that USE_FORTRAN was only used to determine what name mangling scheme
it had to use to compile the shim libs for fortran, but compiling everything
using 'C' anyway.
With this diff, the slave ports fftw3-long-fortran, fftw3-float-fortran
and fftw3-fortran disapear since the shims are always built, without
necessitating the use of a USE_FORTRAN.
Approved by: ahze (Maintainer)
which is intended to be a central location for custom scripts, functions and
extensions for GNU Octave. contains the source for all the functions plus
build and install scripts.
This is quaternion.
Package for the manipulation of Quaternion's used for frame transformation.
WWW: http://octave.sourceforge.net/
PR: ports/137402
Submitted by: Stephen Montgomery-Smith <stephen@missouri.edu>
objective function are not required. Constraints can be incorporated. The
caller must supply initial values for the variables and for the initial
step sizes.
WWW: http://search.cpan.org/dist/Math-Evol/
PR: ports/135880
Submitted by: Wen Heping <wenheping at gmail.com>
which is intended to be a central location for custom scripts, functions and
extensions for GNU Octave. contains the source for all the functions plus
build and install scripts.
This is generate_html.
This package provides functions for generating HTML pages that contain
the help texts for a set of functions. The package is designed to be as
general as possible, but also contains convenience functions for
generating a set of pages for entire packages.
WWW: http://octave.sourceforge.net/
PR: ports/135329
Submitted by: Stephen Montgomery-Smith <stephen at math.missouri.edu>
arbitrary number bases. It is as fast as I currently know how
to make it (of course relying only on the lovely Perl). If you
would rather utilize an object syntax for number-base conversion,
please see Ken Williams's <Ken@Forum.Swarthmore.Edu> fine
Math::BaseCalc module.
WWW: http://search.cpan.org/dist/Math-BaseCnv/
PR: ports/135216
Submitted by: Wen Heping <wenheping at gmail.com>
which is intended to be a central location for custom scripts, functions and
extensions for GNU Octave. contains the source for all the functions plus
build and install scripts.
This is spanish.
Spanish package for the construction of native language translations of
Octave functions.
WWW: http://octave.sourceforge.net/
PR: ports/134404
Submitted by: Stephen Montgomery-Smith <stephen AT missouri.edu>
Approved by: miwi (mentor)
which is intended to be a central location for custom scripts, functions and
extensions for GNU Octave. contains the source for all the functions plus
build and install scripts.
This is simp.
This package define the basic operations on intervals. It is useful when
some values for a computation are incertain.
WWW: http://octave.sourceforge.net/
PR: ports/134404
Submitted by: Stephen Montgomery-Smith <stephen AT missouri.edu>
Approved by: miwi (mentor)
which is intended to be a central location for custom scripts, functions and
extensions for GNU Octave. contains the source for all the functions plus
build and install scripts.
This is oct2mat.
Convert m-file into matlab-compatible coding style.
WWW: http://octave.sourceforge.net/
PR: ports/134404
Submitted by: Stephen Montgomery-Smith <stephen AT missouri.edu>
Approved by: miwi (mentor)
which is intended to be a central location for custom scripts, functions and
extensions for GNU Octave. contains the source for all the functions plus
build and install scripts.
This is nurbs.
Collection of routines for the creation, and manipulation of Non-Uniform
Rational B-Splines (NURBS).
WWW: http://octave.sourceforge.net/
PR: ports/134404
Submitted by: Stephen Montgomery-Smith <stephen AT missouri.edu>
Approved by: miwi (mentor)
in a way that is compatible with the previous CPAN module
Math::MatrixReal. However it provides a more vector oriented set
of mathematical functions and overload operators, to the MatrixReal
package. For example the normal perl string functions "x" and "."
have been overloaded to allow vector cross and dot product
operations. Vector math formula thus looks like vector math formula
in perl programs using this package.
WWW: http://search.cpan.org/dist/Math-VectorReal/
PR: ports/134460
Submitted by: Wen Heping <wenheping at gmail.com>
Regression, Sage, 2002. The package contains mostly functions for applied
regression, linear models, and generalized linear models, with an emphasis on
regression diagnostics, particularly graphical diagnostic methods. There are
also some utility functions. With some exceptions, I have tried not to duplicate
capabilities in the basic distribution of R, nor in widely used packages. Where
relevant, the functions in car are consistent with na.action = na.omit or
na.exclude.
WWW: http://cran.r-project.org/web/packages/car/index.html
PR: ports/133708
Submitted by: David Naylor <naylor.b.david@gmail.com>
The MPC library is a C library for multiple-precision complex number
computations with exact rounding. It is based on the MPFR C library
which, in turn, is based on the GMP C library.
WWW: http://search.cpan.org/dist/Math-MPC
PR: ports/133396
Submitted by: Wen Heping <wenheping at gmail.com>
arbitrarily high precision and correct rounding of the result.
It is built upon and follows the same principles as Mpfr. The
library is written by Andreas Enge, Philippe Theveny and Paul
Zimmermann and is distributed under the Gnu Lesser General Public
License, either version 2.1 of the license, or (at your option)
any later version. The Mpc library has been registered in France
by the Agence pour la Protection des Programmes on 2003-02-05
under the number IDDN FR 001 060029 000 R P 2003 000 10000.
WWW: http://www.multiprecision.org/
PR: ports/133395
Submitted by: Wen Heping <wenheping at gmail.com>
results of, an enormous range of statistical models. It literally is "everyone's
statistical software" because Zelig's simple unified framework incorporates
everyone else's (R) code. We also hope it will become "everyone's statistical
software" for applications and teaching, and so have designed Zelig so that
anyone can easily use it or add their programs to it. Zelig also comes with
infrastructure that facilitates the use of any existing method, such as by
allowing multiply imputed data for any model, and mimicking the program Clarify
(for Stata) that takes the raw output of existing statistical procedures and
translates them into quantities of direct interest.
WWW: http://gking.harvard.edu/zelig
PR: ports/133115
Submitted by: Wen Heping <wenheping at gmail.com>
regression and density estimation. It is software linked to the
book 'Applied Smoothing Techniques for Data Analysis: The Kernel
Approach with S-Plus Illustrations' Oxford University Press.
WWW: http://www.stats.gla.ac.uk/~adrian/sm
PR: ports/132770
Submitted by: Wen Heping <wenheping at gmail.com>
data. The classes document where the spatial location information
resides, for 2D or 3D data. Utility functions are provided, e.g.
for plotting data as maps, spatial selection, as well as methods
for retrieving coordinates, for subsetting, print, summary, etc.
WWW: http://r-spatial.sourceforge.net/
PR: ports/130974
Submitted by: Wen Heping <wenheping at gmail.com>
The MPFR library is a C library for multiple-precision floating-point
computations with exact rounding (also called correct rounding). It
is based on the GMP multiple-precision C library.
WWW: http://search.cpan.org/dist/Math-MPFR
PR: ports/131214
Submitted by: Wen Heping <wenheping at gmail.com>
for FreeBSD. The official KDE 4.2.0 (Codename: "The Answer") release
notes can be found at:
http://kde.org/announcements/4.2/index.php.
New supported languages include Arabic, Icelandic, Basque,
Hebrew, Romanian, Tajik and several Indian languages (Bengali India,
Gujarati, Kannada, Maithili, Marathi) indicating a rise in popularity in
this part of Asia.
New ports for KDE 4.2.0:
arabic/kde4-l10n Arabic
hebrew/kde4-l10n Hebrew
misc/kde4-l10n-bn_IN Bengali (India)
misc/kde4-l10n-eu Basque
misc/kde4-l10n-gu Gujarati
misc/kde4-l10n-is Icelandic
misc/kde4-l10n-kn Kannada
misc/kde4-l10n-mai Maithili
misc/kde4-l10n-mr Marathi
misc/kde4-l10n-ro Romanian
misc/kde4-l10n-tg Tajik
math/eigen2 Lightweight library for vector and matrix math
graphics/kipi-plugins-kde4 KDE4 kipi graphics plugins
sysutils/policykit-kde PolicyKit manager for KDE
Unfortunately FreeBSD 6.4 support is dropped.
We'd like to say thanks for feedback and help to:
Matt Tosto, Kris Moore, stickibit, David Johnson, Markus Brueffer,
David Naylor, Thomas Schlesinger, Warren Liddell, Thomas Abthorpe,
Diego Depaoli, Mats Andreassen, portmgr for exp-run and repocopies.
classical Assignment problem for square and rectangular matrices
This module extends the solution of Assignment problem for square
matrices to rectangular matrices by padding zeros. Thus a rectangular
matrix is converted to square matrix by padding necessary zeros.
WWW: http://search.cpan.org/dist/Algorithm-Munkres/
PR: ports/131010
Submitted by: Wen Heping <wenheping at gmail.com>
Carlo (MCMC), is an increasingly relevant approach to
statistical estimation. However, few statistical software
packages implement MCMC samplers, and they are non-trivial
to code by hand. pymc is a python package that implements
the Metropolis-Hastings algorithm as a python class, and is
extremely flexible and applicable to a large suite of problems.
pymc includes methods for summarizing output, plotting,
goodness-of-fit and convergence diagnostics.
WWW: http://pypi.python.org/pypi/pymc/
PR: ports/129567
Submitted by: Wen Heping <wenheping at gmail.com>
offering a collection of utilities for the empirical statistical testing
of uniform random number generators.
The library implements several types of random number generators in generic
form, as well as many specific generators proposed in the literature or
found in widely-used software. It provides general implementations of the
classical statistical tests for random number generators, as well as several
others proposed in the literature, and some original ones. These tests can
be applied to the generators predefined in the library and to user-defined
generators. Specific tests suites for either sequences of uniform random
numbers in [0,1] or bit sequences are also available. Basic tools for
plotting vectors of points produced by generators are provided as well.
Additional software permits one to perform systematic studies of the
interaction between a specific test and the structure of the point sets
produced by a given family of random number generators. That is, for a given
kind of test and a given class of random number generators, to determine how
large should be the sample size of the test, as a function of the generator's
period length, before the generator starts to fail the test systematically.
WWW: http://www.iro.umontreal.ca/~simardr/testu01/tu01.html
PR: ports/128861
Submitted by: bf <bf2006a at yahoo.com>
this GPL'd suite of random number tests will be named "Dieharder". Using a
movie sequel pun for the name is a double tribute to George Marsaglia, whose
"Diehard battery of tests" of random number generators has enjoyed years of
enduring usefulness as a test suite.
The dieharder suite is more than just the diehard tests cleaned up and given a
pretty GPL'd source face in native C: tests from the Statistical Test Suite
(STS) developed by the National Institute for Standards and Technology (NIST)
are being incorporated, as are new tests developed by rgb. Where possible,
tests are parametrized and controllable so that failure, at least, is
unambiguous.
A further design goal is to provide some indication of *why* a generator fails
a test, where such information can be extracted during the test process and
placed in usable form. For example, the bit-distribution tests should
(eventually) be able to display the actual histogram for the different bit
n-tuplets.
Dieharder is by design extensible. It is intended to be the "Swiss army knife
of random number test suites", or if you prefer, "the last suite you'll ever
ware" for testing random numbers.
WWW: http://www.phy.duke.edu/~rgb/General/dieharder.php
PR: ports/128882
Submitted by: bf <bf2006a at yahoo.com>
algorithms for generating non-uniform pseudorandom variates as a library of C
functions designed and implemented by the ARVAG (Automatic Random VAriate
Generation) project group in Vienna, and released under the GNU Public License
(GPL). It is especially designed for situations where:
- a non-standard distribution or a truncated distribution is needed;
- experiments with different types of distributions are made;
- random variates for variance reduction techniques are used; or
- fast generators of predictable quality are necessary.
UNU.RAN provides generators that are superior in many aspects to those found in
quite a number of other libraries; however, due to its more sophisticated
programming interface, it might not be as easy to use.
It uses an object-oriented interface in which distributions and generators are
treated as independent objects, so that different methods for generating
non-uniform random variates may be chosen according to various criteria, such
as speed, quality, and variance reduction. It is flexible enough to permit
sampling from non-standard distributions, such as distributions that arise in
a model and can only be computed in complicated subroutines.
WWW: http://statmath.wu-wien.ac.at/unuran/
PR: ports/128883
Submitted by: bf <bf2006a at yahoo.com>