Substitute LIBqrupdate_VERSION instead of hardcoding version numbers.
Don't override FC.
Remove so link to library.
Add NO_REGRESS.
ok pirofti@ (maintainer)
The COLAMD column approximate minimum degree ordering algorithm computes a
permutation vector P such that the LU factorization of A (:,P) tends to be
sparser than that of A. The Cholesky factorization of (A (:,P))'*(A (:,P)) will
also tend to be sparser than that of A'*A. SYMAMD is a symmetric minimum degree
ordering method based on COLAMD, available as a MATLAB-callable function. It
constructs a matrix M such that M'*M has the same pattern as A, and then uses
COLAMD to compute a column ordering of M. Colamd and symamd tend to be faster
and generate better orderings than their MATLAB counterparts, colmmd and symmmd.
breaking cd /usr/ports && SUBDIR=some/path make something for
category makefiles. While there, also put spaces around += uniformously.
okay naddy@, jasper@
I have only waited a short while for djm (maintainer)'s ok, commiting
anyway as it takes out a lot of the tree on !{i386,amd64}.
Fix the regression tests while there.
ok jasper@.
MiniSat is a minimalistic, open-source SAT solver, developed to help
researchers and developers alike to get started on SAT.
Some key features of MiniSat:
* Easy to modify. MiniSat is small and well-documented, and possibly
also well-designed, making it an ideal starting point for adapting SAT
based techniques to domain specific problems.
* Highly efficient. Winning all the industrial categories of the SAT
2005 competition, MiniSat is a good starting point both for future
research in SAT, and for applications using SAT.
* Designed for integration. MiniSat supports incremental SAT and has
mechanisms for adding non-clausal constraints. By virtue of being easy
to modify, it is a good choice for integrating as a backend to another
tool, such as a model checker or a more generic constraint solver.
This is a temporary fix pending a change to qt4's installed pkg-config
files at a suitable point in the release cycle.
- Don't let autoconf pick up LLVM yet.
- regen PLIST, sync WANTLIB, bump PKGNAME.
With martynas@
This module provides a simple way to extend the Math::Symbolic parser
with arbitrary functions that return any valid Math::Symbolic tree. The
return value of the function call is inserted into the complete parse
tree at the point at which the function call is parsed.
from Markus Bergkvist (MAINTAINER), with a tweak by me
Math::Symbolic is intended to offer symbolic calculation capabilities to
the Perl programmer without using external (and commercial) libraries
and/or applications.
from Markus Bergkvist (MAINTAINER), with a tweak by me
Math::MatrixReal implements the data type "matrix of reals" (and
consequently also "vector of reals") which can be used almost like any
other basic Perl type thanks to OPERATOR OVERLOADING.
from Markus Bergkvist (MAINTAINER), with some tweaks by me
This package lets you create and manipulate complex numbers. By
default, Perl limits itself to real numbers, but an extra use statement
brings full complex support, along with a full set of mathematical
functions typically associated with and/or extended to complex numbers.
This module implements the classic "Naive Bayes" machine learning
algorithm. It is a well-studied probabilistic algorithm often used in
automatic text categorization. Compared to other algorithms (kNN, SVM,
Decision Trees), it's pretty fast and reasonably competitive in the
quality of its results.
The Statistics::Contingency class helps you calculate several useful
statistical measures based on 2x2 "contingency tables". These can be
used for measures to help judge the results of automatic text
categorization experiments, but they are useful in other situations
as well.
- explicitely add build_depends on rarian where gnome-doc-utils is also a
build dependency as it does not itself run_depends on rarian anymore
This was the 2nd and hopefully last pass of rarian/scrollkeeper cleaning.
discussed with jasper@
science, and engineering. It includes modules for statistics,
optimization, integration, linear algebra, Fourier transforms, signal
and image processing, genetic algorithms, ODE solvers, and more. It
is also the name of a very popular conference on scientific
programming with Python.
The SciPy library depends on NumPy, which provides convenient and fast
N-dimensional array manipulation. The SciPy library is built to work
with NumPy arrays, and provides many user-friendly and efficient
numerical routines such as routines for numerical integration and
optimization. Together, they run on all popular operating systems, are
quick to install, and are free of charge. NumPy and SciPy are easy to
use, but powerful enough to be depended upon by some of the world's
leading scientists and engineers. If you need to manipulate numbers on
a computer and display or publish the results, give SciPy a try!
ok ajacoutot@
wcalc is a powerful arbitrary-precision calculator. It has standard
functions (sin, asinh, logtwo, floor, etc), many pre-defined constants
(pi, e, c, etc.), variables, "active" variables, command history, and
hex/octal/binary i/o, conversions, and more.
from maintainer Amarendra Godbole
tested on amd64, and looks ok to steven@
support is present. since we don't have it yet; it implements
it's own. however, on alpha, powerpc, it declared functions with
types that conflict with C99 (double for *l), therefore failed.
reported by merdely@; tested by and ok kili@
