removing searchio-blastxml files
[bioperl-live.git] / BioPerl.pm
blob65c52f5c9e8903716743b834d7c7b0d78e2f7ef9
1 package BioPerl;
3 use strict;
5 # At some future point, when we break the current core into more maintainable
6 # bits, this will have a direct VERSION number, but for now we will be using
7 # the root version for everything
8 use Bio::Root::Version;
10 our $VERSION = $Bio::Root::Version::VERSION;
11 eval $VERSION;
15 __END__
17 =head1 NAME
19 BioPerl - Perl Modules for Biology
21 =head1 SYNOPSIS
23 If you're new to BioPerl, you should start reading the BioPerl tutorial, an
24 overview of the BioPerl toolkit:
26 L<http://www.bioperl.org/wiki/BioPerl_Tutorial>
28 =head2 Current Overview
30 Core Bioperl documentation has been split up into the following sections:
32 =over 3
34 =item * bioperl
36 BioPerl overview (this document)
38 =back
40 We may add more documents in the future, including:
42 =over 3
44 =item * biodatabases
46 How to use databases with BioPerl
48 =item * biodesign
50 A guide for authoring a BioPerl module
52 =item * bioscripts
54 Description and overview of BioPerl scripts (in the I</scripts> directory)
56 =back
58 =head2 Tutorials
60 =over 3
62 =item * BioPerl tutorial for beginners
64 L<http://www.bioperl.org/wiki/BioPerl_Tutorial>
66 =item * Institut Pasteur BioPerl tutorial (note: for older versions of BioPerl)
68 L<http://www.pasteur.fr/recherche/unites/sis/formation/bioperl>
70 =back
72 =head2 References for Individual Modules
74 For ease of maintenance and coordination amongst contributors, BioPerl
75 code is maintained in a modular form, as is the documentation. Refer to
76 the documentation for individual modules by using perldoc, i.e.
78 C<perldoc Bio::Seq>
80 to get documentation for the Bio::Seq object.
82 =head1 DESCRIPTION
84 BioPerl is the product of a community effort to produce Perl code which is
85 useful in biology. Examples include Sequence objects, Alignment objects and
86 database searching objects. These objects not only do what they are advertised
87 to do in the documentation, but they also interact - Alignment objects are made
88 from the Sequence objects, Sequence objects have access to Annotation and
89 SeqFeature objects and databases, Blast objects can be converted to Alignment
90 objects, and so on. This means that the objects provide a coordinated and
91 extensible framework to do computational biology.
93 BioPerl development focuses on Perl classes, or code that is used to create
94 objects representing biological entities. There are scripts provided in the
95 scripts/ and examples/ directories but scripts are not the main focus of the
96 BioPerl developers. Of course, as the objects do most of the hard work for you,
97 all you have to do is combine a number of objects together sensibly to make
98 useful scripts.
100 The intent of the BioPerl development effort is to make reusable tools that aid
101 people in creating their own sites or job-specific applications.
103 The BioPerl website at L<http://bioperl.org> also attempts to maintain links
104 and archives of standalone bio-related Perl tools that are not affiliated or
105 related to the core BioPerl effort. Check the site for useful code ideas and
106 contribute your own if possible.
108 =head1 DOCUMENTATION
110 The Bio::Perl module (not this document) is designed to flatten the learning
111 curve for newcomers to Perl/Bioperl. This is a good place to start if you want
112 some simple functionality. We have a cookbook tutorial on-line:
114 L<http://bioperl.org/wiki/BioPerl_Tutorial>
116 which has embedded documentation. Start there if learning-by-example suits you
117 most, or examine the BioPerl online course at:
119 L<http://www.pasteur.fr/recherche/unites/sis/formation/bioperl>
121 Make sure to check the documentation in the modules as well - there are over 900
122 modules in BioPerl, and counting, and there's detail in the modules'
123 documentation that will not appear in the general documentation.
125 =head1 INSTALLATION
127 The BioPerl modules are distributed as a tar file that expands into a standard
128 perl CPAN distribution. Detailed installation directions can be found in the
129 distribution INSTALL file. Installing on windows using ActiveState Perl is
130 covered in the INSTALL.WIN file. We highly suggest reading the installation
131 instructions on the BioPerl website:
133 L<http://www.bioperl.org/wiki/Installing_BioPerl>
135 =for TODO: Do we want to add biodesign and biodatabases back in?
136 The BioPerl modules can interact with local flat file and relational databases.
137 To learn how to set this up, look at the biodatabases.pod documentation
138 ('perldoc biodatabases.pod' should work once BioPerl has been installed).
140 Some BioPerl-related distributions such as Bio::Graphics, BioPerl-db,
141 BioPerl-run, BioPerl-gui, corba-server, BioPerl-ext, BioPerl-pipeline,
142 BioPerl-microarray and corba-client packages are installed separately from
143 BioPerl. Please refer to their respective documentation for more information.
144 Note that only the following are supported at this time with the current API:
146 =over 3
148 =item BioPerl-db
150 =item BioPerl-network
152 =item BioPerl-run
154 =item BioPerl-pedigree
156 =item Bio::Graphics
158 =back
160 =head1 GETTING STARTED
162 A good place to start is by reading the tutorial : L<http://bioperl.org/wiki/BioPerl_Tutorial>
164 The distribution I<scripts/> directory has working scripts for use with BioPerl,
165 check the self-described I<examples/> directory as well. You are more than
166 welcome to contribute your script!
168 =for TODO Should we add bioscripts back to the distributions?
169 A list and brief description of all these scripts is found in bioscripts.pod.
171 If you have installed BioPerl in the standard way, as detailed in the INSTALL in
172 the distribution, these scripts should work by just running them. If you have
173 not installed it in a standard way you will have to change the 'use lib' to
174 point to your installation (see INSTALL for details).
176 =head1 GETTING INVOLVED
178 BioPerl is a completely open community of developers. We are not funded and we
179 don't have a mission statement. We encourage collaborative code, in particular
180 in Perl. You can help us in many different ways, from just a simple statement
181 about how you have used BioPerl to doing something interesting to contributing a
182 whole new object hierarchy. See L<http://bioperl.org> for more information. Here
183 are some ways of helping us:
185 =head2 Asking questions and telling us you used it
187 We are very interested to hear how you experienced using BioPerl. Did it install
188 cleanly? Did you understand the documentation? Could you get the objects to do
189 what you wanted them to do? If BioPerl was useless we want to know why, and if
190 it was great - that too. Post a message to B<bioperl-l@bioperl.org>, the BioPerl
191 mailing list, where all the developers are.
193 Only by getting people's feedback do we know whether we are providing anything
194 useful.
196 =head2 Writing a script that uses it
198 By writing a good script that uses BioPerl you both show that BioPerl is useful
199 and probably save someone elsewhere writing it. If you contribute it to the
200 'script central' at L<http://bioperl.org> then other people can view and use it.
201 Don't be nervous if you've never done this sort of work, advice is freely given
202 and all are welcome!
204 =head2 Find bugs!
206 We know that there are bugs in this code. If you find something which you are pretty
207 sure is a problem, post a bug report using our Bugzilla tracking system:
209 L<https://redmine.open-bio.org/projects/bioperl/>
211 Please read the main bug tracking (L<http://www.bioperl.org/wiki/Bugs>) for an
212 overview of what we expect in a bug report. Specifically, having a code and
213 data example where appropriate helps tremendously. We gladly accept all patches
214 after a quick code review.
216 =head2 Suggest new functionality
218 You can suggest areas where the objects are not ideally written and could be
219 done better. The best way is to find the main developer of the module (each
220 module was written principally by one person, except for Seq.pm). Talk to him or
221 her and suggest changes.
223 =head2 Make your own objects
225 If you can make a useful object we will happily include it into the core.
226 Probably you will want to read a lot of the documentation in L<Bio::Root::Root>
227 and talk to people on the BioPerl mailing list, B<bioperl-l@bioperl.org>.
229 =for TODO Add biodesign.pod back?
230 biodesign.pod provides documentation on the conventions and ideas
231 used in BioPerl, it's definitely worth a read if you would like to be a BioPerl
232 developer.
234 =head2 Writing documentation
236 We appreciate good documentation. It's what tells the world what's in BioPerl,
237 it's what instructs the user, it's what describes the rationale and inner
238 workings of the package. Feel free to contribute.
240 =head1 ACKNOWLEDGEMENTS
242 For a more detailed history of the BioPerl project, we recommend the History of
243 BioPerl:
245 L<http://www.bioperl.org/wiki/History_of_BioPerl>
247 =head1 COPYRIGHT
249 Copyright (c) 1996-2009 Georg Fuellen, Richard Resnick, Steven E. Brenner, Chris
250 Dagdigian, Steve Chervitz, Ewan Birney, James Gilbert, Elia Stupka, and others.
251 All Rights Reserved. This module is free software; you can redistribute it
252 and/or modify it under the same terms as Perl itself.
254 =cut