———————————————————#
# BioPerl module for FAST::Bio::Seq::Meta
#
# Please direct questions and support issues to <bioperl-l@bioperl.org>
#
# Cared for by Heikki Lehvaslaiho
#
# Copyright Heikki Lehvaslaiho
#
# You may distribute this module under the same terms as perl itself
# POD documentation - main docs before the code
=head1 NAME
FAST::Bio::Seq::Meta - Generic superclass for sequence objects with
residue-based meta information
=head1 SYNOPSIS
use FAST::Bio::LocatableSeq;
use FAST::Bio::Seq::Meta;
use FAST::Bio::Tools::OddCodes;
use FAST::Bio::SeqIO;
my $seq = FAST::Bio::Seq::Meta->new(-id=>'test',
-seq=>'ACTGCTAGCT',
-start=>2434,
-end=>2443,
-strand=>1,
-verbose=>1, # to see warnings
);
# the existing sequence object can be a FAST::Bio::PrimarySeq, too
# to test this is a meta seq object
$seq->isa("FAST::Bio::Seq::Meta")
|| $seq->throw("$seq is not a FAST::Bio::Seq::Meta");
$seq->meta('1234567890');
$seq = FAST::Bio::Seq::Meta->new(-id=>'test',
-seq=>'HACILMIFGT',
-start=>2434,
-end=>2443,
-strand=>1,
-meta=>'1234567890',
-verbose=>1, # to see warnings
);
# accessors
$string = $seq->meta_text();
$substring = $seq->submeta_text(2,5);
$unique_key = $seq->accession_number();
# storing output from FAST::Bio::Tools::OddCodes as meta data
my $protcodes = FAST::Bio::Tools::OddCodes->new(-seq => $seq);
my @codes = qw(structural chemical functional charge hydrophobic);
map { $seq->named_meta($_, ${$protcodes->$_($seq) } )} @codes;
my $out = FAST::Bio::SeqIO->new(-format=>'metafasta');
$out->write_seq($seq);
=head1 DESCRIPTION
This class implements generic methods for sequences with residue-based
meta information. Meta sequences with meta data are FAST::Bio::LocatableSeq
objects with additional methods to store that meta information. See
L<FAST::Bio::LocatableSeq> and L<FAST::Bio::Seq::MetaI>.
The meta information in this class is always one character per residue
long and blank values are space characters (ASCII 32).
After the latest rewrite, the meta information no longer covers all
the residues automatically. Methods to check the length of meta
information (L<meta_length>)and to see if the ends are flushed to the
sequence have been added (L<is_flush>). To force the old
functionality, set L<force_flush> to true.
It is assumed that meta data values do not depend on the nucleotide
sequence strand value.
Application specific implementations should inherit from this class to
override and add to these methods.
L<FAST::Bio::Seq::Meta::Array> allows for more complex meta values (scalars
or objects) to be used.
=head2 Method naming
Character based meta data is read and set by method meta() and its
variants. These are the suffixes and prefixes used in the variants:
[named_] [sub] meta [_text]
=over 3
=item _text
Suffix B<_text> guaranties that output is a string. Note that it does
not limit the input.
In this implementation, the output is always text, so these methods
are redundant.
=item sub
Prefix B<sub>, like in subseq(), means that the method applies to sub
region of the sequence range and takes start and end as arguments.
Unlike subseq(), these methods are able to set values. If the range
is not defined, it defaults to the complete sequence.
=item named
Prefix B<named_> in method names allows the used to attach multiple
meta strings to one sequence by explicitly naming them. The name is
always the first argument to the method. The "unnamed" methods use the
class wide default name for the meta data and are thus special cases
"named" methods.
Note that internally names are keys in a hash and any misspelling of a
name will silently store the data under a wrong name. The used names
(keys) can be retrieved using method meta_names(). See L<meta_names>.
=back
=head1 NOTE
This FAST::Bio::Seq::MetaI implementation inherits from FAST::Bio::LocatableSeq, which
itself inherits from FAST::Bio::PrimarySeq. It is not a FAST::Bio::SeqI, so bless-ing
objects of this class into a FAST::Bio::SeqI or vice versa and will not work as
expected (see bug 2262). This may be addressed in a future refactor of
FAST::Bio::LocatableSeq.
=head1 SEE ALSO
L<FAST::Bio::LocatableSeq>,
L<FAST::Bio::Seq::MetaI>,
L<FAST::Bio::Seq::Meta::Array>
=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:
=head1 AUTHOR - Heikki Lehvaslaiho
Email heikki-at-bioperl-dot-org
=head1 CONTRIBUTORS
Chad Matsalla, bioinformatics@dieselwurks.com
Aaron Mackey, amackey@virginia.edu
=head1 APPENDIX
The rest of the documentation details each of the object methods.
Internal methods are usually preceded with a _
=cut
# Let the code begin...
package
FAST::Bio::Seq::Meta;
use
strict;
#use overload '""' => \&to_string;
BEGIN {
$DEFAULT_NAME
=
'DEFAULT'
;
$GAP
=
'-'
;
$META_GAP
=
' '
;
}
=head2 new
Title : new
Usage : $metaseq = FAST::Bio::Seq::Meta->new
( -meta => 'aaaaaaaabbbbbbbb',
-seq => 'TKLMILVSHIVILSRM'
-id => 'human_id',
-accession_number => 'S000012',
);
Function: Constructor for FAST::Bio::Seq::Meta class, meta data being in a
string. Note that you can provide an empty quality string.
Returns : a new FAST::Bio::Seq::Meta object
=cut
sub
new {
my
(
$class
,
@args
) =
@_
;
my
$self
=
$class
->SUPER::new(
@args
);
my
(
$meta
,
$forceflush
,
$nm
) =
$self
->_rearrange([
qw(META
FORCE_FLUSH
NAMED_META)
],
@args
);
#$self->{'_meta'} = {};
$self
->{
'_meta'
}->{
$DEFAULT_NAME
} =
""
;
$meta
&&
$self
->meta(
$meta
);
if
(
$nm
&&
ref
(
$nm
) eq
'HASH'
) {
while
(
my
(
$name
,
$meta
) =
each
%$nm
) {
$self
->named_meta(
$name
,
$meta
);
}
}
$forceflush
&&
$self
->force_flush(
$forceflush
);
return
$self
;
}
=head2 meta
Title : meta
Usage : $meta_values = $obj->meta($values_string);
Function:
Get and set method for the meta data starting from residue
position one. Since it is dependent on the length of the
sequence, it needs to be manipulated after the sequence.
The length of the returned value always matches the length
of the sequence, if force_flush() is set. See L<force_flush>.
Returns : meta data in a string
Args : new value, string, optional
=cut
sub
meta {
shift
->named_meta(
$DEFAULT_NAME
,
shift
);
}
=head2 meta_text
Title : meta_text
Usage : $meta_values = $obj->meta_text($values_arrayref);
Function: Variant of meta() guarantied to return a textual
representation of meta data. For details, see L<meta>.
Returns : a string
Args : new value, optional
=cut
sub
meta_text {
shift
->meta(
shift
);
}
=head2 named_meta
Title : named_meta()
Usage : $meta_values = $obj->named_meta($name, $values_arrayref);
Function: A more general version of meta(). Each meta data set needs
to be named. See also L<meta_names>.
Returns : a string
Args : scalar, name of the meta data set
new value, optional
=cut
sub
named_meta {
my
(
$self
,
$name
,
$value
) =
@_
;
$name
||=
$DEFAULT_NAME
;
if
(
defined
$value
) {
$self
->throw(
"I need a scalar value, not ["
.
ref
(
$value
).
"]"
)
if
ref
(
$value
);
# test for length
my
$diff
=
$self
->
length
- CORE::
length
(
$value
);
if
(
$diff
> 0) {
$value
.= (
" "
x
$diff
);
}
$self
->{
'_meta'
}->{
$name
} =
$value
;
#$self->_test_gap_positions($name) if $self->verbose > 0;
}
return
" "
x
$self
->
length
if
$self
->force_flush && not
defined
$self
->{
'_meta'
}->{
$name
};
$self
->_do_flush
if
$self
->force_flush;
return
$self
->{
'_meta'
}->{
$name
};
}
=head2 _test_gap_positions
Title : _test_gap_positions
Usage : $meta_values = $obj->_test_gap_positions($name);
Function: Internal test for correct position of gap characters.
Gap being only '-' this time.
This method is called from named_meta() when setting meta
data but only if verbose is positive as this can be an
expensive process on very long sequences. Set verbose(1) to
see warnings when gaps do not align in sequence and meta
data and turn them into errors by setting verbose(2).
Returns : true on success, prints warnings
Args : none
=cut
sub
_test_gap_positions {
my
$self
=
shift
;
my
$name
=
shift
;
my
$success
= 1;
$self
->seq ||
return
$success
;
my
$len
= CORE::
length
(
$self
->seq);
for
(
my
$i
=0;
$i
<
$len
;
$i
++) {
my
$s
=
substr
$self
->{seq},
$i
, 1;
my
$m
=
substr
$self
->{_meta}->{
$name
},
$i
, 1;
$self
->
warn
(
"Gap mismatch [$m/$s] in column ["
. (
$i
+1).
"] of [$name] meta data in seq ["
.
$self
->id.
"]"
)
and
$success
= 0
if
(
$s
eq
$META_GAP
) &&
$s
ne
$m
;
}
return
$success
;
}
=head2 named_meta_text
Title : named_meta_text()
Usage : $meta_values = $obj->named_meta_text($name, $values_arrayref);
Function: Variant of named_meta() guarantied to return a textual
representation of the named meta data.
For details, see L<meta>.
Returns : a string
Args : scalar, name of the meta data set
new value, optional
=cut
sub
named_meta_text {
shift
->named_meta(
@_
);
}
=head2 submeta
Title : submeta
Usage : $subset_of_meta_values = $obj->submeta(10, 20, $value_string);
$subset_of_meta_values = $obj->submeta(10, undef, $value_string);
Function:
Get and set method for meta data for subsequences.
Numbering starts from 1 and the number is inclusive, ie 1-2
are the first two residue of the sequence. Start cannot be
larger than end but can be equal.
If the second argument is missing the returned values
should extend to the end of the sequence.
The return value may be a string or an array reference,
depending on the implementation. If in doubt, use
submeta_text() which is a variant guarantied to return a
string. See L<submeta_text>.
Returns : A reference to an array or a string
Args : integer, start position
integer, end position, optional when a third argument present
new value, optional
=cut
sub
submeta {
shift
->named_submeta(
$DEFAULT_NAME
,
@_
);
}
=head2 submeta_text
Title : submeta_text
Usage : $meta_values = $obj->submeta_text(20, $value_string);
Function: Variant of submeta() guarantied to return a textual
representation of meta data. For details, see L<meta>.
Returns : a string
Args : new value, optional
=cut
sub
submeta_text {
shift
->submeta(
@_
);
}
=head2 named_submeta
Title : named_submeta
Usage : $subset_of_meta_values = $obj->named_submeta($name, 10, 20, $value_string);
$subset_of_meta_values = $obj->named_submeta($name, 10);
Function: Variant of submeta() guarantied to return a textual
representation of meta data. For details, see L<meta>.
Returns : A reference to an array or a string
Args : scalar, name of the meta data set
integer, start position
integer, end position, optional when a third argument present
new value, optional
=cut
sub
named_submeta {
my
(
$self
,
$name
,
$start
,
$end
,
$value
) =
@_
;
$name
||=
$DEFAULT_NAME
;
$start
||=1;
$start
=~ /^[+]?\d+$/ and
$start
> 0 or
$self
->throw(
"Need at least a positive integer start value"
);
if
(
$value
) {
$end
||=
$start
+
length
(
$value
)-1;
$self
->
warn
(
"You are setting meta values beyond the length of the sequence\n"
.
"[$start > "
.
length
(
$self
->seq).
"] in sequence "
.
$self
->id)
if
$start
>
length
$self
->seq;
# pad meta data if needed
$self
->{_meta}->{
$name
} = ()
unless
defined
$self
->{_meta}->{
$name
};
if
(
length
(
$self
->{_meta}->{
$name
}) <
$start
) {
$self
->{
'_meta'
}->{
$name
} .=
" "
x (
$start
-
length
(
$self
->{
'_meta'
}->{
$name
}) -1);
}
my
$tail
=
''
;
$tail
=
substr
(
$self
->{_meta}->{
$name
},
$start
-1+
length
(
$value
))
if
length
(
$self
->{_meta}->{
$name
}) >=
$start
-1+
length
(
$value
);
substr
(
$self
->{_meta}->{
$name
}, --
$start
) =
$value
;
$self
->{_meta}->{
$name
} .=
$tail
;
return
substr
(
$self
->{_meta}->{
$name
},
$start
,
$end
-
$start
+ 1);
}
else
{
$end
or
$end
=
length
$self
->seq;
# pad meta data if needed
if
(
length
(
$self
->{_meta}->{
$name
}) <
$end
) {
$self
->{
'_meta'
}->{
$name
} .=
" "
x (
$start
-
length
(
$self
->{
'_meta'
}->{
$name
}));
}
return
substr
(
$self
->{_meta}->{
$name
},
$start
-1,
$end
-
$start
+ 1)
}
}
=head2 named_submeta_text
Title : named_submeta_text
Usage : $meta_values = $obj->named_submeta_text($name, 20, $value_string);
Function: Variant of submeta() guarantied to return a textual
representation of meta data. For details, see L<meta>.
Returns : a string
Args : scalar, name of the meta data
Args : integer, start position, optional
integer, end position, optional
new value, optional
=cut
sub
named_submeta_text {
shift
->named_submeta(
@_
);
}
=head2 meta_names
Title : meta_names
Usage : @meta_names = $obj->meta_names()
Function: Retrieves an array of meta data set names. The default
(unnamed) set name is guarantied to be the first name.
Returns : an array of names
Args : none
=cut
sub
meta_names {
my
(
$self
) =
@_
;
my
@r
;
foreach
(
sort
keys
%{
$self
->{
'_meta'
}} ) {
push
(
@r
,
$_
)
unless
$_
eq
$DEFAULT_NAME
;
}
unshift
@r
,
$DEFAULT_NAME
if
$self
->{
'_meta'
}->{
$DEFAULT_NAME
};
return
@r
;
}
=head2 meta_length
Title : meta_length()
Usage : $meeta_len = $obj->meta_length();
Function: return the number of elements in the meta set
Returns : integer
Args : -
=cut
sub
meta_length {
my
(
$self
) =
@_
;
return
$self
->named_meta_length(
$DEFAULT_NAME
);
}
=head2 named_meta_length
Title : named_meta_length()
Usage : $meta_len = $obj->named_meta_length($name);
Function: return the number of elements in the named meta set
Returns : integer
Args : -
=cut
sub
named_meta_length {
my
(
$self
,
$name
) =
@_
;
$name
||=
$DEFAULT_NAME
;
return
length
(
$self
->{
'_meta'
}->{
$name
});
}
=head2 force_flush
Title : force_flush()
Usage : $force_flush = $obj->force_flush(1);
Function: Automatically pad with empty values or truncate meta values
to sequence length. Not done by default.
Returns : boolean 1 or 0
Args : optional boolean value
Note that if you turn this forced padding off, the previously padded
values are not changed.
=cut
sub
force_flush {
my
(
$self
,
$value
) =
@_
;
if
(
defined
$value
) {
if
(
$value
) {
$self
->{force_flush} = 1;
$self
->_do_flush;
}
else
{
$self
->{force_flush} = 0;
}
}
return
$self
->{force_flush};
}
=head2 _do_flush
Title : _do_flush
Usage :
Function: internal method to do the force that meta values are same
length as the sequence . Called from L<force_flush>
Returns :
Args :
=cut
sub
_do_flush {
my
(
$self
) =
@_
;
foreach
my
$name
( (
'DEFAULT'
,
$self
->meta_names) ) {
# elongnation
if
(
$self
->
length
>
$self
->named_meta_length(
$name
)) {
$self
->{
'_meta'
}->{
$name
} .=
$META_GAP
x (
$self
->
length
-
$self
->named_meta_length(
$name
)) ;
}
# truncation
elsif
(
$self
->
length
<
$self
->named_meta_length(
$name
) ) {
$self
->{_meta}->{
$name
} =
substr
(
$self
->{_meta}->{
$name
}, 0,
$self
->
length
-1);
}
}
}
=head2 is_flush
Title : is_flush
Usage : $is_flush = $obj->is_flush()
or $is_flush = $obj->is_flush($my_meta_name)
Function: Boolean to tell if all meta values are in
flush with the sequence length.
Returns true if force_flush() is set
Set verbosity to a positive value to see failed meta sets
Returns : boolean 1 or 0
Args : optional name of the meta set
=cut
sub
is_flush {
my
(
$self
,
$name
) =
shift
;
return
1
if
$self
->force_flush;
my
$sticky
=
''
;
if
(
$name
) {
$sticky
.=
"$name "
if
$self
->
length
!=
$self
->named_meta_length(
$name
);
}
else
{
foreach
my
$m
(
$self
->meta_names) {
$sticky
.=
"$m "
if
$self
->
length
!=
$self
->named_meta_length(
$m
);
}
}
if
(
$sticky
) {
"These meta set are not flush: $sticky\n"
if
$self
->verbose;
return
0;
}
return
1;
}
=head1 FAST::Bio::PrimarySeqI methods
=head2 revcom
Title : revcom
Usage : $newseq = $seq->revcom();
Function: Produces a new FAST::Bio::Seq::MetaI implementing object where
the order of residues and their meta information is reversed.
Returns : A new (fresh) FAST::Bio::Seq::Meta object
Args : none
Throws : if the object returns false on is_flush()
Note: The method does nothing to meta values, it reorders them, only.
=cut
sub
revcom {
my
$self
=
shift
;
$self
->throw(
"Can not get a reverse complement. The object is not flush."
)
unless
$self
->is_flush;
my
$new
=
$self
->SUPER::revcom;
foreach
(
keys
%{
$self
->{_meta}}) {
$new
->named_meta(
$_
,
scalar
reverse
$self
->{_meta}->{
$_
} );
};
return
$new
;
}
=head2 trunc
Title : trunc
Usage : $subseq = $seq->trunc(10,100);
Function: Provides a truncation of a sequence together with meta data
Returns : a fresh FAST::Bio::Seq::Meta implementing object
Args : Two integers denoting first and last residue of the sub-sequence.
=cut
sub
trunc {
my
(
$self
,
$start
,
$end
) =
@_
;
# test arguments
$start
=~ /^[+]?\d+$/ and
$start
> 0 or
$self
->throw(
"Need at least a positive integer start value as start"
);
$end
=~ /^[+]?\d+$/ and
$end
> 0 or
$self
->throw(
"Need at least a positive integer start value as end"
);
$end
>=
$start
or
$self
->throw(
"End position has to be larger or equal to start"
);
$end
<=
$self
->
length
or
$self
->throw(
"End position can not be larger than sequence length"
);
my
$new
=
$self
->SUPER::trunc(
$start
,
$end
);
$start
--;
foreach
(
keys
%{
$self
->{_meta}}) {
$new
->named_meta(
$_
,
substr
(
$self
->{_meta}->{
$_
},
$start
,
$end
-
$start
)
);
};
return
$new
;
}
sub
to_string {
my
(
$self
) =
@_
;
my
$out
= FAST::Bio::SeqIO->new(
-format
=>
'metafasta'
);
$out
->write_seq(
$self
);
return
1;
}
1;