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# BioPerl module for Bio::Tools::dpAlign
#
# Please direct questions and support issues to <bioperl-l@bioperl.org> 
#
# Cared for by Yee Man Chan <ymc@yahoo.com>
#
# Copyright Yee Man Chan
#
# You may distribute this module under the same terms as perl itself

# POD documentation - main docs before the code

=head1 NAME

Bio::Tools::dpAlign - Perl extension to do pairwise dynamic programming sequence alignment

=head1 SYNOPSIS

  use Bio::Tools::dpAlign;
  use Bio::SeqIO;
  use Bio::SimpleAlign;
  use Bio::AlignIO;
  use Bio::Matrix::IO;

  $seq1 = Bio::SeqIO->new(-file => $ARGV[0], -format => 'fasta');
  $seq2 = Bio::SeqIO->new(-file => $ARGV[1], -format => 'fasta');

  # create a dpAlign object
  # to do global alignment, specify DPALIGN_GLOBAL_MILLER_MYERS
  # to do ends-free alignment, specify DPALIGN_ENDSFREE_MILLER_MYERS
  $factory = new dpAlign(-match => 3,
                     -mismatch => -1,
                     -gap => 3,
                     -ext => 1,
                     -alg => Bio::Tools::dpAlign::DPALIGN_LOCAL_MILLER_MYERS);

  # actually do the alignment
  $out = $factory->pairwise_alignment($seq1->next_seq, $seq2->next_seq);
  $alnout = Bio::AlignIO->new(-format => 'pfam', -fh => \*STDOUT);
  $alnout->write_aln($out);

  # To do protein alignment, set the sequence type to protein
  # By default all protein alignments are using BLOSUM62 matrix
  # the gap opening cost is 7 and gap extension is 1. These
  # values are from ssearch. To use your own custom substitution 
  # matrix, you can create a Bio::Matrix::MatrixI object.

  $parser = Bio::Matrix::IO->new(-format => 'scoring', -file => 'blosum50.mat');
  $matrix = $parser->next_matrix;
  $factory = Bio::Tools::dpAlign->new(-matrix => $matrix, -alg => Bio::Tools::dpAlign::DPALIGN_LOCAL_MILLERMYERS);
  $seq1->alphabet('protein');
  $seq2->alphabet('protein');
  $out = $factory->pairwise_alignment($seq1->next_seq, $seq2->next_seq);
  $alnout->write_aln($out);

  # use the factory to make some output

  $factory->align_and_show($seq1, $seq2, STDOUT);

  # use Phil Green's algorithm to calculate the optimal local
  # alignment score between two sequences quickly. It is very
  # useful when you are searching a query sequence in a database
  # of sequences. Since finding a alignment is more costly 
  # than just calculating scores, you can save time if you only 
  # align sequences that have a high alignment score.

  # To use this feature, first you call the sequence_profile function
  # to obtain the profile of the query sequence.
  $profile = $factory->sequence_profile($query);

  %scores = ();
  # Then use a loop to run a database of sequences against the
  # profile to obtain a table of alignment scores
  $dbseq = Bio::SeqIO(-file => 'dbseq.fa', -format => 'fasta');
  while (defined($seq = $dbseq->next_seq)) {
      $scores{$seq->id} = $factory->pairwise_alignment_score($profile, $seq);
  }

=head1 DESCRIPTION

Dynamic Programming approach is considered to be the most sensitive
way to align two biological sequences. There are currently three major
types of dynamic programming algorithms: Global Alignment, Local
Alignment and Ends-free Alignment.

Global Alignment compares two sequences in their entirety.  By
inserting gaps in the two sequences, it aligns two sequences to
minimize the edit distance as defined by the gap cost function and the
substitution matrix. Global Alignment is generally applied to two
sequences that are very similar in length and content.

Local Alignment instead attempts to find out the subsequences that has
the minimal edit distance among all possible subsequences.  It is good
for sequences that has a stretch of subsequences that are similar to
each other.

Ends-free Alignment is a special case of Global Alignment. There are
no gap penalty imposed for the gaps that extended from the end points
of two sequences. Therefore it will be a good application when you
think one sequence is contained by the other or when you think two
sequences overlap each other.

Dynamic Programming was first introduced by Needleman-Wunsch (1970) to
globally align two sequences. The idea of local alignment was later
introduced by Smith-Waterman (1981). Gotoh (1982) improved both
algorithms by introducing auxillary arrays that reduced the time
complexity of the algorithms to O(m*n).  Miller-Myers (1988) exploits
the divide-and-conquer idea introduced by Hirschberg (1975) to solve
the affine gap cost dynamic programming using only linear space. At
the time of this writing, it is accepted that Miller-Myers is the
fastest single CPU implementation and using the least memory that is
truly equivalent to original algorithm introduced by
Needleman-Wunsch. According to Aaron Mackey, Phil Green's SWAT
implementation introduced a heuristic that does not consider paths
through the matrix where the score would be less than the gap opening
penalty, yielding a 1.5-2X speedup on most comparisons. to skip the
calculation of some cells. However, his approach is only good for
calculating the minimum edit distance and find out the corresponding
subsequences (aka search phase). Bill Pearson's popular dynamic
programming alignment program SSEARCH uses Phil Green's algorithm to
find the subsequences and then Miller-Myers's algorithm to find the
actual alignment. (aka alignment phase)

The current implementation supports local alignment of either DNA
sequences or protein sequences. It allows you to specify either the
Miller-Myers Global Alignment (DPALIGN_GLOBAL_MILLER_MYERS) or
Miller-Myers Local Alignment (DPALIGN_LOCAL_MILLER_MYERS). For DNA
alignment, you can specify the scores for match, mismatch, gap opening
cost and gap extension cost. For protein alignment, it is using
BLOSUM62 by default. Currently the substitution matrix is not
configurable.

Note: If you supply LocatableSeq objects to pairwise_alignment,
pairwise_alignment_score, align_and_show or sequence_profile and
the sequence supplied contains gaps, these functions will treat 
these sequences as if they are without gaps.

=head1 DEPENDENCIES

This package comes with the main bioperl distribution. You also need
to install the lastest bioperl-ext package which contains the XS code
that implements the algorithms. This package won't work if you haven't
compiled the bioperl-ext package.

=head1 TO-DO


=over 3

=item 1.

Basic support for IUPAC code for DNA sequence is now implemented. 
X will mismatch any character. T will match U. For others, whenever
there is a possibility for match, it is considered a full match, for
example, W will match B.

=item 2.

Allow custom substitution matrix for DNA. Note that for proteins, you
can now use your own subsitution matirx.

=back

=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<bioperl-l@bioperl.org>

rather than to the module maintainer directly. Many experienced and 
reponsive experts 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:

  https://github.com/bioperl/bioperl-live/issues

=head1 AUTHOR

        This implementation was written by Yee Man Chan (ymc@yahoo.com).
        Copyright (c) 2003 Yee Man Chan. All rights reserved. This program
        is free software; you can redistribute it and/or modify it under
        the same terms as Perl itself. Special thanks to Aaron Mackey
        and WIlliam Pearson for the helpful discussions. [The portion
        of code inside pgreen subdirectory was borrowed from ssearch. It
        should be distributed in the same terms as ssearch.]

=cut

package Bio::Tools::dpAlign;

use Bio::SimpleAlign;

use base qw(Bio::Tools::AlignFactory);

# Gotoh algorithm as defined in J. Mol. Biol. (1982) 162, 705-708
# use constant DSW_GOTOH => 1;
# Hirschberg's algorithm as defined in Myers & Miller in 
# CABIOS, Vol 4, No. 1, 1988, p 11-17
# This algorithm is used in both the search phase and the
# alignment phase.
use constant DPALIGN_LOCAL_MILLER_MYERS => 1;
use constant DPALIGN_GLOBAL_MILLER_MYERS => 2;
use constant DPALIGN_ENDSFREE_MILLER_MYERS => 3;
# my toy algorithm that tries to do SW as fast as possible
# use constant DSW_FSW => 3; 
# Phil Green's approximation to Smith-Waterman. It avoid calculations
# that might result in a score less than the opening gap penalty.
# This is the algorithm used by ssearch. Phil Green's algorithm is
# used in the search phase while Miller-Myers algorithm is used in
# the alignment phase
#use constant DPALIGN_LOCAL_GREEN => 2; 

BEGIN {
    eval {
        require Bio::Ext::Align;
    };
    if ( $@ ) {
        die("\nThe C-compiled engine for Smith Waterman alignments (Align) has not been installed.\n Please read the install the bioperl-ext package\n\n");
        exit(1);
    }
}

sub new {
   my ($class, @args) = @_;

   my $self = $class->SUPER::new(@args);

   my ($match, $mismatch, $gap, $ext, $alg, $matrix) = $self->_rearrange([qw(MATCH
								MISMATCH
								GAP
								EXT
								ALG
								MATRIX	
							)], @args);

   $self->match(3) unless defined $match;
   $self->mismatch(-1) unless defined $mismatch;
   $self->gap(3) unless defined $gap;
   $self->ext(1) unless defined $ext;
   $self->alg(DPALIGN_LOCAL_MILLER_MYERS) unless defined $alg;

   if (defined $match) {
	if ($match =~ /^\d+$/) {
	    $self->match($match);
	}
	else {
	    $self->throw("Match score must be a number, not [$match]");
	}
    }

    if (defined $mismatch) {
	if ($match =~ /^\d+$/) {
	    $self->mismatch($mismatch);
	}
	else {
	    $self->throw("Mismatch penalty must be a number, not [$mismatch]");
	}
    }

    if (defined $gap) {
	if ($gap =~ /^\d+$/) {
	    $self->gap($gap);
	}
	else {
	    $self->throw("Gap penalty must be a number, not [$gap]");
	}
    }

    if (defined $ext) {
	if ($ext =~ /^\d+$/) {
	    $self->ext($ext);
	}
	else {
	    $self->throw("Extension penalty must be a number, not [$ext]");
	}
    }

    if (defined $alg) {
	if ($alg == DPALIGN_LOCAL_MILLER_MYERS or $alg == DPALIGN_GLOBAL_MILLER_MYERS or $alg == DPALIGN_ENDSFREE_MILLER_MYERS) {
	    $self->alg($alg);
	}
	else {
	    $self->throw("Algorithm must be either 1, 2 or 3");
	}
    }

    if (defined $matrix and $matrix->isa('Bio::Matrix::MatrixI')) {
        $self->{'matrix'} = Bio::Ext::Align::ScoringMatrix->new(join("", $matrix->row_names), $self->gap, $self->ext);
        foreach $rowname ($matrix->row_names) {
            foreach $colname ($matrix->column_names) {
                Bio::Ext::Align::ScoringMatrix->set_entry($self->{'matrix'}, $rowname, $colname, $matrix->entry($rowname, $colname));
            }
        }
    }
    else {
        $self->{'matrix'} = 0;
    }

    return $self;
}

=head2 sequence_profile

 Title   : sequence_profile
 Usage   : $prof = $factory->sequence_profile($seq1)
 Function: Makes a dpAlign_SequenceProfile object from one sequence
 Returns : A dpAlign_SequenceProfile object
 Args    : The lone argument is a Bio::PrimarySeqI that we want to 
	   build a profile for. Usually, this would be the Query sequence

=cut

sub sequence_profile {
    my ($self, $seq1) = @_;

    if( ! defined $seq1 || ! $seq1->isa('Bio::PrimarySeqI')) {
        $self->warn("Cannot call sequence_profilewithout specifing one sequence (Bio::PrimarySeqI object)");
        return;
    }

    # fix Jitterbug #1044
    if( $seq1->length() < 2) {
        $self->warn("cannot create sequence profile with length less than 2");
        return;
    }
    if ($seq1->isa('Bio::LocatableSeq')) {
       my $seqstr = $seq1->seq;
       $seqstr =~ s/\-//g;
       $seq1 = Bio::Seq->new(-id => $seq1->id, -seq => $seqstr, -alphabet => $seq1->alphabet);
    }
    # create engine objects
    $seq1->display_id('seq1') unless ( defined $seq1->id() );

    if ($seq1->alphabet eq 'dna') {
	return Bio::Ext::Align::SequenceProfile->dna_new($seq1->seq, $self->{'match'}, $self->{'mismatch'}, $self->{'gap'}, $self->{'ext'});
    }
    elsif ($seq1->alphabet eq 'protein') {
	return Bio::Ext::Align::SequenceProfile->protein_new($seq1->seq, $self->{'matrix'}); 
    }
    else {
	croak("There is currently no support for the types of sequences you want to align!\n");
	return;
    }
}

=head2 pairwise_alignment_score

 Title   : pairwise_alignment_score
 Usage   : $score = $factory->pairwise_alignment_score($prof,$seq2)
 Function: Makes a SimpleAlign object from two sequences
 Returns : An integer that is the score of the optimal alignment.
 Args    : The first argument is the sequence profile obtained from a
	   call to the sequence_profile function. The second argument 
	   is a Bio::PrimarySeqI object to be aligned. The second argument
	   is usually a sequence in the database sequence. Note
	   that this function only uses Phil Green's algorithm and 
	   therefore theoretically may not always give you the optimal
	   score.

=cut

sub pairwise_alignment_score {
    my ($self, $prof, $seq2) = @_;

    if( ! defined $prof || ! $prof->isa('Bio::Ext::Align::SequenceProfile') || 
        ! defined $seq2 || ! $seq2->isa('Bio::PrimarySeqI') ) {
        $self->warn("Cannot call pairwise_alignment_score without specifing 2 sequences (Bio::PrimarySeqI objects)");
        return;
    }
    # fix Jitterbug #1044
    if( $seq2->length() < 2) {
        $self->warn("cannot align sequences with length less than 2");
        return;
    }
    if ($seq2->isa('Bio::LocatableSeq')) {
       my $seqstr = $seq2->seq;
       $seqstr =~ s/\-//g;
       $seq2 = Bio::Seq->new(-id => $seq2->id, -seq => $seqstr, -alphabet => $seq2->alphabet);
    }
    $self->set_memory_and_report();
    # create engine objects
    $seq2->display_id('seq2') unless ( defined $seq2->id() );

    if ($prof->alphabet eq 'dna' and $seq2->alphabet eq 'dna') {
	return Bio::Ext::Align::Score_DNA_Sequences($prof, $seq2->seq);
    }
    elsif ($prof->alphabet eq 'protein' and $seq2->alphabet eq 'protein') {
	return Bio::Ext::Align::Score_Protein_Sequences($prof, $seq2->seq);
    }
    else {
	$self->throw("There is currently no support for the types of sequences you want to align!\n");
	return;
    }
}

=head2 pairwise_alignment

 Title   : pairwise_alignment
 Usage   : $aln = $factory->pairwise_alignment($seq1,$seq2)
 Function: Makes a SimpleAlign object from two sequences
 Returns : A SimpleAlign object if there is an alignment with positive
	   score. Otherwise, return undef.
 Args    : The first and second arguments are both Bio::PrimarySeqI
	   objects that are to be aligned.

=cut

sub pairwise_alignment {
    my ($self, $seq1, $seq2) = @_;
    my ($aln, $out);

    if( ! defined $seq1 || ! $seq1->isa('Bio::PrimarySeqI') ||
        ! defined $seq2 || ! $seq2->isa('Bio::PrimarySeqI') ) {
        $self->warn("Cannot call pairwise_alignment without specifing 2 sequences (Bio::PrimarySeqI objects)");
        return;
    }
    # fix Jitterbug #1044
    if( $seq1->length() < 2 ||
        $seq2->length() < 2 ) {
        $self->warn("cannot align sequences with length less than 2");
        return;
    }
    if ($seq1->isa('Bio::LocatableSeq')) {
       my $seqstr = $seq1->seq;
       $seqstr =~ s/\-//g;
       $seq1 = Bio::Seq->new(-id => $seq1->id, -seq => $seqstr, -alphabet => $seq1->alphabet);
    }
    if ($seq2->isa('Bio::LocatableSeq')) {
       my $seqstr = $seq2->seq;
       $seqstr =~ s/\-//g;
       $seq2 = Bio::Seq->new(-id => $seq2->id, -seq => $seqstr, -alphabet => $seq2->alphabet);
    }
    $self->set_memory_and_report();
    # create engine objects
    $seq1->display_id('seq1') unless ( defined $seq1->id() );
    $seq2->display_id('seq2') unless ( defined $seq2->id() );

    if ($seq1->alphabet eq 'dna' and $seq2->alphabet eq 'dna') {
	$aln = Bio::Ext::Align::Align_DNA_Sequences($seq1->seq, $seq2->seq, $self->{'match'}, $self->{'mismatch'}, $self->{'gap'}, $self->{'ext'}, $self->{'alg'});
    }
    elsif ($seq1->alphabet eq 'protein' and $seq2->alphabet eq 'protein') {
	$aln = Bio::Ext::Align::Align_Protein_Sequences($seq1->seq, $seq2->seq, $self->{'matrix'}, $self->{'alg'});
    }
    else {
	croak("There is currently no support for the types of sequences you want to align!\n");
	return;
    }

    if (not defined $aln or $aln == 0) {
	return;
    }

    $out = Bio::SimpleAlign->new();

    $out->add_seq(Bio::LocatableSeq->new(-seq => $aln->aln1,
					 -start => $aln->start1,
					 -end => $aln->end1,
					 -id => $seq1->id));
    
    $out->add_seq(Bio::LocatableSeq->new(-seq => $aln->aln2,
					 -start => $aln->start2,
					 -end => $aln->end2,
					 -id => $seq2->id));
    $out->score($aln->score);
    return $out;
}

=head2 align_and_show

 Title   : align_and_show
 Usage   : $factory->align_and_show($seq1,$seq2,STDOUT)

=cut

sub align_and_show {
    my ($self, $seq1, $seq2, $fh) = @_;
    my ($aln, $out);

    if (! defined $fh) {
	$fh = \*STDOUT;
    }
    if( ! defined $seq1 || ! $seq1->isa('Bio::PrimarySeqI') ||
        ! defined $seq2 || ! $seq2->isa('Bio::PrimarySeqI') ) {
        $self->warn("Cannot call pairwise_alignment without specifing 2 sequences (Bio::PrimarySeqI objects)");
        return;
    }
    # fix Jitterbug #1044
    if( $seq1->length() < 2 ||
        $seq2->length() < 2 ) {
        $self->warn("cannot align sequences with length less than 2");
        return;
    }
    if ($seq1->isa('Bio::LocatableSeq')) {
       my $seqstr = $seq1->seq;
       $seqstr =~ s/\-//g;
       $seq1 = Bio::Seq->new(-id => $seq1->id, -seq => $seqstr, -alphabet => $seq1->alphabet);
    }
    if ($seq2->isa('Bio::LocatableSeq')) {
       my $seqstr = $seq2->seq;
       $seqstr =~ s/\-//g;
       $seq2 = Bio::Seq->new(-id => $seq2->id, -seq => $seqstr, -alphabet => $seq2->alphabet);
    }
    $self->set_memory_and_report();
    # create engine objects
    $seq1->display_id('seq1') unless ( defined $seq1->id() );
    $seq2->display_id('seq2') unless ( defined $seq2->id() );

    if ($seq1->alphabet eq 'dna' and $seq2->alphabet eq 'dna') {
	$aln = Bio::Ext::Align::Align_DNA_Sequences($seq1->seq, $seq2->seq, $self->{'match'}, $self->{'mismatch'}, $self->{'gap'}, $self->{'ext'}, $self->{'alg'});
    }
    elsif ($seq1->alphabet eq 'protein' and $seq2->alphabet eq 'protein') {
	$aln = Bio::Ext::Align::Align_Protein_Sequences($seq1->seq, $seq2->seq, $self->{'matrix'}, $self->{'alg'});
    }
    else {
	croak("There is currently no support for the types of sequences you want to align!\n");
    }

    $out = Bio::Ext::Align::AlnBlock->new();
    my $s1 = Bio::Ext::Align::AlnSequence->new();
    my $s2 = Bio::Ext::Align::AlnSequence->new();
    my $a1 = $aln->aln1;
    my $a2 = $aln->aln2;
    my $first_col = undef;
    my $last_col = undef;
    my $col;
    my $alu1;
    my $alu2;
    my $g1 = 0;
    my $g2 = 0;

# construct AlnBlock
    for (my $i = 0; $i < length($a1); ++$i) {
	$col = Bio::Ext::Align::AlnColumn->new();
	$alu1 = Bio::Ext::Align::AlnUnit->new();
	$alu2 = Bio::Ext::Align::AlnUnit->new();
	$first_col = $col unless defined $first_col;
	Bio::Ext::Align::AlnColumn::set_next($last_col, $col) if defined $last_col;
	
	if (substr($a1, $i, 1) eq "-") {
	    Bio::Ext::Align::AlnUnit::set_text_label($alu1, "INSERT");
	    Bio::Ext::Align::AlnUnit::set_text_label($alu2, "SEQUENCE");
	    ++$g1;
	}
	elsif (substr($a2, $i, 1) eq "-") {
	    Bio::Ext::Align::AlnUnit::set_text_label($alu1, "SEQUENCE");
	    Bio::Ext::Align::AlnUnit::set_text_label($alu2, "INSERT");
	    ++$g2;
	}
	else {
	    Bio::Ext::Align::AlnUnit::set_text_label($alu1, "SEQUENCE");
	    Bio::Ext::Align::AlnUnit::set_text_label($alu2, "SEQUENCE");
	}

	Bio::Ext::Align::AlnUnit::set_start($alu1, $aln->start1+$i-$g1-2);
	Bio::Ext::Align::AlnUnit::set_end($alu1, $aln->start1+$i-$g1-2);
	Bio::Ext::Align::AlnUnit::set_start($alu2, $aln->start2+$i-$g2-2);
	Bio::Ext::Align::AlnUnit::set_end($alu2, $aln->start2+$i-$g2-2);
	Bio::Ext::Align::AlnColumn::add_alu($col, $alu1);
	Bio::Ext::Align::AlnColumn::add_alu($col, $alu2);
	$last_col = $col;
    }
    Bio::Ext::Align::AlnBlock::set_start($out, $first_col);
    $col = Bio::Ext::Align::AlnColumn->new();
    $alu1 = Bio::Ext::Align::AlnUnit->new();
    $alu2 = Bio::Ext::Align::AlnUnit->new();
    Bio::Ext::Align::AlnUnit::set_start($alu1, $aln->end1);
    Bio::Ext::Align::AlnUnit::set_end($alu1, $aln->end1);
    Bio::Ext::Align::AlnUnit::set_text_label($alu1, "END");
    Bio::Ext::Align::AlnUnit::set_start($alu2, $aln->end2);
    Bio::Ext::Align::AlnUnit::set_end($alu2, $aln->end2);
    Bio::Ext::Align::AlnUnit::set_text_label($alu2, "END");
    Bio::Ext::Align::AlnColumn::add_alu($col, $alu1);
    Bio::Ext::Align::AlnColumn::add_alu($col, $alu2);
    Bio::Ext::Align::AlnColumn::set_next($last_col, $col);

    &Bio::Ext::Align::write_pretty_str_align($out,$seq1->id,$seq1->seq,$seq2->id,$seq2->seq,12,50,$fh);
}

=head2 match

 Title     : match 
 Usage     : $match = $factory->match() #get
           : $factory->match($value) #set
 Function  : the set get for the match score
 Example   :
 Returns   : match value
 Arguments : new value

=cut

sub match {
    my ($self,$val) = @_;


    if( defined $val ) {
        if( $val < 0 ) {    # Fixed so that match==0 is allowed /AE
            $self->throw("Can't have a match score less than 0");
        }
        $self->{'match'} = $val;
    }
    return $self->{'match'};
}

=head2 mismatch

 Title     : mismatch 
 Usage     : $mismatch = $factory->mismatch() #get
           : $factory->mismatch($value) #set
 Function  : the set get for the mismatch penalty
 Example   :
 Returns   : mismatch value
 Arguments : new value

=cut

sub mismatch {
    my ($self,$val) = @_;


    if( defined $val ) {
        if( $val > 0 ) {    # Fixed so that mismatch==0 is allowed /AE
            $self->throw("Can't have a mismatch penalty greater than 0");
        }
        $self->{'mismatch'} = $val;
    }
    return $self->{'mismatch'};
}


=head2 gap

 Title     : gap
 Usage     : $gap = $factory->gap() #get
           : $factory->gap($value) #set
 Function  : the set get for the gap penalty
 Example   :
 Returns   : gap value
 Arguments : new value

=cut

sub gap {
    my ($self,$val) = @_;


    if( defined $val ) {
        if( $val < 0 ) {    # Fixed so that gap==0 is allowed /AE
            $self->throw("Can't have a gap penalty less than 0");
        }
        $self->{'gap'} = $val;
    }
    return $self->{'gap'};
}

=head2 ext

 Title     : ext
 Usage     : $ext = $factory->ext() #get
           : $factory->ext($value) #set
 Function  : the set get for the ext penalty
 Example   :
 Returns   : ext value
 Arguments : new value

=cut

sub ext {
    my ($self,$val) = @_;

    if( defined $val ) {
        if( $val < 0 ) {    # Fixed so that ext==0 is allowed /AE
            $self->throw("Can't have a extension penalty less than 0");
        }
        $self->{'ext'} = $val;
    }
    return $self->{'ext'};
}

=head2 alg

 Title     : alg
 Usage     : $alg = $factory->alg() #get
           : $factory->alg($value) #set
 Function  : the set get for the algorithm
 Example   :
 Returns   : alg value
 Arguments : new value

=cut

sub alg {
    my ($self,$val) = @_;

    if( defined $val ) {
        if( $val != DPALIGN_LOCAL_MILLER_MYERS and $val != DPALIGN_GLOBAL_MILLER_MYERS and $val != DPALIGN_ENDSFREE_MILLER_MYERS) {    
            $self->throw("Can't have an algorithm that is not 1, 2 or 3");
        }
        $self->{'alg'} = $val;
    }
    return $self->{'alg'};
}

1;