Mercurial > repos > bgruening > bismark
view bismark_pretty_report/bismark2report @ 7:fcadce4d9a06 draft
planemo upload for repository https://github.com/bgruening/galaxytools/tree/master/tools/bismark commit b'e6ee273f75fff61d1e419283fa8088528cf59470\n'
| author | bgruening |
|---|---|
| date | Sat, 06 May 2017 13:18:09 -0400 |
| parents | |
| children |
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#!/usr/bin/env perl use warnings; use strict; use Getopt::Long; use FindBin qw($Bin); use lib "$Bin/../lib"; ## This program is Copyright (C) 2010-16, Felix Krueger (felix.krueger@babraham.ac.uk) ## This program is free software: you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation, either version 3 of the License, or ## (at your option) any later version. ## This program is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## You should have received a copy of the GNU General Public License ## along with this program. If not, see <http://www.gnu.org/licenses/>. my $bismark2report_version = 'v0.16.3'; my (@alignment_reports,@dedup_reports,@splitting_reports,@mbias_reports,@nuc_reports); my ($output_dir,$verbose,$manual_output_file) = process_commandline(); # print join (",",@alignment_reports)."\n"; # print join (",",@dedup_reports)."\n"; # print join (",",@splitting_reports)."\n"; # print join (",",@mbias_reports)."\n"; # print join (",",@nuc_reports)."\n"; while (@alignment_reports){ my $alignment_report = shift @alignment_reports; my $dedup_report = shift @dedup_reports; my $splitting_report = shift @splitting_reports; my $mbias_report = shift @mbias_reports; my $nuc_report = shift @nuc_reports; ### HTML OUTPUT FILE my $report_output = $alignment_report; $report_output =~ s/^.*\///; # deleting optional path information $report_output =~ s/\.txt$//; $report_output =~ s/$/.html/; # if -o output_file was specified we are going to use that name preferentially. This may only happen if there is a single report in the folder, or if a single report has been specified manually if ($manual_output_file){ warn "A specific output filename was specified: $manual_output_file. Using that one instead of deriving the filename\n"; sleep(1); $report_output = $manual_output_file; } $report_output = $output_dir.$report_output; warn "\nWriting Bismark HTML report to >> $report_output <<\n\n"; my $doc = read_report_template(); #reading and storing the entire report template # BISMARK ALIGNMENT REPORT (mandatory) warn "="x110,"\n"; warn "Using the following alignment report:\t\t> $alignment_report <\n"; # DEDUPLICATION REPORT (optional) if ($dedup_report){ warn "Using the following deduplication report:\t> $dedup_report <\n"; } else{ warn "No deduplication report file specified, skipping this step\n"; } # SPLITTING REPORT (optional) if ($splitting_report){ warn "Using the following splitting report:\t\t> $splitting_report <\n"; } else{ warn "No splitting report file specified, skipping this step\n"; } # M-BIAS REPORT (optional) if ($mbias_report){ warn "Using the following M-bias report:\t\t> $mbias_report <\n"; } else{ warn "No M-bias report file specified, skipping this step\n"; } # NUCLEOTIDE COVERAGE REPORT (optional) if ($nuc_report){ warn "Using the following nucleotide coverage report:\t> $nuc_report <\n"; } else{ warn "No nucleotide coverage report file specified, skipping this step\n"; } warn "="x110,"\n\n\n"; $verbose and sleep(3); # creating timestamp $doc = getLoggingTime($doc); $doc = read_alignment_report($alignment_report,$doc); # mandatory if ($dedup_report){ # optional $doc = read_deduplication_report($dedup_report,$doc); # removing the delete tags in the html template $doc =~ s/\{\{start_deletion_duplication\}\}//g; $doc =~ s/\{\{end_deletion_duplication\}\}//g; } else{ # removing the entire graph and table section for the deduplication part warn "Removing the duplication section from the HTML report\n" if ($verbose); $doc =~ s/(\{\{start_deletion_duplication.*?end_deletion_duplication\}\})//gs; # s includes newline chars; non-greedy warn "Deleting the following content:\n$1\n\n" if ($verbose); sleep(3) if ($verbose); } if ($nuc_report){ # optional $doc = read_nucleotide_coverage_report($nuc_report,$doc); # removing the delete tags in the html template $doc =~ s/\{\{start_deletion_nucleotide_coverage\}\}//g; $doc =~ s/\{\{end_deletion_nucleotide_coverage\}\}//g; } else{ # removing the entire graph and table section for the nucleotide coverage part warn "Removing the nucleotide coverage section from the HTML report\n" if ($verbose); $doc =~ s/(\{\{start_deletion_nucleotide_coverage.*?end_deletion_nucleotide_coverage\}\})//gs; # s includes newline chars; non-greedy warn "Deleting the following content:\n$1\n\n" if ($verbose); sleep(3) if ($verbose); } if ($splitting_report){ # optional $doc = read_splitting_report($splitting_report,$doc); # removing the delete tags in the html template $doc =~ s/\{\{start_deletion_splitting\}\}//g; $doc =~ s/\{\{end_deletion_splitting\}\}//g; } else{ # removing the entire graph and table section for the deduplication part warn "Removing the splitting report section from the HTML report\n" if ($verbose); $doc =~ s/(\{\{start_deletion_splitting.*?end_deletion_splitting\}\})//gs; # s includes newline chars; non-greedy warn "Deleting the following content:\n$1\n\n" if ($verbose); sleep(3) if ($verbose); } if ($mbias_report){ # optional (my $state, $doc) = read_mbias_report($mbias_report,$doc); # removing the delete tags in the html template $doc =~ s/\{\{start_deletion_mbias\}\}//g; $doc =~ s/\{\{end_deletion_mbias\}\}//g; warn "Reported read state: $state\n\n" if ($verbose); # if the report was single-end we need to remove the second plot only if ($state eq 'single'){ $doc =~ s/(\{\{start_deletion_mbias_2.*?end_deletion_mbias_2\}\})//gs; # s includes newline chars; non-greedy warn "Deleting the following content:\n$1\n\n" if ($verbose); } else{ $doc =~ s/\{\{start_deletion_mbias_2\}\}//g; $doc =~ s/\{\{end_deletion_mbias_2\}\}//g; } } else{ # removing the entire graph and table section for the deduplication part $doc =~ s/(\{\{start_deletion_mbias.*?end_deletion_mbias\}\})//gs; # s includes newline chars; non-greedy warn "Deleting the following content:\n$1\n\n" if ($verbose); sleep(3) if ($verbose); } write_out_report($report_output,$doc); } sub write_out_report{ my ($report_output,$doc) = @_; open (OUT,'>',$report_output) or die "Failed to write to output file $report_output: $!\n\n"; print OUT $doc; } sub getLoggingTime { my $doc = shift; my ($sec,$min,$hour,$mday,$mon,$year,$wday,$yday,$isdst)=localtime(time); my $time = sprintf ("%02d:%02d", $hour,$min,$sec); my $date = sprintf ("%04d-%02d-%02d", $year+1900,$mon+1,$mday); warn "Using Time: $time, and date: $date\n\n" if ($verbose); $doc =~ s/\{\{date\}\}/$date/g; $doc =~ s/\{\{time\}\}/$time/g; return $doc; } sub read_alignment_report{ my ($alignment_report,$doc) = @_; warn "Processing alignment report $alignment_report ...\n"; open (ALN,$alignment_report) or die "Couldn't read from file $alignment_report: $!\n\n"; my $unique; my $no_aln; my $multiple; my $no_genomic; my $total_seqs; my $bismark_version; my $input_filename; my $unique_text; my $no_aln_text; my $multiple_text; my $total_seq_text; my $total_C_count; my ($meth_CpG,$meth_CHG,$meth_CHH,$meth_unknown); my ($unmeth_CpG,$unmeth_CHG,$unmeth_CHH,$unmeth_unknown); my ($perc_CpG,$perc_CHG,$perc_CHH,$perc_unknown); my $number_OT; my $number_CTOT; my $number_CTOB; my $number_OB; while (<ALN>){ chomp; ### General Alignment stats if ($_ =~ /^Sequence pairs analysed in total:/ ){ ## Paired-end (undef,$total_seqs) = split /\t/; print "Total paired seqs: >> $total_seqs <<\n" if ($verbose); $total_seq_text = 'Sequence pairs analysed in total'; } elsif ($_ =~ /^Sequences analysed in total:/ ){ ## Single-end (undef,$total_seqs) = split /\t/; $total_seq_text = 'Sequences analysed in total'; print "total single-end seqs >> $total_seqs <<\n" if ($verbose); } elsif($_ =~ /^Bismark report for: (.*) \(version: (.*)\)/){ $input_filename = $1; $bismark_version = $2; print "Input filename(s) >> $input_filename <<\n" if ($verbose); print "Bismark version >> $bismark_version <<\n" if ($verbose); } elsif($_ =~ /^Number of paired-end alignments with a unique best hit:/){ ## Paired-end (undef,$unique) = split /\t/; print "Unique PE>> $unique <<\n" if ($verbose);; $unique_text = 'Paired-end alignments with a unique best hit'; } elsif($_ =~ /^Number of alignments with a unique best hit from/){ ## Single-end (undef,$unique) = split /\t/; print "Unique SE>> $unique <<\n" if ($verbose); $unique_text = 'Single-end alignments with a unique best hit'; } elsif($_ =~ /^Sequence pairs with no alignments under any condition:/){ ## Paired-end (undef,$no_aln) = split /\t/; print "No alignment PE >> $no_aln <<\n" if ($verbose); $no_aln_text = 'Pairs without alignments under any condition'; } elsif($_ =~ /^Sequences with no alignments under any condition:/){ ## Single-end (undef,$no_aln) = split /\t/; print "No alignments SE>> $no_aln <<\n" if ($verbose); $no_aln_text = 'Sequences without alignments under any condition'; } elsif($_ =~ /^Sequence pairs did not map uniquely:/){ ## Paired-end (undef,$multiple) = split /\t/; print "Multiple alignments PE >> $multiple <<\n" if ($verbose); $multiple_text = 'Pairs that did not map uniquely'; } elsif($_ =~ /^Sequences did not map uniquely:/){ ## Single-end (undef,$multiple) = split /\t/; print "Multiple alignments SE >> $multiple <<\n" if ($verbose); $multiple_text = 'Sequences that did not map uniquely'; } elsif($_ =~ /^Sequence pairs which were discarded because genomic sequence could not be extracted:/){ ## Paired-end (undef,$no_genomic) = split /\t/; print "No genomic sequence PE >> $no_genomic <<\n" if ($verbose); } elsif($_ =~ /^Sequences which were discarded because genomic sequence could not be extracted:/){ ## Single-end (undef,$no_genomic) = split /\t/; print "No genomic sequence SE>> $no_genomic <<\n" if ($verbose); } ### Context Methylation elsif($_ =~ /^Total number of C/ ){ (undef,$total_C_count) = split /\t/; print "Total number C >> $total_C_count <<\n" if ($verbose); } elsif($_ =~ /^Total methylated C\'s in CpG context:/ ){ (undef,$meth_CpG) = split /\t/; print "meth CpG >> $meth_CpG <<\n" if ($verbose); } elsif($_ =~ /^Total methylated C\'s in CHG context:/ ){ (undef,$meth_CHG) = split /\t/; print "meth CHG >> $meth_CHG <<\n" if ($verbose); } elsif($_ =~ /^Total methylated C\'s in CHH context:/ ){ (undef,$meth_CHH) = split /\t/; print "meth CHH >> $meth_CHH <<\n" if ($verbose); } elsif($_ =~ /^Total methylated C\'s in Unknown context:/ ){ (undef,$meth_unknown) = split /\t/; print "meth Unknown >> $meth_unknown <<\n" if ($verbose); } elsif($_ =~ /^Total unmethylated C\'s in CpG context:/ or $_ =~ /^Total C to T conversions in CpG context:/){ (undef,$unmeth_CpG) = split /\t/; print "unmeth CpG >> $unmeth_CpG <<\n" if ($verbose); } elsif($_ =~ /^Total unmethylated C\'s in CHG context:/ or $_ =~ /^Total C to T conversions in CHG context:/){ (undef,$unmeth_CHG) = split /\t/; print "unmeth CHG >> $unmeth_CHG <<\n" if ($verbose); } elsif($_ =~ /^Total unmethylated C\'s in CHH context:/ or $_ =~ /^Total C to T conversions in CHH context:/){ (undef,$unmeth_CHH) = split /\t/; print "unmeth CHH >> $unmeth_CHH <<\n"if ($verbose); } elsif($_ =~ /^Total unmethylated C\'s in Unknown context:/ or $_ =~ /^Total C to T conversions in Unknown context:/){ (undef,$unmeth_unknown) = split /\t/; print "unmeth Unknown >> $unmeth_unknown <<\n" if ($verbose); } elsif($_ =~ /^C methylated in CpG context:/ ){ (undef,$perc_CpG) = split /\t/; $perc_CpG =~ s/%//; print "percentage CpG >> $perc_CpG <<\n" if ($verbose); } elsif($_ =~ /^C methylated in CHG context:/ ){ (undef,$perc_CHG) = split /\t/; $perc_CHG =~ s/%//; print "percentage CHG >> $perc_CHG <<\n" if ($verbose); } elsif($_ =~ /^C methylated in CHH context:/ ){ (undef,$perc_CHH) = split /\t/; $perc_CHH =~ s/%//; print "percentage CHH >> $perc_CHH <<\n" if ($verbose); } elsif($_ =~ /^C methylated in Unknown context:/ ){ (undef,$perc_unknown) = split /\t/; $perc_unknown =~ s/%//; print "percentage Unknown >> $perc_unknown <<\n" if ($verbose); } ### Strand Origin elsif($_ =~ /^CT\/GA\/CT:/ ){ ## Paired-end (undef,$number_OT) = split /\t/; print "Number OT PE>> $number_OT <<\n" if ($verbose); } elsif($_ =~ /^CT\/CT:/ ){ ## Single-end (undef,$number_OT) = split /\t/; print "Number OT SE>> $number_OT <<\n" if ($verbose); } elsif($_ =~ /^GA\/CT\/CT:/ ){ ## Paired-end (undef,$number_CTOT) = split /\t/; print "Number CTOT PE >> $number_CTOT <<\n" if ($verbose); } elsif($_ =~ /^GA\/CT:/ ){ ## Single-end (undef,$number_CTOT) = split /\t/; print "Number CTOT SE >> $number_CTOT <<\n" if ($verbose); } elsif($_ =~ /^GA\/CT\/GA:/ ){ ## Paired-end (undef,$number_CTOB) = split /\t/; print "Number CTOB PE >> $number_CTOB <<\n" if ($verbose); } elsif($_ =~ /^GA\/GA:/ ){ ## Single-end (undef,$number_CTOB) = split /\t/; print "Number CTOB SE >> $number_CTOB <<\n" if ($verbose); } elsif($_ =~ /^CT\/GA\/GA:/ ){ ## Paired-end (undef,$number_OB) = split /\t/; print "Number OB PE >> $number_OB <<\n" if ($verbose); } elsif($_ =~ /^CT\/GA:/ ){ ## Single-end (undef,$number_OB) = split /\t/; print "Number OB SE >> $number_OB <<\n" if ($verbose); } } if (defined $unique and defined $no_aln and defined $multiple and defined $no_genomic and defined $total_seqs){ warn "Got all necessary information, editing HTML report\n" if ($verbose); ### General Alignment Stats $doc =~ s/\{\{unique_seqs\}\}/$unique/g; $doc =~ s/\{\{unique_seqs_text\}\}/$unique_text/g; $doc =~ s/\{\{no_alignments\}\}/$no_aln/g; $doc =~ s/\{\{no_alignments_text\}\}/$no_aln_text/g; $doc =~ s/\{\{multiple_alignments\}\}/$multiple/g; $doc =~ s/\{\{multiple_alignments_text\}\}/$multiple_text/g; $doc =~ s/\{\{no_genomic\}\}/$no_genomic/g; $doc =~ s/\{\{total_sequences_alignments\}\}/$total_seqs/g; $doc =~ s/\{\{sequences_analysed_in_total\}\}/$total_seq_text/g; $doc =~ s/\{\{filename\}\}/$input_filename/g; $doc =~ s/\{\{bismark_version\}\}/$bismark_version/g; ### Strand Origin $doc =~ s/\{\{number_OT\}\}/$number_OT/g; $doc =~ s/\{\{number_CTOT\}\}/$number_CTOT/g; $doc =~ s/\{\{number_CTOB\}\}/$number_CTOB/g; $doc =~ s/\{\{number_OB\}\}/$number_OB/g; ### Context Methylation $doc =~ s/\{\{total_C_count\}\}/$total_C_count/g; unless (defined $perc_CpG){ $perc_CpG = 'N/A'; } unless (defined $perc_CHG){ $perc_CHG = 'N/A'; } unless (defined $perc_CHH){ $perc_CHH = 'N/A'; } unless (defined $perc_unknown){ $perc_unknown = 'N/A'; } ### Unknown sequence context, just for Bowtie 2 alignments my $meth_unknown_inject; my $unmeth_unknown_inject; my $perc_unknown_inject; if (defined $meth_unknown){ # if one Unknown context file is present, so should the others $meth_unknown_inject = " <tr> <th>Methylated C's in Unknown context</th> <td>$meth_unknown</td> </tr>"; $unmeth_unknown_inject = " <tr> <th>Unmethylated C's in Unknown context</th> <td>$unmeth_unknown</td> </tr>"; $perc_unknown_inject = " <tr> <th>Methylated C's in Unknown context</th> <td>$perc_unknown%</td> </tr>"; } else{ $meth_unknown_inject = $unmeth_unknown_inject = $perc_unknown_inject = ''; } ### injecting this into the table $doc =~ s/\{\{meth_unknown\}\}/$meth_unknown_inject/g; $doc =~ s/\{\{unmeth_unknown\}\}/$unmeth_unknown_inject/g; $doc =~ s/\{\{perc_unknown\}\}/$perc_unknown_inject/g; $doc =~ s/\{\{meth_CpG\}\}/$meth_CpG/g; $doc =~ s/\{\{meth_CHG\}\}/$meth_CHG/g; $doc =~ s/\{\{meth_CHH\}\}/$meth_CHH/g; $doc =~ s/\{\{unmeth_CpG\}\}/$unmeth_CpG/g; $doc =~ s/\{\{unmeth_CHG\}\}/$unmeth_CHG/g; $doc =~ s/\{\{unmeth_CHH\}\}/$unmeth_CHH/g; $doc =~ s/\{\{perc_CpG\}\}/$perc_CpG/g; $doc =~ s/\{\{perc_CHG\}\}/$perc_CHG/g; $doc =~ s/\{\{perc_CHH\}\}/$perc_CHH/g; my ($perc_CpG_graph, $perc_CHG_graph,$perc_CHH_graph,$perc_unknown_graph); if ($perc_CpG eq 'N/A'){ $perc_CpG_graph = 0; # values of 0 won't show in the graph and won't produce errors } else{ $perc_CpG_graph = $perc_CpG; } if ($perc_CHG eq 'N/A'){ $perc_CHG_graph = 0; # values of 0 won't show in the graph and won't produce errors } else{ $perc_CHG_graph = $perc_CHG; } if ($perc_CHH eq 'N/A'){ $perc_CHH_graph = 0; # values of 0 won't show in the graph and won't produce errors } else{ $perc_CHH_graph = $perc_CHH; } if ($perc_unknown eq 'N/A'){ $perc_unknown_graph = 0; # values of 0 won't show in the graph and won't produce errors } else{ $perc_unknown_graph = $perc_unknown; } $doc =~ s/\{\{perc_CpG_graph\}\}/$perc_CpG_graph/g; $doc =~ s/\{\{perc_CHG_graph\}\}/$perc_CHG_graph/g; $doc =~ s/\{\{perc_CHH_graph\}\}/$perc_CHH_graph/g; } else{ warn "Am I missing something?\n\n"; } warn "Complete\n\n"; return $doc; } sub read_deduplication_report{ my ($dedup_report,$doc) = @_; warn "Processing deduplication report $dedup_report ...\n"; open (DEDUP,$dedup_report) or die "Couldn't read from file $dedup_report: $!\n\n"; my $total_seqs; my $dups; my $diff_pos; my $leftover; while (<DEDUP>){ chomp; if ($_ =~ /^Total number of alignments/){ (undef,$total_seqs) = split /\t/; warn "Total number of seqs >> $total_seqs <<\n" if ($verbose); } elsif($_ =~ /^Total number duplicated/){ (undef,$dups) = split /\t/; $dups =~ s/\s.*//; # just need the number, not the percentage warn "Duplicated >> $dups <<\n" if ($verbose); } elsif($_ =~ /^Duplicated alignments were found at/){ (undef,$diff_pos) = split /\t/; $diff_pos =~ s/\s.*//; # just need the number warn "Different positions >> $diff_pos <<\n" if ($verbose); } elsif($_ =~ /^Total count of deduplicated leftover sequences: (\d+)/){ $leftover = $1; warn "Leftover seqs >> $leftover <<\n" if ($verbose); } } unless (defined $leftover){ if (defined $dups and defined $total_seqs){ $leftover = $total_seqs - $dups; } } # Checking if we got all we need if (defined $dups and defined $total_seqs and defined $diff_pos and defined $leftover){ # warn "Got all I need!\n\n"; $doc =~ s/\{\{seqs_total_duplicates\}\}/$total_seqs/g; $doc =~ s/\{\{unique_alignments_duplicates\}\}/$leftover/g; $doc =~ s/\{\{duplicate_alignments_duplicates\}\}/$dups/g; $doc =~ s/\{\{different_positions_duplicates\}\}/$diff_pos/g; } else{ warn "Something went wrong... Use --verbose to get a clue...\n"; # skipping this plot entirely if values could not be extracted return $doc; } warn "Complete\n\n"; return $doc; } sub read_nucleotide_coverage_report{ my ($nuc_report,$doc) = @_; warn "Processing nucleotide coverage report '$nuc_report' ...\n"; open (NUC,$nuc_report) or die "Couldn't read from file $nuc_report: $!\n\n"; my %nucs; # storing nucleotides and frequencies my $linecount = 0; while (<NUC>){ chomp; $_ =~ s/\r//; # removing carriage returns # warn "$_\n"; sleep(1); my ($element,$count_obs,$observed,$count_exp,$expected,$coverage) = (split /\t/); # warn "$element , $count_obs , $observed , $count_exp , $expected, $coverage\n"; sleep(1); if ($linecount == 0){ # verifying that the data appears to be a Bismark nucleotide coverage report if ($observed eq 'percent sample'){ # warn "Fine, found '$observed'\n"; } else{ die "Expected to find 'percent sample' as entry in line 1, column 3 but found '$observed'. This doesn't look like a Bismark nucleotide coverage report. Please respecify!\n"; } if ($expected eq 'percent genomic'){ # warn "Fine, found '$expected'\n"; } else{ die "Expected to find 'percent genomic' as entry in line 1, column 5 but found '$expected'. This doesn't look like a Bismark nucleotide coverage report. Please respecify!\n"; } } else{ $nucs{$element}->{obs}->{percent} = $observed; $nucs{$element}->{exp}->{percent} = $expected; $nucs{$element}->{obs}->{counts} = $count_obs; $nucs{$element}->{exp}->{counts} = $count_exp; $nucs{$element}->{obs}->{coverage} = $coverage; # coverage of that nucleotide in the sample warn "Element '$element' observed: $observed\n" if $verbose; warn "Element '$element' expected: $expected\n" if $verbose; } ++$linecount; } # Checking if we got all we need my $looksOK = 1; foreach my $key (keys %nucs){ unless ( (defined $nucs{$key}->{obs}) and (defined $nucs{$key}->{exp})){ $looksOK = 0; } } if ($looksOK){ warn "Got all necessary information, editing HTML report ...\n" if $verbose; my $minmax = 0; foreach my $key (sort {$a cmp $b} keys %nucs){ my $nuc_obs = $nucs{$key}->{obs}->{percent}; my $nuc_exp = $nucs{$key}->{exp}->{percent}; my $counts_obs = $nucs{$key}->{obs}->{counts}; my $counts_exp = $nucs{$key}->{exp}->{counts}; my $cov = $nucs{$key}->{obs}->{coverage}; # calculating log2 observed/expected my $ratio = $nuc_obs/$nuc_exp; # my $logratio = sprintf ("%.2f",log($ratio)/log(2)); # if (abs($logratio) > $minmax){ # $minmax = abs($logratio); # } warn "$key\tnuc_${key}_obs\t$nuc_obs\tnuc_${key}_exp\t$nuc_exp\tratio: $ratio\n" if $verbose; $doc =~ s/\{\{nuc_${key}_p_obs\}\}/$nuc_obs/g; $doc =~ s/\{\{nuc_${key}_p_exp\}\}/$nuc_exp/g; $doc =~ s/\{\{nuc_${key}_counts_obs\}\}/$counts_obs/g; $doc =~ s/\{\{nuc_${key}_counts_exp\}\}/$counts_exp/g; $doc =~ s/\{\{nuc_${key}_coverage\}\}/$cov/g; } # warn "Minimum/maxium ratio was: $minmax\n" if $verbose; # $doc =~ s/\{\{nuc_minmax\}\}/$minmax/g; } else{ warn "Something went wrong, skipping this plot entirely... Use --verbose to get a clue...\n"; # skipping this plot entirely if values could not be extracted return $doc; } warn "Complete\n\n"; return $doc; } sub read_splitting_report{ my ($splitting_report,$doc) = @_; warn "Processing splitting report $splitting_report ...\n"; open (SPLIT,$splitting_report) or die "Couldn't read from file $splitting_report: $!\n\n"; my $total_seqs; my $total_C_count; my ($meth_CpG,$meth_CHG,$meth_CHH,$meth_unknown); my ($unmeth_CpG,$unmeth_CHG,$unmeth_CHH,$unmeth_unknown); my ($perc_CpG,$perc_CHG,$perc_CHH,$perc_unknown); while (<SPLIT>){ chomp; ### Context Methylation if($_ =~ /^Total number of C/ ){ (undef,$total_C_count) = split /\t/; print "total calls >> $total_C_count <<\n" if ($verbose); } elsif($_ =~ /^Total methylated C\'s in CpG context:/ ){ (undef,$meth_CpG) = split /\t/; print "meth CpG >> $meth_CpG <<\n" if ($verbose); } elsif($_ =~ /^Total methylated C\'s in CHG context:/ ){ (undef,$meth_CHG) = split /\t/; print "meth CHG>> $meth_CHG <<\n" if ($verbose); } elsif($_ =~ /^Total methylated C\'s in CHH context:/ ){ (undef,$meth_CHH) = split /\t/; print "meth CHH >> $meth_CHH <<\n" if ($verbose); } elsif($_ =~ /^Total methylated C\'s in Unknown context:/ ){ (undef,$meth_unknown) = split /\t/; print "meth Unknown >> $meth_unknown <<\n" if ($verbose); } elsif($_ =~ /^Total C to T conversions in CpG context:/ ){ (undef,$unmeth_CpG) = split /\t/; print "unmeth CpG >> $unmeth_CpG <<\n" if ($verbose); } elsif($_ =~ /^Total C to T conversions in CHG context:/ ){ (undef,$unmeth_CHG) = split /\t/; print "unmeth CHG >> $unmeth_CHG <<\n" if ($verbose); } elsif($_ =~ /^Total C to T conversions in CHH context:/ ){ (undef,$unmeth_CHH) = split /\t/; print "unmeth CHH >> $unmeth_CHH <<\n" if ($verbose); } elsif($_ =~ /^Total C to T conversions in Unknown context:/ ){ (undef,$unmeth_unknown) = split /\t/; print "unmeth Unknown >> $unmeth_unknown <<\n" if ($verbose); } elsif($_ =~ /^C methylated in CpG context:/ ){ (undef,$perc_CpG) = split /\t/; $perc_CpG =~ s/%//; print "percentage CpG >> $perc_CpG <<\n" if ($verbose); } elsif($_ =~ /^C methylated in CHG context:/ ){ (undef,$perc_CHG) = split /\t/; $perc_CHG =~ s/%//; print "percentage CHG >> $perc_CHG <<\n" if ($verbose); } elsif($_ =~ /^C methylated in CHH context:/ ){ (undef,$perc_CHH) = split /\t/; $perc_CHH =~ s/%//; print "percentage CHH >> $perc_CHH <<\n" if ($verbose); } elsif($_ =~ /^C methylated in Unknown context:/ ){ (undef,$perc_unknown) = split /\t/; $perc_unknown =~ s/%//; print "percentage unknown >> $perc_unknown <<\n" if ($verbose); } } if (defined $meth_CpG and defined $meth_CHG and defined $meth_CHH and defined $unmeth_CpG and defined $unmeth_CHG and defined $unmeth_CHH){ warn "Got all necessary information, editing HTML report ...\n" if ($verbose); ### Context Methylation $doc =~ s/\{\{total_C_count_splitting\}\}/$total_C_count/g; $doc =~ s/\{\{meth_CpG_splitting\}\}/$meth_CpG/g; $doc =~ s/\{\{meth_CHG_splitting\}\}/$meth_CHG/g; $doc =~ s/\{\{meth_CHH_splitting\}\}/$meth_CHH/g; $doc =~ s/\{\{unmeth_CpG_splitting\}\}/$unmeth_CpG/g; $doc =~ s/\{\{unmeth_CHG_splitting\}\}/$unmeth_CHG/g; $doc =~ s/\{\{unmeth_CHH_splitting\}\}/$unmeth_CHH/g; unless (defined $perc_CpG){ $perc_CpG = 'N/A'; } unless (defined $perc_CHG){ $perc_CHG = 'N/A'; } unless (defined $perc_CHH){ $perc_CHH = 'N/A'; } unless (defined $perc_unknown){ $perc_unknown = 'N/A'; } ### Unknown sequence context, just for Bowtie 2 alignments my $meth_unknown_inject; my $unmeth_unknown_inject; my $perc_unknown_inject; if (defined $meth_unknown){ # if one Unknown context file is present, so should the others $meth_unknown_inject = " <tr> <th>Methylated C's in Unknown context</th> <td>$meth_unknown</td> </tr>"; $unmeth_unknown_inject = " <tr> <th>Unmethylated C's in Unknown context</th> <td>$unmeth_unknown</td> </tr>"; $perc_unknown_inject = " <tr> <th>Methylated C's in Unknown context</th> <td>$perc_unknown%</td> </tr>"; } else{ $meth_unknown_inject = $unmeth_unknown_inject = $perc_unknown_inject = ''; } ### injecting this into the table $doc =~ s/\{\{meth_unknown_splitting\}\}/$meth_unknown_inject/g; $doc =~ s/\{\{unmeth_unknown_splitting\}\}/$unmeth_unknown_inject/g; $doc =~ s/\{\{perc_unknown_splitting\}\}/$perc_unknown_inject/g; # for the graph we need to take care that there are no N/A values in the percentage fields my ($perc_CpG_graph, $perc_CHG_graph,$perc_CHH_graph,$perc_unknown_graph); if ($perc_CpG eq 'N/A'){ $perc_CpG_graph = 0; # values of 0 won't show in the graph and won't produce errors } else{ $perc_CpG_graph = $perc_CpG; } if ($perc_CHG eq 'N/A'){ $perc_CHG_graph = 0; # values of 0 won't show in the graph and won't produce errors } else{ $perc_CHG_graph = $perc_CHG; } if ($perc_CHH eq 'N/A'){ $perc_CHH_graph = 0; # values of 0 won't show in the graph and won't produce errors } else{ $perc_CHH_graph = $perc_CHH; } if ($perc_unknown eq 'N/A'){ $perc_unknown_graph = 0; # values of 0 won't show in the graph and won't produce errors } else{ $perc_unknown_graph = $perc_unknown; } $doc =~ s/\{\{perc_CpG_graph_splitting\}\}/$perc_CpG_graph/g; $doc =~ s/\{\{perc_CHG_graph_splitting\}\}/$perc_CHG_graph/g; $doc =~ s/\{\{perc_CHH_graph_splitting\}\}/$perc_CHH_graph/g; $doc =~ s/\{\{perc_CpG_splitting\}\}/$perc_CpG/g; $doc =~ s/\{\{perc_CHG_splitting\}\}/$perc_CHG/g; $doc =~ s/\{\{perc_CHH_splitting\}\}/$perc_CHH/g; } else{ warn "Am I missing something? Try using --verbose to get a clue...\n\n"; } warn "Complete\n\n"; return $doc; } sub read_mbias_report{ my ($mbias_report,$doc) = @_; warn "Processing M-bias report $mbias_report ...\n"; open (MBIAS,$mbias_report) or die "Couldn't read from file $mbias_report: $!\n\n"; my %mbias_1; my %mbias_2; my $context; my $read_identity; my $state = 'single'; # setting this to 'single' if there is no read 2 while (<MBIAS>){ chomp; if ($_ =~ /^(C.{2}) context/){ $context = $1; if ($_ =~ /R2/){ $read_identity = 2; $state = 'paired'; } else{ $read_identity = 1; } # warn "new context is: $context\n"; # warn "Read identity is: Read $read_identity\n"; } if ($_ =~ /^\d/){ my ($pos,$meth,$unmeth,$perc,$coverage) = (split /\t/); if ($read_identity == 1){ push @{$mbias_1{$context}->{coverage}}, "[$pos, $coverage]"; push @{$mbias_1{$context}->{perc}}, "[$pos, $perc]"; } elsif ($read_identity == 2){ push @{$mbias_2{$context}->{coverage}}, "[$pos, $coverage]"; push @{$mbias_2{$context}->{perc}}, "[$pos, $perc]"; } else{ warn "read identity was unknown : '$read_identity'\n\n"; } # print join (" ",$pos,$meth,$unmeth,$perc,$coverage)."\n"; } } # Read 1 M-bias my $r1_CpG_coverage = join (',',@{$mbias_1{'CpG'}->{coverage}}); my $r1_CpG_perc = join (',',@{$mbias_1{'CpG'}->{perc}}); my $r1_CHG_coverage = join (',',@{$mbias_1{'CHG'}->{coverage}}); my $r1_CHG_perc = join (',',@{$mbias_1{'CHG'}->{perc}}); my $r1_CHH_coverage = join (',',@{$mbias_1{'CHH'}->{coverage}}); my $r1_CHH_perc = join (',',@{$mbias_1{'CHH'}->{perc}}); $doc =~ s/\{\{CpG_total_calls_R1\}\}/$r1_CpG_coverage/g; $doc =~ s/\{\{CHG_total_calls_R1\}\}/$r1_CHG_coverage/g; $doc =~ s/\{\{CHH_total_calls_R1\}\}/$r1_CHH_coverage/g; $doc =~ s/\{\{CpG_methylation_R1\}\}/$r1_CpG_perc/g; $doc =~ s/\{\{CHG_methylation_R1\}\}/$r1_CHG_perc/g; $doc =~ s/\{\{CHH_methylation_R1\}\}/$r1_CHH_perc/g; # Read 2 M-bias if (%mbias_2){ my $r2_CpG_coverage = join (',',@{$mbias_2{'CpG'}->{coverage}}); my $r2_CpG_perc = join (',',@{$mbias_2{'CpG'}->{perc}}); my $r2_CHG_coverage = join (',',@{$mbias_2{'CHG'}->{coverage}}); my $r2_CHG_perc = join (',',@{$mbias_2{'CHG'}->{perc}}); my $r2_CHH_coverage = join (',',@{$mbias_2{'CHH'}->{coverage}}); my $r2_CHH_perc = join (',',@{$mbias_2{'CHH'}->{perc}}); $doc =~ s/\{\{CpG_total_calls_R2\}\}/$r2_CpG_coverage/g; $doc =~ s/\{\{CHG_total_calls_R2\}\}/$r2_CHG_coverage/g; $doc =~ s/\{\{CHH_total_calls_R2\}\}/$r2_CHH_coverage/g; $doc =~ s/\{\{CpG_methylation_R2\}\}/$r2_CpG_perc/g; $doc =~ s/\{\{CHG_methylation_R2\}\}/$r2_CHG_perc/g; $doc =~ s/\{\{CHH_methylation_R2\}\}/$r2_CHH_perc/g; } warn "Complete\n\n"; return ($state,$doc); } sub read_report_template{ my $doc; warn "Attempting to open file from: $Bin/bismark_sitrep.tpl\n\n" if ($verbose); open (DOC,"$Bin/bismark_sitrep.tpl") or die $!; while(<DOC>){ chomp; $_ =~ s/\r//g; $doc .= $_."\n"; } close DOC or die $!; return $doc; } sub process_commandline{ my $help; my $output_dir; my $manual_output_file; my $alignment_report; my $dedup_report; my $splitting_report; my $mbias_report; my $nucleotide_coverage_report; # stores nucleotide coverage statistics my $verbose; my $version; my $command_line = GetOptions ('help|man' => \$help, 'dir=s' => \$output_dir, 'o|output=s' => \$manual_output_file, 'alignment_report=s' => \$alignment_report, 'dedup_report=s' => \$dedup_report, 'splitting_report=s' => \$splitting_report, 'mbias_report=s' => \$mbias_report, 'nucleotide_report=s' => \$nucleotide_coverage_report, 'version' => \$version, 'verbose' => \$verbose, ); ### EXIT ON ERROR if there were errors with any of the supplied options unless ($command_line){ die "Please respecify command line options\n"; } ### HELPFILE if ($help){ print_helpfile(); exit; } if ($version){ print << "VERSION"; Bismark HTML Report Module bismark2report version: $bismark2report_version Copyright 2010-16 Felix Krueger Babraham Bioinformatics www.bioinformatics.babraham.ac.uk/projects/bismark/ VERSION exit; } ### OUTPUT DIR PATH if (defined $output_dir){ unless ($output_dir eq ''){ # if the output dir has been passed on by the methylation extractor and is an empty string we don't want to change it unless ($output_dir =~ /\/$/){ $output_dir =~ s/$/\//; } } } else{ $output_dir = ''; } ## First we are looking for alignment reports, and then look whether there are any optional plots with the same base name if ($alignment_report){ ### we only process the one alignment report (and possibly the other ones as well) that was specified push @alignment_reports, $alignment_report; } else{ ### no alignment report specified, looking in the current directory for files ending in *E_report.txt (SE or PE) ### looking in the current directory for report files. Less than 1 report file is not allowed @alignment_reports = <*E_report.txt>; if (scalar @alignment_reports == 0){ warn "Found no potential alignment reports in the current directory. Please specify a single Bismark alignment report file using the option '--alignment_report FILE'\n\n"; print_helpfile(); exit; } else{ # there are Bismark alignment report(s) in the directory warn "Found ",scalar @alignment_reports," alignment reports in current directory. Now trying to figure out whether there are corresponding optional reports\n"; } } ### Ensuring that there isn't more than 1 file in @alignment_reports if someone manually specified an output file. if (scalar @alignment_reports > 1){ if (defined $manual_output_file){ die "You cannot run bismark2report on more than 1 file while specifying a single output file. Either lose the option -o to derive the output filenames automatically, or specify a single Bismark alignment report file using the option '--alignment_report FILE'\n\n"; } } foreach my $aln (@alignment_reports){ # warn "Figuring things out for:\n$aln\n"; $aln =~ /^(.+)_(P|S)E_report.txt$/; my $basename = $1; # warn "using this basename:\n$basename\n\n"; ### DEDUPLICATION REPORT (optional) if ($dedup_report){ warn "User specifified dedup report: $dedup_report\n";sleep(3); if (lc$dedup_report eq 'none'){ push @dedup_reports, ''; # user may wish to skip this step by specifying 'none' } else{ push @dedup_reports, $dedup_report; } } else{ ### looking in the current directory for a report file with the same base name my @dedup_report_files = <$basename*deduplication_report.txt>; # warn "Number of deduplication reports found in current directory for basename $1: ", scalar @dedup_report_files , "\n"; if (scalar @dedup_report_files > 1){ die "Found ", scalar @dedup_report_files ," potential deduplication reports with the same basename ($basename) in the current directory. Please specify a single report using the option '--dedup_report FILE' or otherwise provide filenames that are easier to figure out...\n\n"; } elsif (scalar @dedup_report_files == 0){ push @dedup_reports, ''; # no corresponding deduplication report found } else{ # there is only a single deduplication report in the current directory, using this one $dedup_report = shift @dedup_report_files; push @dedup_reports, $dedup_report; # warn "Going to use this dedup report: $dedup_report\n\n"; } } ### NUCLEOTIDE COVERAGE REPORT (optional) if (defined $nucleotide_coverage_report){ # warn "User specified nucleotide coverage report: $nucleotide_coverage_report\n";sleep(1); if (lc$nucleotide_coverage_report eq 'none'){ push @nuc_reports, ''; # user may wish to skip this step by specifying 'none' } else{ push @nuc_reports, $nucleotide_coverage_report; } } else{ ### looking in the current directory for a report file with the same base name my @nucleotide_coverage_report_files = <$basename*nucleotide_stats.txt>; # warn "Number of nucleotide coverage statistic reports found in current directory for basename $1: ", scalar @nucleotide_coverage_report_files , "\n"; if (scalar @nucleotide_coverage_report_files > 1){ die "Found ", scalar @nucleotide_coverage_report_files ," potential nucleotide coverage reports with the same basename ($basename) in the current directory. Please specify a single report using the option '--nucleotide_report FILE' or otherwise provide filenames that are easier to figure out...\n\n"; } elsif (scalar @nucleotide_coverage_report_files == 0){ # warn "Found no corresponding nucleotide coverage file\n"; push @nuc_reports, ''; # no corresponding nucleotide coverge file report found } else{ # there is only a single nucleotide coverage report in the current directory, using this one $nucleotide_coverage_report = shift @nucleotide_coverage_report_files; push @nuc_reports, $nucleotide_coverage_report; # warn "Going to use this nucleotide coverage report: $nucleotide_coverage_report\n\n"; sleep(3); } } ### METHYLATION EXTRACTOR SPLITTING REPORT if ($splitting_report){ if (lc$splitting_report eq 'none'){ push @splitting_reports, ''; # user may wish to skip this step by specifying 'none' } else{ push @splitting_reports, $splitting_report; } } else{ ### looking in the current directory for a report file with the same basename my @splitting_report_files = <$basename*splitting_report.txt>; # warn "Number of splitting reports found in current directory: ", scalar @splitting_report_files , "\n"; if (scalar @splitting_report_files > 1){ die "Found ", scalar @splitting_report_files ," potential methylation extractor splitting reports with the same basename ($basename) in the current directory. Please specify a single report using the option '--splitting_report FILE' or otherwise provide filenames that are easier to figure out...\n\n"; } elsif (scalar @splitting_report_files == 0){ push @splitting_reports, ''; # no corresponding methylation extractor report found } else{ # there is only a single splitting report in the current directory, using this one $splitting_report = shift @splitting_report_files; push @splitting_reports, $splitting_report; } } ### M-BIAS REPORT if ($mbias_report){ if (lc$mbias_report eq 'none'){ $mbias_report = ''; # user may wish to skip this step by specifying 'none' push @mbias_reports, $mbias_report; } else{ push @mbias_reports, $mbias_report; } } else{ ### looking in the current directory for a single report file. More (or less) than 1 report file is not allowed my @mbias_report_files = <$basename*M-bias.txt>; # warn "Number of M-bias reports found in current directory: ", scalar @mbias_report_files , "\n"; if (scalar @mbias_report_files > 1){ die "Found ", scalar @mbias_report_files ," potential M-bias reports with the same basename ($basename) in the current directory. Please specify a single report using the option '--mbias_report FILE'or otherwise provide filenames that are easier to figure out automatically ...\n\n"; } elsif (scalar @mbias_report_files == 0){ push @mbias_reports, ''; } else{ # there is only a single M-bias report in the current directory, using this one $mbias_report = shift @mbias_report_files; push @mbias_reports, $mbias_report; } } $dedup_report = $splitting_report = $mbias_report = $nucleotide_coverage_report = undef; } return ($output_dir,$verbose,$manual_output_file); } sub print_helpfile{ print <<EOF SYNOPSIS: This script uses a Bismark alignment report to generate a graphical HTML report page. Optionally, further reports of the Bismark suite such as deduplication, methylation extractor splitting or M-bias reports can be specified as well. If several Bismark reports are found in the same folder, a separate report will be generated for each of these, whereby the output filename will be derived from the Bismark alignment report file. Bismark2report attempts to find optional reports automatically based on the file basename. USAGE: bismark2report [options] -o/--output <filename> Name of the output file (optional). If not specified explicitly, the output filename will be derived from the Bismark alignment report file. Specifying an output filename only works if the HTML report is to be generated for a single Bismark alignment report (and potentially additional reports). --dir Output directory. Output is written to the current directory if not specified explicitly. --alignment_report FILE If not specified explicitly, bismark2report attempts to find Bismark report file(s) in the current directory and produces a separate HTML report for each mapping report file. Based on the basename of the Bismark mapping report, bismark2report will also attempt to find the other Bismark reports (see below) for inclusion into the HTML report. Specifying a Bismark alignment report file is mandatory. --dedup_report FILE If not specified explicitly, bismark2report attempts to find a deduplication report file with the same basename as the Bismark mapping report (generated by deduplicate_bismark) in the current working directory. Including a deduplication report is optional, and using the FILE 'none' will skip this step entirely. --splitting_report FILE If not specified explicitly, bismark2report attempts to find a splitting report file with the same basename as the Bismark mapping report (generated by the Bismark methylation extractor) in the current working directory. Including a splitting report is optional, and using the FILE 'none' will skip this step entirely. --mbias_report FILE If not specified explicitly, bismark2report attempts to find a single M-bias report file with the same basename as the Bismark mapping report (generated by the Bismark methylation extractor) in the current working directory. Including an M-Bias report is optional, and using the FILE 'none' will skip this step entirely. --nucleotide_report FILE If not specified explicitly, bismark2report attempts to find a single nucleotide coverage report file with the same basename as the Bismark mapping report (generated by Bismark with the option '--nucleotide_coverage') in the current working directory. Including a nucleotide coverage statistics report is optional, and using the FILE 'none' will skip this report entirely. Script last modified: 13 May 2016 EOF ; exit 1; }