# # BioPerl module for Bio::Tools::Run::Phylo::Raxml # # Please direct questions and support issues to # # Copyright Brian Osborne # # You may distribute this module under the same terms as perl itself # # POD documentation - main docs before the code =head1 NAME Bio::Tools::Run::Phylo::Raxml =head1 SYNOPSIS # Build a Raxml factory $factory = Bio::Tools::Run::Phylo::Raxml->new(-p => 100); # Get an alignment my $alignio = Bio::AlignIO->new( -format => 'fasta', -file => '219877.cdna.fasta'); my $alnobj = $alignio->next_aln; # Analyze the aligment and get a Tree my $tree = $factory->run($alnobj); =head1 DESCRIPTION Get a Bio::Tree object using raxml given a protein or DNA alignment. =head1 FEEDBACK =head2 Mailing Lists User feedback is an integral part of the evolution of this and other Bioperl modules. Send your comments and suggestions preferably to one of the Bioperl mailing lists. Your participation is much appreciated. bioperl-l@bioperl.org - General discussion http://bioperl.org/wiki/Mailing_lists - About the mailing lists =head2 Support Please direct usage questions or support issues to the mailing list: I Do not contact the module maintainer directly. Many experienced experts at bioperl-l will be able look at the problem and quickly address it. Please include a thorough description of the problem with code and data examples if at all possible. =head2 Reporting Bugs Report bugs to the Bioperl bug tracking system to help us keep track the bugs and their resolution. Bug reports can be submitted via the web: http://redmine.open-bio.org/projects/bioperl/ =head1 AUTHOR - Brian Osborne Email briano@bioteam.net =head1 APPENDIX The rest of the documentation details each of the object methods. Internal methods are usually preceded with a _ =cut package Bio::Tools::Run::Phylo::Raxml; use strict; use File::Basename; use File::Spec; use Bio::Seq; use Bio::SeqIO; use Bio::TreeIO; use Bio::AlignIO; use Bio::Root::IO; use Cwd; use base qw(Bio::Root::Root Bio::Tools::Run::WrapperBase); our @Raxml_PARAMS = qw(s n m a A b B c e E f g G i I J o p P q r R S t T w W x z N); our @Raxml_SWITCHES = qw(SSE3 PTHREADS PTHREADS-SSE3 HYBRID HYBRID-SSE3 F h k K M j U v X y C d D); our $PROGRAM_NAME = 'raxml'; # Specify some model if none is specified my $DEFAULTAAMODEL = 'PROTCATDAYHOFF'; my $DEFAULTNTMODEL = 'GTRCAT'; =head2 new Title : new Usage : my $treebuilder = Bio::Tools::Run::Phylo::Raxml->new(); Function: Constructor Returns : Bio::Tools::Run::Phylo::Raxml Args : Same as those used to run raxml. For example: $factory = Bio::Tools::Run::Phylo::Raxml->new(-p => 100, -SSE3 => 1) =cut sub new { my ( $class, @args ) = @_; my $self = $class->SUPER::new(@args); $self->_set_from_args( \@args, -case_sensitive => 1, -methods => [ @Raxml_PARAMS, @Raxml_SWITCHES ], -create => 1 ); my ($out,$quiet) = $self->SUPER::_rearrange( [qw(OUTFILE_NAME QUIET)], @args ); $self->outfile_name( $out || '' ); $self->quiet( $quiet ) if $quiet; $self; } =head2 program_name Title : program_name Usage : $factory->program_name() Function: holds the program name Returns: string Args : None =cut sub program_name { $PROGRAM_NAME; } =head2 program_dir Title : program_dir Usage : $factory->program_dir(@params) Function: returns the program directory Returns: string Args : =cut sub program_dir { undef; } =head2 error_string Title : error_string Usage : $obj->error_string($newval) Function: Where the output from the last analysus run is stored. Returns : value of error_string Args : newvalue (optional) =cut sub error_string { my ( $self, $value ) = @_; $self->{'error_string'} = $value if ( defined $value ); $self->{'error_string'}; } =head2 version Title : version Usage : exit if $prog->version() < 1.8 Function: Determine the version number of the program Example : Returns : float or undef Args : none =cut sub version { my ($self) = @_; my $exe; return undef unless $exe = $self->executable; my $string = `$exe -v 2>&1`; $string =~ /raxml\s+version\s+([\d\.]+)/i; return $1 || undef; } =head2 quiet Title : quiet Usage : Function: get or set value for 'quiet' Example : Returns : Args : the value =cut sub quiet { my ( $self, $value ) = @_; $self->{'_quiet'} = $value if ( defined $value ); $self->{'_quiet'}; } =head2 run Title : run Usage : $factory->run($stockholm_file) OR $factory->run($align_object) Function: Runs Raxml to generate a tree Returns : Bio::Tree::Tree object Args : File name for your input alignment in stockholm format, OR Bio::Align::AlignI compliant object (eg. Bio::SimpleAlign). =cut sub run { my ($self, $in) = @_; if (ref $in && $in->isa("Bio::Align::AlignI")) { $in = $self->_write_alignfile($in); } elsif (! -e $in) { $self->throw("When not supplying a Bio::Align::AlignI object, you must supply a readable filename"); } $self->_run($in); } =head2 _run Title : _run Usage : Internal function, not to be called directly Function: Runs the application Returns : Tree object Args : Alignment file name =cut sub _run { my ( $self, $file ) = @_; my $exe = $self->executable || return; my $param_str = $self->arguments . " " . $self->_setparams($file); my $command = "$exe $param_str"; $self->debug("Raxml command = $command"); my $status = system($command); # raxml creates tree files with names like "RAxML_bestTree.ABDBxjjdfg3" # if rapid bootstrapping was enabled, also a tree with RAxML_bipartitions.ABDBxjjdfg3 # with support values is created, which then should be returned my $outfile = $self->f() eq 'a' ? 'RAxML_bipartitions.' : 'RAxML_bestTree.'; $outfile .= $self->outfile_name; $outfile = File::Spec->catfile( ($self->w), $outfile ) if $self->w; if ( !-e $outfile || -z $outfile ) { $self->warn("Raxml call had status of $status: $? [command $command] \n"); return undef; } my $treeio = Bio::TreeIO->new( -file => $outfile ); my $tree = $treeio->next_tree; # if bootstraps were enabled, the bootstraps are the ids; convert to # bootstrap and no id # if ($self->boot) { # my @nodes = $tree->get_nodes; # my %non_internal = map { $_ => 1 } ($tree->get_leaf_nodes, $tree->get_root_node); # foreach my $node (@nodes) { # next if exists $non_internal{$node}; # $node->bootstrap && next; # protect ourselves incase the parser improves # $node->bootstrap($node->id); # $node->id(''); # } # } $tree; } =head2 _write_alignfile Title : _write_alignfile Usage : Internal function, not to be called directly Function: Create an alignment file Returns : filename Args : Bio::Align::AlignI =cut sub _write_alignfile { my ( $self, $align ) = @_; my ( $tfh, $tempfile ) = $self->io->tempfile( -dir => '.' ); my $out = Bio::AlignIO->new( -file => ">$tempfile", -format => 'phylip' ); $out->write_aln($align); $out->close(); undef($out); close($tfh); undef($tfh); die "Alignment file $tempfile was not created" if ( ! -e $tempfile ); $tempfile; } =head2 _alphabet Title : _alphabet Usage : my $alphabet = $self->_alphabet; Function: Get the alphabet of the input alignment, defaults to 'dna' Returns : 'dna' or 'protein' Args : Alignment file =cut sub _alphabet { my ( $self, $file ) = @_; if ($file) { if ( -e $file ) { my $in = Bio::AlignIO->new( -file => $file ); my $aln = $in->next_aln; # arbitrary, the first one my $seq = $aln->get_seq_by_pos(1); my $alphabet = $seq->alphabet; $self->{_alphabet} = $alphabet; } else { die "File $file can not be found"; } } # default is 'dna' return $self->{'_alphabet'} || 'dna'; } =head2 _setparams Title : _setparams Usage : Internal function, not to be called directly Function: Create parameter inputs for Raxml program Example : Returns : parameter string to be passed to Raxml Args : name of calling object =cut sub _setparams { my ( $self, $infile ) = @_; my $param_string = ''; # If 'model' is not set with '-m' check the alphabet of the input, # then specify the default model if ( !$self->m ) { my $model = ( $self->_alphabet($infile) eq 'dna' ) ? $DEFAULTNTMODEL : $DEFAULTAAMODEL; $self->m($model); } # Set default output file if no explicit output file has been given. # Raxml insists that the output file name not contain '/' and its # output directory is set using the '-w' argument. if ( !$self->outfile_name ) { my $dir = getcwd(); $self->w($dir); my ( $tfh, $outfile ) = $self->io->tempfile( -dir => $dir ); close($tfh); undef $tfh; $outfile = basename($outfile); $self->outfile_name($outfile); } for my $attr (@Raxml_PARAMS) { my $value = $self->$attr(); next unless ( defined $value ); $param_string .= ' -' . $attr . ' ' . $value . ' '; } for my $attr (@Raxml_SWITCHES) { my $value = $self->$attr(); next unless ($value); $param_string .= ' -' . $attr . ' '; } $param_string .= "-s $infile -n " . $self->outfile_name; my $null = File::Spec->devnull(); $param_string .= " > $null 2> $null" if ( $self->quiet() || $self->verbose < 0 ); $param_string; } =head1 Bio::Tools::Run::BaseWrapper methods =cut =head2 no_param_checks Title : no_param_checks Usage : $obj->no_param_checks($newval) Function: Boolean flag as to whether or not we should trust the sanity checks for parameter values Returns : value of no_param_checks Args : newvalue (optional) =cut =head2 save_tempfiles Title : save_tempfiles Usage : $obj->save_tempfiles($newval) Function: Returns : value of save_tempfiles Args : newvalue (optional) =cut =head2 outfile_name Title : outfile_name Usage : my $outfile = $Raxml->outfile_name(); Function: Get/Set the name of the output file for this run (if you wanted to do something special) Returns : string Args : [optional] string to set value to =cut =head2 tempdir Title : tempdir Usage : my $tmpdir = $self->tempdir(); Function: Retrieve a temporary directory name (which is created) Returns : string which is the name of the temporary directory Args : none =cut =head2 cleanup Title : cleanup Usage : $Raxml->cleanup(); Function: Will cleanup the tempdir directory Returns : none Args : none =cut =head2 io Title : io Usage : $obj->io($newval) Function: Gets a L object Returns : L Args : none =cut 1; # Needed to keep compiler happy __END__