{$i}; } push @distri_overlap, \@overlaps; } if ( $flag == 1 ) { my $histo_png = $TE_dir.'histogram.png'; histogram( \%num_per_overlap_size, $histo_png, $overlap_number ); print $txt "size\tnumber\tpercentage of the total overlap number\n"; foreach my $k ( sort {$a <=> $b} keys %num_per_overlap_size ) { my $percentage = 0; $percentage = $num_per_overlap_size{$k} * 100 / $overlap_number unless $overlap_number == 0; print $txt "$k\t$num_per_overlap_size{$k}\t"; printf $txt "%.2f\n",$percentage; } close $txt; } } foreach my $tabP ( @distri_overlap ) { my $sum = sum($tabP); my $ten = $tabP->[9]; my $mean = mean($tabP); my $std = standard_deviation($tabP, $mean); my $zsc = z_significance($ten, $mean, $std); my $name = shift @overlaps_names; my $prob = 'NA'; $prob = 1 - &Math::CDF::pnorm( $zsc ) if $zsc ne 'NA'; print $ppp_f (join ("\t", $name, $sum, $ten, $mean, $std, $zsc, $prob ),"\n" ); } close $ppp_f; } sub count_mapped { my ( $fai, $in_file ) = @_; my ( %mapped, %dup ); open my $f, '<', $fai || die "cannot open $fai $! \n"; while(<$f>) { if ($_ =~ /(.*)\t(\d+)\n/) { $mapped{$1} = []; $mapped{$1}->[0] = []; $mapped{$1}->[1] = []; } } close $f; open my $infile, "samtools view $in_file |"|| die "cannot open input file $! \n"; while(<$infile>) { unless ($_ =~ /^\@[A-Za-z][A-Za-z](\t[A-Za-z][A-Za-z0-9]:[ -~]+)+$/ || $_ =~ /^\@CO\t.*/ ) { my @line = split (/\t/,$_); if ($line[1] == 0) { push @{$mapped{$line[2]}->[0]} , [$line[3], $line[9], $line[1], $line[2]] unless exists ($dup{$line[3].$line[9].$line[1].$line[2]}); $dup{$line[3].$line[9].$line[1].$line[2]}+=1; } elsif ($line[1] == 16) { push @{$mapped{$line[2]}->[1]} , [$line[3], $line[9], $line[1], $line[2]] unless exists ($dup{$line[3].$line[9].$line[1].$line[2]}); $dup{$line[3].$line[9].$line[1].$line[2]}+=1; } } } close $infile; return (\%mapped, \%dup ); } sub sum { my $arrayref = shift; my $result = 0; foreach (@$arrayref) {$result += $_} return $result; } sub mean { my $arrayref = shift; my $result; foreach (@$arrayref) {$result += $_} return $result / scalar(@$arrayref); } sub standard_deviation { my ($arrayref, $mean) = @_; return sqrt ( mean ( [map $_**2 , @$arrayref ]) - ($mean**2)); } sub z_significance { my ($ten, $mean, $std) = @_; my $z = 'NA'; $z = (($ten - $mean) / $std) if $std != 0; return $z; } 1;