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maf2vcf.pl
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maf2vcf.pl
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#!/usr/bin/env perl
# maf2vcf - Reformat variants in a given MAF into generic VCFs with GT:AD:DP data if available
use strict;
use warnings;
use IO::File;
use Getopt::Long qw( GetOptions );
use Pod::Usage qw( pod2usage );
# Set any default paths and constants
my $ref_fasta = "$ENV{HOME}/.vep/homo_sapiens/102_GRCh37/Homo_sapiens.GRCh37.dna.toplevel.fa.gz";
my ( $tum_depth_col, $tum_rad_col, $tum_vad_col ) = qw( t_depth t_ref_count t_alt_count );
my ( $nrm_depth_col, $nrm_rad_col, $nrm_vad_col ) = qw( n_depth n_ref_count n_alt_count );
# Find out if samtools is properly installed, and warn the user if it's not
my ( $samtools ) = map{chomp; $_}`which samtools`;
( $samtools and -e $samtools ) or die "ERROR: Please install samtools, and make sure it's in your PATH\n";
# Check for missing or crappy arguments
unless( @ARGV and $ARGV[0]=~m/^-/ ) {
pod2usage( -verbose => 0, -message => "$0: Missing or invalid arguments!\n", -exitval => 2 );
}
# Parse options and print usage syntax on a syntax error, or if help was explicitly requested
my ( $man, $help, $per_tn_vcfs ) = ( 0, 0, 0 );
my ( $input_maf, $output_dir, $output_vcf );
GetOptions(
'help!' => \$help,
'man!' => \$man,
'input-maf=s' => \$input_maf,
'output-dir=s' => \$output_dir,
'output-vcf=s' => \$output_vcf,
'ref-fasta=s' => \$ref_fasta,
'per-tn-vcfs!' => \$per_tn_vcfs,
'tum-depth-col=s' => \$tum_depth_col,
'tum-rad-col=s' => \$tum_rad_col,
'tum-vad-col=s' => \$tum_vad_col,
'nrm-depth-col=s' => \$nrm_depth_col,
'nrm-rad-col=s' => \$nrm_rad_col,
'nrm-vad-col=s' => \$nrm_vad_col
) or pod2usage( -verbose => 1, -input => \*DATA, -exitval => 2 );
pod2usage( -verbose => 1, -input => \*DATA, -exitval => 0 ) if( $help );
pod2usage( -verbose => 2, -input => \*DATA, -exitval => 0 ) if( $man );
# Check if required arguments are missing or problematic, fix as needed
( defined $input_maf and defined $output_dir ) or die "ERROR: --input-maf and --output-dir must be defined!\n";
( -s $ref_fasta ) or die "ERROR: Provided Reference FASTA is missing or empty! Path: $ref_fasta\n";
unless( defined $output_vcf ) {
$output_vcf = "$output_dir/" . substr( $input_maf, rindex( $input_maf, '/' ) + 1 );
$output_vcf =~ s/(\.)?(maf|tsv|txt)?$/.vcf/;
}
# Before anything, let's parse the headers of this supposed "MAF-like" file and do some checks
my $maf_fh = IO::File->new( $input_maf ) or die "ERROR: Couldn't open input MAF: $input_maf!\n";
my ( %uniq_regions, %filter_tags, %flanking_bps, @tn_pair, %col_idx, $header_line );
while( my $line = $maf_fh->getline ) {
# If the file uses Mac OS 9 newlines, quit with an error
( $line !~ m/\r$/ ) or die "ERROR: Your MAF uses CR line breaks, which we can't support. Please use LF or CRLF.\n";
# Skip comment lines
next if( $line =~ m/^#/ );
# Instead of a chomp, do a thorough removal of carriage returns, line feeds, and prefixed/suffixed whitespace
my @cols = map{s/^\s+|\s+$|\r|\n//g; $_} split( /\t/, $line );
# Parse the header line to map column names to their indexes
if( $line =~ m/^(Hugo_Symbol|Chromosome|Tumor_Sample_Barcode)/i ) {
# Fetch the column names and do some sanity checks (don't be case-sensitive)
my $idx = 0;
$header_line = $line;
map{ my $c = lc; $col_idx{$c} = $idx; ++$idx; } @cols;
map{ my $c = lc; ( defined $col_idx{$c} ) or die "ERROR: $_ is a required MAF column!\n" } qw( Chromosome Start_Position Reference_Allele Tumor_Sample_Barcode );
( defined $col_idx{tumor_seq_allele1} or defined $col_idx{tumor_seq_allele2} ) or die "ERROR: At least one MAF column for Tumor_Seq_Allele must be defined!\n";
# Fetch all tumor-normal paired IDs from the MAF, doing some whitespace cleanup in the same step
my $tn_idx = $col_idx{tumor_sample_barcode} + 1;
$tn_idx .= ( "," . ( $col_idx{matched_norm_sample_barcode} + 1 )) if( defined $col_idx{matched_norm_sample_barcode} );
@tn_pair = map{s/^\s+|\s+$|\r|\n//g; s/\s*\t\s*/\t/; $_}`grep -aEiv "^#|^Hugo_Symbol|^Chromosome|^Tumor_Sample_Barcode" $input_maf | cut -f $tn_idx | sort -u`;
# Quit if one of the TN barcodes are missing, or they contain characters not allowed in Unix filenames
map{ ( !m/^\s*$|^#|\0|\// ) or die "ERROR: Invalid Tumor_Sample_Barcode in MAF: \"$_\"\n"} @tn_pair;
next; # Code below is only for lines with variants
}
# Print an error if we got to this point without parsing a header line
( %col_idx ) or die "ERROR: Couldn't find a header line (must start with Hugo_Symbol, Chromosome, or Tumor_Sample_Barcode): $input_maf\n";
# For each variant in the MAF, parse out the locus for running samtools faidx later
my ( $chr, $pos, $ref, $filter ) = map{ my $c = lc; ( defined $col_idx{$c} ? $cols[$col_idx{$c}] : "" )} qw( Chromosome Start_Position Reference_Allele FILTER );
$ref =~ s/^(\?|-|0)+$//; # Blank out the dashes (or other weird chars) used with indels
my $region = "$chr:" . ( $pos - 1 ) . "-" . ( $pos + length( $ref ));
$uniq_regions{$region} = 1;
# Also track the unique FILTER tags seen, so we can construct VCF header lines for each
map{ $filter_tags{$_} = 1 unless( $_ eq "PASS" or $_ eq "." )} split( /,|;/, $filter );
}
$maf_fh->close;
# samtools runs faster when passed many loci at a time, but limited to around 125k args at least on
# CentOS6. If there are too many loci, let's split them into smaller chunks and run separately
my ( @regions_split, $lines );
my @regions = keys %uniq_regions;
push( @regions_split, [ splice( @regions, 0, 5000 ) ] ) while @regions;
map{ my $loci = join( " ", @{$_} ); $lines .= `$samtools faidx $ref_fasta $loci` } @regions_split;
foreach my $line ( grep( length, split( ">", $lines ))) {
# Carefully split this FASTA entry, properly chomping newlines for long indels
my ( $locus, $bps ) = split( "\n", $line, 2 );
$bps =~ s/\r|\n//g;
if( $bps ){
$bps = uc( $bps );
$flanking_bps{$locus} = $bps;
}
}
# If flanking_bps is entirely empty, then it's most likely that the user chose the wrong ref-fasta
( %flanking_bps ) or die "ERROR: Make sure that ref-fasta is the same genome build as your MAF: $ref_fasta\n";
# Create VCF header lines for the reference FASTA, its contigs, and their lengths
my $ref_fai = $ref_fasta . ".fai";
`$samtools faidx $ref_fasta` unless( -s $ref_fai );
my @ref_contigs = map { chomp; my ($chr, $len)=split("\t"); "##contig=<ID=$chr,length=$len>\n" } `cut -f1,2 $ref_fai | sort -k1,1V`;
my $ref_header = "##reference=file://$ref_fasta\n" . join( "", @ref_contigs );
# Parse through each variant in the MAF, and fill up the respective per-sample VCFs
$maf_fh = IO::File->new( $input_maf ) or die "ERROR: Couldn't open file: $input_maf\n";
my %tn_vcf = (); # In-memory cache to speed up writing per-TN pair VCFs
my $skipped_fh; # If any variants have ref mismatch issues, skip and store them separately
my ( @var_key, %var_frmt, %var_fltr, %var_id, %var_qual ); # Retain variant info for printing later
my %vcf_col_idx = (); # Tracks the position of genotype columns for each sample
my $line_count = 0;
while( my $line = $maf_fh->getline ) {
# Skip comment lines
next if( $line =~ m/^#/ );
# Instead of a chomp, do a thorough removal of carriage returns, line feeds, and prefixed/suffixed whitespace
my @cols = map{s/^\s+|\s+$|\r|\n//g; $_} split( /\t/, $line );
if( $line =~ m/^(Hugo_Symbol|Chromosome|Tumor_Sample_Barcode)/i ) {
unless( -e $output_dir ) { mkdir $output_dir or die "ERROR: Couldn't create directory $output_dir! $!"; }
# Create a T-N pairing TSV file, since it's lost in translation to multi-sample VCF
my $tsv_file = "$output_dir/" . substr( $input_maf, rindex( $input_maf, '/' ) + 1 );
$tsv_file =~ s/(\.)?(maf|tsv|txt)?$/.pairs.tsv/;
my $tsv_fh = IO::File->new( $tsv_file, ">" ) or die "ERROR: Failed to create file $tsv_file\n";
$tsv_fh->print( "#Tumor_Sample_Barcode\tMatched_Norm_Sample_Barcode\n" );
# For each TN-pair in the MAF, initialize a blank VCF with proper VCF headers in output directory
my $idx = 0;
foreach my $pair ( @tn_pair ) {
my ( $t_id, $n_id ) = split( /\t/, $pair );
$n_id = "NORMAL" unless( defined $n_id ); # Use a placeholder name for normal if its undefined
if( $per_tn_vcfs ) {
my $vcf_file = "$output_dir/$t_id\_vs_$n_id.vcf";
$tn_vcf{$vcf_file} .= "##fileformat=VCFv4.2\n";
$tn_vcf{$vcf_file} .= $ref_header;
$tn_vcf{$vcf_file} .= "##FORMAT=<ID=GT,Number=1,Type=String,Description=\"Genotype\">\n";
$tn_vcf{$vcf_file} .= "##FORMAT=<ID=AD,Number=R,Type=Integer,Description=\"Allelic depths of REF and ALT(s) in the order listed\">\n";
$tn_vcf{$vcf_file} .= "##FORMAT=<ID=DP,Number=1,Type=Integer,Description=\"Total read depth across this site\">\n";
$tn_vcf{$vcf_file} .= "##FILTER=<ID=$_,Description=\"\">\n" foreach ( sort keys %filter_tags );
$tn_vcf{$vcf_file} .= "#CHROM\tPOS\tID\tREF\tALT\tQUAL\tFILTER\tINFO\tFORMAT\t$t_id\t$n_id\n";
}
# Set genotype column indexes for the multi-sample VCF, and keep the pairing info
$vcf_col_idx{ $t_id } = $idx++ if ( !exists $vcf_col_idx{ $t_id } );
$vcf_col_idx{ $n_id } = $idx++ if ( !exists $vcf_col_idx{ $n_id } );
$tsv_fh->print( "$t_id\t$n_id\n" );
}
$tsv_fh->close;
next;
}
# For each variant in the MAF, parse out data that can go into the output VCF
my ( $chr, $pos, $ref, $al1, $al2, $t_id, $n_id, $n_al1, $n_al2, $id, $qual, $filter ) = map{ my $c = lc; ( defined $col_idx{$c} ? $cols[$col_idx{$c}] : "" )} qw( Chromosome Start_Position Reference_Allele Tumor_Seq_Allele1 Tumor_Seq_Allele2 Tumor_Sample_Barcode Matched_Norm_Sample_Barcode Match_Norm_Seq_Allele1 Match_Norm_Seq_Allele2 variant_id variant_qual FILTER );
++$line_count;
# Handle a situation in Oncotator MAFs where alleles of DNPs are pipe "|" delimited:
( $ref, $al1, $al2, $n_al1, $n_al2 ) = map{s/\|//g; $_} ( $ref, $al1, $al2, $n_al1, $n_al2 );
# Make sure that our minimum required columns contain proper data
map{( !m/^\s*$/ ) or die "ERROR: $_ is empty in MAF line $line_count!\n" } qw( Chromosome Start_Position Reference_Allele Tumor_Sample_Barcode );
(( $col_idx{tumor_seq_allele1} and $col_idx{tumor_seq_allele1} !~ m/^\s*$/ ) or ( $col_idx{tumor_seq_allele2} and $col_idx{tumor_seq_allele2} !~ m/^\s*$/ )) or die "ERROR: At least one of the Tumor_Seq_Allele columns must be non-empty in MAF line $line_count!\n";
# Parse out read counts for ref/var alleles, if available
my ( $t_dp, $t_rad, $t_vad, $n_dp, $n_rad, $n_vad ) = map{ my $c = lc; (( defined $col_idx{$c} and defined $cols[$col_idx{$c}] and $cols[$col_idx{$c}] =~ m/^\d+/ ) ? sprintf( "%.0f", $cols[$col_idx{$c}] ) : '.' )} ( $tum_depth_col, $tum_rad_col, $tum_vad_col, $nrm_depth_col, $nrm_rad_col, $nrm_vad_col );
# Normal sample ID could be undefined for legit reasons, but we need a placeholder name
$n_id = "NORMAL" if( !defined $n_id or $n_id eq "" );
# If VCF ID, QUAL, or FILTER are undefined or empty, set them to "." per proper VCF specs
$id = "." if( !defined $id or $id eq "" );
$qual = "." if( !defined $qual or $qual eq "" );
$filter = "." if( !defined $filter or $filter eq "" );
# Make sure we have at least one variant allele. If not, die with an error
if( $al1 eq "" and $al2 eq "" ) {
die "ERROR: MAF line $line_count has no variant allele specified at $chr:$pos!\n";
}
# If one of the variant alleles is unset, assume that it's the same as the reference allele
$al1 = $ref if( $al1 eq "" );
$al2 = $ref if( $al2 eq "" );
# When variant alleles are a SNP and a "-", warn user of misusing "-" to denote REF
if( $al1 ne $ref and $al2 ne $ref and $al1 ne $al2 and ( $al1 eq "-" or $al2 eq "-" ) and
length( $al1 ) == 1 and length( $al2 ) == 1 and length( $ref ) == 1 ) {
$al1 = $ref if( $al1 eq "-" );
$al2 = $ref if( $al2 eq "-" );
warn "WARNING: Replacing '-' with reference allele in: $line";
}
# Blank out the dashes (or other weird chars) used with indels
( $ref, $al1, $al2, $n_al1, $n_al2 ) = map{s/^(\?|-|0)+$//; $_} ( $ref, $al1, $al2, $n_al1, $n_al2 );
# If normal alleles are unset in the MAF (quite common), assume homozygous reference
$n_al1 = $ref if( $n_al1 eq "" );
$n_al2 = $ref if( $n_al2 eq "" );
# Do a sanity check on all the alleles
unless( $al1=~m/^[ACGT-]*$/ and $al2=~m/^[ACGT-]*$/ and $n_al1=~m/^[ACGT-]*$/ and $n_al2=~m/^[ACGT-]*$/ ) {
die "ERROR: MAF line $line_count (at $chr:$pos) contains invalid alleles in Tumor_Seq_Allele or Match_Norm_Seq_Allele columns!\n";
}
# To simplify code coming up below, ensure that $al2 is always non-REF
( $al1, $al2 ) = ( $al2, $al1 ) if( $al2 eq $ref );
# Do the same for the normal alleles, though it makes no difference if both are REF
( $n_al1, $n_al2 ) = ( $n_al2, $n_al1 ) if( $n_al2 eq $ref );
# Except for MAF-format simple insertions, check ref alleles, and skip lines that mismatch
my $locus = "$chr:" . ( $pos - 1 ) . "-" . ( $pos + length( $ref ));
if( $ref ne "" or !defined $flanking_bps{$locus} ) {
my $ref_from_fasta = ( defined $flanking_bps{$locus} ? substr( $flanking_bps{$locus}, 1, -1 ) : "" );
if( $ref ne $ref_from_fasta or !defined $flanking_bps{$locus} ) {
# Create the file for skipped variants, if it wasn't already
unless( $skipped_fh ) {
my $skip_file = "$output_dir/" . substr( $input_maf, rindex( $input_maf, '/' ) + 1 );
$skip_file =~ s/(\.)?(maf|tsv|txt)?$/.skipped.tsv/;
$skipped_fh = IO::File->new( $skip_file, ">" ) or die "ERROR: Failed to create file $skip_file\n";
warn "WARNING: Reference allele mismatches found. Storing them here for debugging: $skip_file\n";
$skipped_fh->print( $header_line );
}
$skipped_fh->print( $line );
next;
}
}
# To represent indels in VCF format, we need the preceding bp in the reference FASTA
my ( $ref_len, $al1_len, $al2_len ) = map{ length( $_ ) } ( $ref, $al1, $al2 );
if( $ref_len == 0 or $al1_len == 0 or $al2_len == 0 or ( $ref_len ne $al2_len and substr( $ref, 0, 1 ) ne substr( $al2, 0, 1 ))) {
my $prefix_bp = substr( $flanking_bps{$locus}, 0, 1 );
# For MAF-format simple insertions, $pos is already the locus of the preceding bp
$prefix_bp = substr( $flanking_bps{$locus}, 1, 1 ) if( $ref eq "" );
# If this is not a MAF-format simple insertion, decrement $pos
--$pos unless( $ref eq "" );
# Prefix the fetched reference bp to all the alleles
( $ref, $al1, $al2, $n_al1, $n_al2 ) = map{$prefix_bp.$_} ( $ref, $al1, $al2, $n_al1, $n_al2 );
}
# Fill an array with all unique REF/ALT alleles, and set their 0-based indexes like in a VCF
# Notice how we ensure that $alleles[0] is REF and $alleles[1] is the major ALT allele in tumor
my ( @alleles, %al_idx );
my $idx = 0;
foreach my $al ( $ref, $al2, $al1, $n_al2, $n_al1 ) {
unless( defined $al_idx{$al} ) {
push( @alleles, $al );
$al_idx{$al} = $idx++;
}
}
# Set tumor and normal genotypes (FORMAT tag GT in VCF)
my ( $t_gt, $n_gt ) = ( "0/1", "0/0" ); # Set defaults
$t_gt = join( "/", $al_idx{$al2}, $al_idx{$al1} ) if( $al_idx{$al1} ne "0" );
$n_gt = join( "/", $al_idx{$n_al2}, $al_idx{$n_al1} ) if( $al_idx{$n_al1} ne "0" );
$n_gt = join( "/", $al_idx{$n_al1}, $al_idx{$n_al2} ) if( $al_idx{$n_al2} ne "0" );
# Create the VCF's comma-delimited ALT field that must list all non-REF (variant) alleles
my $alt = join( ",", @alleles[1..$#alleles] );
# If there are >1 variant alleles, assume that depths in $t_vad and $n_vad are for $al2
if( scalar( @alleles ) > 2 ) {
$t_vad = join( ",", $t_vad, map{"."}@alleles[2..$#alleles] );
$n_vad = join( ",", $n_vad, map{"."}@alleles[2..$#alleles] );
}
# Construct genotype fields for FORMAT tags GT:AD:DP
my $t_fmt = "$t_gt:$t_rad,$t_vad:$t_dp";
my $n_fmt = "$n_gt:$n_rad,$n_vad:$n_dp";
# Contruct a VCF formatted line and append it to the respective VCF
if( $per_tn_vcfs ) {
my $vcf_file = "$output_dir/$t_id\_vs_$n_id.vcf";
my $vcf_line = join( "\t", $chr, $pos, $id, $ref, $alt, $qual, $filter, ".", "GT:AD:DP", $t_fmt, $n_fmt );
$tn_vcf{$vcf_file} .= "$vcf_line\n";
}
# Store VCF formatted data for the multi-sample VCF
my $key = join( "\t", $chr, $pos, $ref, $alt );
push( @var_key, $key ) unless( exists $var_frmt{ $key } );
$var_frmt{ $key }{ $vcf_col_idx{ $t_id }} = $t_fmt;
$var_frmt{ $key }{ $vcf_col_idx{ $n_id }} = $n_fmt;
# ::NOTE:: Samples shouldn't have different ID, QUAL, or FILTERs for the same loci+alleles
$var_fltr{ $key } = $filter;
$var_id{ $key } = $id;
$var_qual{ $key } = $qual;
}
$maf_fh->close;
$skipped_fh->close if( $skipped_fh );
# Write the cached contents of per-TN VCFs into files
if( $per_tn_vcfs ) {
foreach my $vcf_file ( keys %tn_vcf ) {
my $tn_vcf_fh = IO::File->new( $vcf_file, ">" ) or die "ERROR: Failed to create file $vcf_file\n";
$tn_vcf_fh->print( $tn_vcf{$vcf_file} );
$tn_vcf_fh->close;
}
}
# Initialize header lines for the multi-sample VCF
my @vcf_cols = sort { $vcf_col_idx{$a} <=> $vcf_col_idx{$b} } keys %vcf_col_idx;
my $vcf_fh = IO::File->new( $output_vcf, ">" ) or die "ERROR: Fail to create file $output_vcf\n";
$vcf_fh->print( "##fileformat=VCFv4.2\n" );
$vcf_fh->print( $ref_header );
$vcf_fh->print( "##FORMAT=<ID=GT,Number=1,Type=String,Description=\"Genotype\">\n" );
$vcf_fh->print( "##FORMAT=<ID=AD,Number=R,Type=Integer,Description=\"Allelic Depths of REF and ALT(s) in the order listed\">\n" );
$vcf_fh->print( "##FORMAT=<ID=DP,Number=1,Type=Integer,Description=\"Read Depth\">\n" );
$vcf_fh->print( "##FILTER=<ID=$_,Description=\"\">\n" ) foreach ( sort keys %filter_tags );
$vcf_fh->print( "#CHROM\tPOS\tID\tREF\tALT\tQUAL\tFILTER\tINFO\tFORMAT\t" . join("\t", @vcf_cols) . "\n" );
# Write each variant into the multi-sample VCF
foreach my $key ( @var_key ) {
my ( $chr, $pos, $ref, $alt ) = split( "\t", $key );
$vcf_fh->print( join( "\t", $chr, $pos, $var_id{ $key }, $ref, $alt, $var_qual{ $key }, $var_fltr{ $key }, ".", "GT:AD:DP" ));
map{ $vcf_fh->print( "\t" . (( exists $var_frmt{$key}{$_} ) ? $var_frmt{$key}{$_} : './.:.:.' ))}( 0..$#vcf_cols );
$vcf_fh->print( "\n" );
}
$vcf_fh->close;
# Make sure that we handled a positive non-zero number of lines in the MAF
( $line_count > 0 ) or die "ERROR: No variant lines in the input MAF!\n";
__DATA__
=head1 NAME
maf2vcf.pl - Reformat variants in a MAF into a multisample VCF with GT:AD:DP data if available
=head1 SYNOPSIS
perl maf2vcf.pl --help
perl maf2vcf.pl --input-maf test.maf --output-dir vcfs
=head1 OPTIONS
--input-maf Path to input file in MAF format
--output-dir Path to output directory where VCFs will be stored, one per TN-pair
--output-vcf Path to output multi-sample VCF containing all TN-pairs [<output-dir>/<input-maf-name>.vcf]
--ref-fasta Path to reference Fasta file [~/.vep/homo_sapiens/102_GRCh37/Homo_sapiens.GRCh37.dna.toplevel.fa.gz]
--per-tn-vcfs Specify this to generate VCFs per-TN pair, in addition to the multi-sample VCF
--tum-depth-col Name of MAF column for read depth in tumor BAM [t_depth]
--tum-rad-col Name of MAF column for reference allele depth in tumor BAM [t_ref_count]
--tum-vad-col Name of MAF column for variant allele depth in tumor BAM [t_alt_count]
--nrm-depth-col Name of MAF column for read depth in normal BAM [n_depth]
--nrm-rad-col Name of MAF column for reference allele depth in normal BAM [n_ref_count]
--nrm-vad-col Name of MAF column for variant allele depth in normal BAM [n_alt_count]
--help Print a brief help message and quit
--man Print the detailed manual
=head1 DESCRIPTION
This script breaks down variants in a MAF into a multi-sample VCF, in preparation for annotation with VEP. Can also create VCFs per-TN pair.
=head2 Relevant links:
Homepage: https://github.com/ckandoth/vcf2maf
VCF format: http://samtools.github.io/hts-specs/
MAF format: https://wiki.nci.nih.gov/x/eJaPAQ
=head1 AUTHORS
Cyriac Kandoth (ckandoth@gmail.com)
Qingguo Wang (josephw10000@gmail.com)
=head1 LICENSE
Apache-2.0 | Apache License, Version 2.0 | https://www.apache.org/licenses/LICENSE-2.0
=cut