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<?xml version="1.0" encoding="UTF-8"?>
<!DOCTYPE pkgmetadata SYSTEM "https://www.gentoo.org/dtd/metadata.dtd">
<pkgmetadata>
<maintainer type="person">
<email>mjo@gentoo.org</email>
</maintainer>
<!--
mjo: François maintained this package in the sage-on-gentoo overlay
long before I moved it into ::gentoo. You don't need an ACK from me
to merge his changes.
-->
<maintainer type="person" proxied="yes">
<email>frp.bissey@gmail.com</email>
<name>François Bissey</name>
</maintainer>
<maintainer type="project" proxied="proxy">
<email>proxy-maint@gentoo.org</email>
<name>Proxy Maintainers</name>
</maintainer>
<maintainer type="project">
<email>sci-mathematics@gentoo.org</email>
<name>Gentoo Mathematics Project</name>
</maintainer>
<longdescription lang="en">
The C-library cddlib is a C implementation of the Double Description
Method of Motzkin et al. for generating all vertices (i.e. extreme points)
and extreme rays of a general convex polyhedron in R^d given by a system
of linear inequalities:
P = { x=(x1, ..., xd)^T : b - A x >= 0 }
where A is a given m x d real matrix, b is a given m-vector
and 0 is the m-vector of all zeros.
The program can be used for the reverse operation (i.e. convex hull
computation). This means that one can move back and forth between
an inequality representation and a generator (i.e. vertex and ray)
representation of a polyhedron with cdd. Also, cdd can solve a linear
programming problem, i.e. a problem of maximizing and minimizing
a linear function over P.
</longdescription>
<use>
<flag name="tools">Add a few executables and tests for cddlib</flag>
</use>
<upstream>
<remote-id type="github">cddlib/cddlib</remote-id>
</upstream>
</pkgmetadata>
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