NAME

Bio::Tools::Alignment::Trim - A kludge to do specialized trimming of sequence based on quality.

SYNOPSIS

use Bio::Tools::Alignment::Trim;
$o_trim = new Bio::Tools::Alignment::Trim;
$o_trim->set_reverse_designator("R");
$o_trim->set_forward_designator("F");

DESCRIPTION

This is a specialized module designed by Chad for Chad to trim sequences based on a highly specialized list of requirements. In other words, write something that will trim sequences 'just like the people in the lab would do manually'.

I settled on a sliding-window-average style of search which is ugly and slow but does _exactly_ what I want it to do.

Mental note: rewrite this.

It is very important to keep in mind the context in which this module was written: strictly to support the projects for which Consed.pm was designed.

FEEDBACK

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://bio.perl.org/MailList.html     - About the mailing
lists

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 email or the web:

bioperl-bugs@bio.perl.org
http://bugzilla.bioperl.org/

AUTHOR - Chad Matsalla

Email bioinformatics@dieselwurks.com

APPENDIX

The rest of the documentation details each of the object methods. Internal methods are usually preceded with a _

new()

 Title   : new()
 Usage   : $o_trim = Bio::Tools::Alignment::Trim->new();
 Function: Construct the Bio::Tools::Alignment::Trim object. No parameters
	   are required to create this object. It is strictly a bundle of
	   functions, as far as I am concerned.
 Returns : A reference to a Bio::Tools::Alignment::Trim object.
 Args    : (optional)
           -windowsize (default 10)
           -phreds (default 20)

set_designators($forward_designator,$reverse_designator)

 Title   : set_designators(<forward>,<reverse>)
 Usage   : $o_trim->set_designators("F","R")
 Function: Set the string by which the system determines whether a given
	sequence represents a forward or a reverse read.
 Returns : Nothing.
 Args    : two scalars: one representing the forward designator and one
	representing the reverse designator

set_forward_designator($designator)

 Title   : set_forward_designator($designator)
 Usage   : $o_trim->set_forward_designator("F")
 Function: Set the string by which the system determines if a given
	sequence is a forward read.
 Returns : Nothing.
 Args    : A string representing the forward designator of this project.

set_reverse_designator($reverse_designator)

 Title   : set_reverse_designator($reverse_designator)
 Function: Set the string by which the system determines if a given
	sequence is a reverse read.
 Usage   : $o_trim->set_reverse_designator("R")
 Returns : Nothing.
 Args    : A string representing the forward designator of this project.

get_designators()

Title   : get_designators()
Usage   : $o_trim->get_designators()
Returns : A string describing the current designators.
Args    : None
Notes   : Really for informational purposes only. Duh.

trim_leading_polys()

 Title   : trim_leading_polys()
 Usage   : $o_trim->trim_leading_polys()
 Function: Not implemented. Does nothing.
 Returns : Nothing.
 Args    : None.
 Notes   : This function is not implemented. Part of something I wanted to
	do but never got around to doing.

dump_hash()

Title   : dump_hash()
Usage   : $o_trim->dump_hash()
Function: Unimplemented.
Returns : Nothing.
Args    : None.
Notes   : Does nothing.

trim_singlet($sequence,$quality,$name,$class)

 Title   : trim_singlet($sequence,$quality,$name,$class)
 Usage   : ($r_trim_points,$trimmed_sequence) =
	@{$o_trim->trim_singlet($sequence,$quality,$name,$class)};
 Function: Trim a singlet based on its quality.
 Returns : a reference to an array containing the forward and reverse
	trim points and the trimmed sequence.
 Args    : $sequence : A sequence (SCALAR, please)
	   $quality : A _scalar_ of space-delimited quality values.
	   $name : the name of the sequence
	   $class : The class of the sequence. One of qw(singlet
		singleton doublet pair multiplet)
 Notes   : At the time this was written the bioperl objects SeqWithQuality
	and PrimaryQual did not exist. This is what is with the clumsy
	passing of references and so on. I will rewrite this next time I
	have to work with it. I also wasn't sure whether this function
	should return just the trim points or the points and the sequence.
	I decided that I always wanted both so that's how I implemented
	it.
     - Note that the size of the sliding windows is set during construction of
       the Bio::Tools::Alignment::Trim object.

trim_doublet($sequence,$quality,$name,$class)

 Title   : trim_doublet($sequence,$quality,$name,$class) 
 Usage   : ($r_trim_points,$trimmed_sequence) =
	    @{$o_trim->trim_singlet($sequence,$quality,$name,$class)};
 Function: Trim a singlet based on its quality.
 Returns : a reference to an array containing the forward and reverse
 Args    : $sequence : A sequence
	   $quality : A _scalar_ of space-delimited quality values.
	   $name : the name of the sequence
	   $class : The class of the sequence. One of qw(singlet
		singleton doublet pair multiplet)
 Notes   : At the time this was written the bioperl objects SeqWithQuality
	and PrimaryQual did not exist. This is what is with the clumsy
	passing of references and so on. I will rewrite this next time I
	have to work with it. I also wasn't sure whether this function
	should return just the trim points or the points and the sequence.
	I decided that I always wanted both so that's how I implemented
	it.

chop_sequence($name,$class,$sequence,@points)

 Title   : chop_sequence($name,$class,$sequence,@points)
 Usage   : ($start_point,$end_point,$chopped_sequence) = 
	$o_trim->chop_sequence($name,$class,$sequence,@points);
 Function: Chop a sequence based on its name, class, and sequence.
 Returns : an array containing three scalars:
	1- the start trim point
	2- the end trim point
	3- the chopped sequence
 Args    :
	   $name : the name of the sequence
	   $class : The class of the sequence. One of qw(singlet
		singleton doublet pair multiplet)
	   $sequence : A sequence
	   @points : An array containing two elements- the first contains
		the start trim point and the second conatines the end trim
		point.

_get_start($r_quals,$windowsize,$phreds,$offset)

 Title   : _get_start($r_quals,$windowsize,$phreds,$offset)
 Usage   : $start_base = $self->_get_start($r_windows,5,20);
 Function: Provide the start trim point for this sequence.
 Returns : a scalar representing the start of the sequence
 Args    : 
	$r_quals : A reference to an array containing quality values. In
		context, this array of values has been smoothed by then
		sliding window-look ahead algorithm.
	$windowsize : The size of the window used when the sliding window
		look-ahead average was calculated.
	$phreds : <fill in what this does here>
	$offset : <fill in what this does here>

_get_end($r_qual,$windowsize,$phreds,$count)

 Title   : _get_end($r_qual,$windowsize,$phreds,$count)
 Usage   : my $end_base = &_get_end($r_windows,20,20,$start_base);
 Function: Get the end trim point for this sequence.
 Returns : A scalar representing the end trim point for this sequence.
 Args    : 
	$r_qual : A reference to an array containing quality values. In
		context, this array of values has been smoothed by then
		sliding window-look ahead algorithm.
	$windowsize : The size of the window used when the sliding window
		look-ahead average was calculated.
	$phreds : <fill in what this does here>
	$count : Start looking for the end of the sequence here.

count_doublet_trailing_zeros($r_qual)

 Title   : count_doublet_trailing_zeros($r_qual)
 Usage   : my $start_of_trailing_zeros = &count_doublet_trailing_zeros(\@qual);
 Function: Find out when the trailing zero qualities start.
 Returns : A scalar representing where the zeros start.
 Args    : A reference to an array of quality values.
 Notes   : Again, this should be rewritten to use PrimaryQual objects.
	A more detailed explanation of why phrap puts these zeros here should
	be written and placed here. Please email and hassle the author.

_sliding_window($r_quals,$windowsize)

 Title   : _sliding_window($r_quals,$windowsize)
 Usage   : my $r_windows = &_sliding_window(\@qual,$windowsize);
 Function: Create a sliding window, look-forward-average on an array
	of quality values. Used to smooth out differences in qualities.
 Returns : A reference to an array containing the smoothed values.
 Args    : $r_quals: A reference to an array containing quality values.
	   $windowsize : The size of the sliding window.
 Notes   : This was written before PrimaryQual objects existed. They
	   should use that object but I haven't rewritten this yet.

_print_formatted_qualities

Title   : _print_formatted_qualities(\@quals)
Usage   : &_print_formatted_qualities(\@quals);
Returns : Nothing. Prints.
Args    : A reference to an array containing quality values.
Notes   : An internal procedure used in debugging. Prints out an array nicely.

_get_end_old($r_qual,$windowsize,$phreds,$count)

Title   : _get_end_old($r_qual,$windowsize,$phreds,$count)
Usage   : Deprecated. Don't use this!
Returns : Deprecated. Don't use this!
Args    : Deprecated. Don't use this!