package Math::GSL;
use base 'Exporter';
use base 'DynaLoader';
use strict;
use Config;
use warnings;
use Test::More;
use Math::GSL::Test qw/:all/;
use Math::GSL::Const qw/:all/;
use Math::GSL::Errno qw/:all/;
use Math::GSL::Vector qw/:file/;
use Math::GSL::Machine qw/:all/;
use Math::GSL::Version;
use version;
our @EXPORT = qw();
our @EXPORT_OK = qw(
gsl_fopen gsl_fclose gsl_version
$GSL_MODE_DEFAULT $GSL_PREC_DOUBLE
$GSL_PREC_SINGLE $GSL_PREC_APPROX
);
our %EXPORT_TAGS = ( all => \@EXPORT_OK, );
our ($GSL_PREC_DOUBLE, $GSL_PREC_SINGLE, $GSL_PREC_APPROX ) = 0 .. 2;
our $GSL_MODE_DEFAULT = $GSL_PREC_DOUBLE;
our $VERSION = '0.28';
=head1 NAME
Math::GSL - Perl interface to the GNU Scientific Library (GSL)
=head1 VERSION
Version 0.28
=head1 SYNOPSIS
use Math::GSL::Matrix;
my $matrix = Math::GSL::Matrix->new(5,5); # 5x5 zero matrix
# note that columns and rows are zero-based
$matrix->set_col(0, [1..5]) # set *first* column to 1,2,3,4,5
->set_row(2, [5..9]); # set *third* column to 5,6,7,8,9
my @matrix = $matrix->as_list; # matrix as Perl list
my $gsl_matrix = $matrix->raw; # underlying GSL object
use Math::GSL::RNG;
my $rng = Math::GSL::RNG->new;
my @random_numbers = $rng->get(1000);
use Math::GSL::Deriv qw/:all/;
my $function = sub { my $x=shift; sin($x**2) };
my ($status,$val,$err) = gsl_deriv_central($function, 5, 0.01 );
use Math::GSL qw/gsl_version/;
# get a version object for the version of the underlying GSL library,
# which will stringify to a version number
my $gsl_version = gsl_version();
Each GSL subsystem has it's own module. For example, the random number generator
subsystem is Math::GSL::RNG. Many subsystems have a more Perlish and
object-oriented frontend which can be used, as the above example shows. The raw
GSL object is useful for using the low-level GSL functions, which in the case of
the Matrix subsytem, would be of the form gsl_matrix_* . Each module has further
documentation about the low-level C functions as well as using the more
intuitive (but slightly slower) object-oriented interface.
=head1 SUBSYSTEMS
L - Linear Algebra Functions
L - BSplines
L - Linear Algebra Functions
L - Cumulative Distribution Functions
L - Chebyshev Polynomials
L - Combinatoric Functions
L - Complex Numbers
L - Various Constants
L - Discrete Hankel Transforms
L - Numerical Derivative
L - Eigenvalues and Eigenvectors
L - Error Handling
L - Fast Fourier Transform
L - Curve Fitting
L - Sorting Heaps
L - Histograms
L - 2D Histograms
L - Numerical Integration
L - Interpolation
L - Linear Algebra
L - Machine Specific Information
L - NxM Matrices
L - Minimization
L - Monte Carlo Integrations
L - Multivariable Fitting
L - Multivariable Minimization
L - Muiltvariable Root Finding
L - N Tuples
L - Ordinary Differential Equation Solvers (Initial Value Problems)
L - Permutations
L - Polynmials
L - Integer Power Functions
L - Quasi-Random Number Generators
L - Random Number Generators
L - Random Number Distributions
L - Root Finding Algorithms
L - Special Functions
L - Simulated Annealing
L - Sorting
L - Splines
L - Statistics Functions
L - Summation
L - Sytem utility functions
L - N-dimensional Vectors
L - Basic Wavelets
L - 2D Wavelets
=cut
sub gsl_fopen
{
my ($file, $mode) = @_;
$mode .= '+b' if (is_windows() and $mode !~ /\+b/);
return Math::GSL::Vector::fopen($file, $mode);
}
sub gsl_fclose
{
my $file = shift;
return Math::GSL::Vector::fclose($file);
}
sub gsl_version{
return version->parse($Math::GSL::Version::GSL_VERSION);
}
=head1 AUTHORS
Jonathan "Duke" Leto, C<< >> and Thierry Moisan C<< >>
=head1 BUGS
This software is still in active development, we appreciate your detailed bug reports and
documentation patches. Please report any bugs or feature requests to the authors directly.
=head1 COMPILING ISSUES
Some operating system configurations will make the compilation of Math::GSL fail. One
common problem that happens on RedHat Linux (RHEL) and CentOS looks like this:
Error: Can't load '/usr/src/misc/perl-package/Math-GSL-0.20/blib/arch/auto/Math/GSL/Errno/Errno.so'
for module Math::GSL::Errno: /usr/src/misc/perl-package/Math-GSL-0.20/blib/arch/auto/Math/GSL/Errno/Errno.so:
cannot restore segment prot after reloc: Permission denied at /usr/lib/perl5/5.10.0/i386-linux-thread-multi/DynaLoader.pm line 203.
# at blib/lib/Math/GSL/Errno.pm line 10
This is due the the SE Linux setting being set to "enforcing". To Temporarily
disable enforcement on a running system:
/usr/sbin/setenforce 0
To permanently disable enforcement during a system startup change "enforcing" to
"disabled" in ''/etc/selinux/config'' and reboot.
=head1 SUPPORT
You can find documentation for this module with the perldoc command.
perldoc Math::GSL
or online at L
=over 4
=item * AnnoCPAN: Annotated CPAN documentation
L
=item * CPAN Ratings
L
=item * Search CPAN
L
=back
=head1 DEVELOPMENT
If you would like the help develop Math::GSL, email the authors
and do
git clone git://github.com/leto/math--gsl.git
cd math--gsl
# start hacking
to get the latest source, which is a two-headed beast with branches master and
bleed. The master branch is our stable branch, which is periodically sync-ed
with bleed. To view the latest source code online, go to
L. The latest version of Git can be found at
L .
=head1 ACKNOWLEDGEMENTS
Thanks to PDX.pm, The Perl Foundation and everyone at Google who makes
the Summer of Code happen each year. You rock.
=head1 DEDICATION
This Perl module is dedicated in memory of Nick Ing-Simmons.
=head1 COPYRIGHT & LICENSE
Copyright 2008-2010 Jonathan "Duke" Leto, Thierry Moisan all rights reserved.
This program is free software; you can redistribute it and/or modify it
under the same terms as Perl itself.
=cut
42;